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I2C slave issues
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mob1182



Joined: 03 Mar 2016
Posts: 28

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I2C slave issues
PostPosted: Thu Jan 12, 2017 1:36 pm     Reply with quote

I've been trying to do some work with I2C, sending info from one pic to another, and I'm having some strange difficulties. So I stripped my slave code down as much as I can but I still don't know what I'm doing wrong. Actually everything seems to be working fine until I add a large enough global array. Or if I add few libraries. Basically anything large enough before the INT.

Compiler PCWH 5.066

Slave code
Code:

#include "main.h"

char get_string[65];

int i2c_flag, i;
int state[5];
int data[5];


///////////////////////////////////////////////////////////////////////////////
#int_SSP
void SSP_ISR() {
   state[i] = i2c_isr_state(I2C);
   data[i] = i2c_read(I2C,1);
   i++;
   i2c_flag++;
}
///////////////////////////////////////////////////////////////////////////////
void main() {
   delay_ms(100);
   set_uart_speed(9600, COM);
   //--------------------------------------------------------------------------
   while (true)   {
      fprintf(COM, "USER\r\n");
      for (i=0; i<5; i++) {
         state[i] = 0;
         data[i] = 0;
      }
      i2c_flag = 0;
      i = 0;
      clear_interrupt(INT_SSP);
      enable_interrupts(INT_SSP);
      enable_interrupts(GLOBAL);
      while (!i2c_flag) {
         delay_us(1);
      }
      delay_ms(500);
      disable_interrupts(GLOBAL);
      disable_interrupts(INT_SSP);
      for (i=0; i < 5; i++)   {
         fprintf(COM, "state[%u] = %u\r\n", i, state[i]);
         fprintf(COM, "data[%u]  = %u\r\n", i, data[i]);
      }
   }
}

slave main.h
Code:

#include <18F47K40.h>
#DEVICE ADC=10

#FUSES NOPPS1WAY
#FUSES NOEXTOSC
//#FUSES NOMCLR   //MCLR on pull up and spst
#FUSES NOBROWNOUT
#FUSES NOLVP
#FUSES NOWDT
#FUSES NOPROTECT
#FUSES PUT
#USE delay(internal=64MHz)
//=============================================================================
// PIN SELECTS
//=============================================================================
#PIN_SELECT SCL1IN   = PIN_C3
#PIN_SELECT SCL1OUT  = PIN_C3
#PIN_SELECT SDA1IN   = PIN_C4
#PIN_SELECT SDA1OUT  = PIN_C4

#PIN_SELECT SCL2IN   = PIN_B1
#PIN_SELECT SCL2OUT  = PIN_B1
#PIN_SELECT SDA2IN   = PIN_B2
#PIN_SELECT SDA2OUT  = PIN_B2

#PIN_SELECT U1TX     = PIN_C6
#PIN_SELECT U1RX     = PIN_C7
//=============================================================================
#USE RS232(UART1, BAUD=9600, PARITY=N, BITS=8, ERRORS, STREAM=COM)
#USE I2C(I2C1, slave, address = 0xA0, STREAM=I2C)


some of the master
function - pKeyword[1] hold the string that will be sent to the slave
Code:

void send_slave()   {
   int i, len;
   int send[10];

   len = strlen(pKeyword[1]);
   fprintf(COM, "word = %s\r\n", pKeyword[1]);
   fprintf(COM, "len = %u\r\n", len);
   for (i=0; i<len; i++)   {
      send[i] = *(pKeyword[1] + i);
      fprintf(COM, "send[%u] = %u\r\n", i, send[i]);
   }

   i2c_start(I2C);               //start
   i2c_write(I2C, 0XA0);         //address
   for (i=0; i<len; i++)   {     //data
      i2c_write(I2C, send[i]);
   }
   i2c_stop(I2C);                //stop
}

master main.h
Code:

#include <18F47K40.h>
//=============================================================================
//The compiler is not setting these addressess correctly so unitil there is an
//update manually set these(Ignore duplicate locates during compile)
//=============================================================================
#word   CCP_1       = 0xFAA
#byte   CCP_1_LOW   = 0xFAA
#byte   CCP_1_HIGH  = 0xFAB
#word   CCP_2       = 0xFA6
#byte   CCP_2_LOW   = 0xFA6
#byte   CCP_2_HIGH  = 0xFA7
//=============================================================================
// MCU OPTIONS
//=============================================================================
#DEVICE ADC=10
//=============================================================================
// MCU CONFIGUARTION WORDS
//=============================================================================
#FUSES NOPPS1WAY
#FUSES NOEXTOSC               //External Oscillator not enabled
#FUSES CLKOUT                 //Clockout on Pin 14
#FUSES NOMCLR                 //Master Clear pin used for I/O
#FUSES NOBROWNOUT             //No Brownout Reset
#FUSES NOLVP                  //No Low Voltage Programming, B5 used for I/O
#FUSES NOWDT                  //No Watchdog Timer
#FUSES NOPROTECT              //
#FUSES PUT                    //Power Up Timer
#USE delay(internal=64MHz, clock_out)
//=============================================================================
// PIN SELECTS
//=============================================================================
#PIN_SELECT CCP1     = PIN_C2
#PIN_SELECT CCP2     = PIN_C1
#PIN_SELECT SCL1IN   = PIN_C3           //The I2C1_SCL #DEFINE must equal this
#PIN_SELECT SCL1OUT  = PIN_C3           //The I2C1_SCL #DEFINE must equal this
#PIN_SELECT SDA1IN   = PIN_C4           //The I2C1_SDA #DEFINE must equal this
#PIN_SELECT SDA1OUT  = PIN_C4           //The I2C1_SDA #DEFINE must equal this
#PIN_SELECT SCL2IN   = PIN_B1
#PIN_SELECT SCL2OUT  = PIN_B1
#PIN_SELECT SDA2IN   = PIN_B2
#PIN_SELECT SDA2OUT  = PIN_B2
#PIN_SELECT U1RX     = PIN_C7
#PIN_SELECT U1TX     = PIN_C6
#PIN_SELECT U2RX     = PIN_B5
#PIN_SELECT U2TX     = PIN_B4
//=============================================================================
// INITIAL STREAM SETUPS
//=============================================================================
#USE RS232(UART1, BAUD=9600, PARITY=N, BITS=8, ERRORS, STREAM=COM)
#USE RS232(UART2, BAUD=9600, PARITY=N, BITS=8, ERRORS, STREAM=USB)
#USE RS232(BAUD=2400, XMIT=PIN_E1, RCV=PIN_E2, STREAM = MOTOR)
#USE I2C(MASTER, I2C1, STREAM=EEPROM)
#USE I2C(MASTER, I2C2, STREAM=I2C)


The master is on a picdem labII and the slave is on an explorer 8(this is why the nomclr is commented out in the slave code).

If my get_string is anything less than 66 it works fine
If I send the string "o2"
master sends to teraterm
Quote:

word = o2
len = 2
send[0] = 111
send[1] = 50

slave sends
Quote:

USER
state[0] = 0
data[0] = 160
state[1] = 1
data[1] = 111
state[2] = 2
data[2] = 50
state[3] = 0
data[3] = 0
state[4] = 0
data[4] = 0
USER

So it "appears" to work
but when get_string is 67
master sends to teraterm
Quote:

word = o2
len = 2
send[0] = 111
send[1] = 50

slave sends
Quote:

USER
state[0] = 0
data[0] = 0
state[1] = 0
data[1] = 0
state[2] = 0
data[2] = 0
state[3] = 0
data[3] = 0
state[4] = 0
data[4] = 0
USER

Now this is strange cause the print should even happen if it didn't enter the interrupt, but since it did why is it all 0's
Now if get_string is 68 nothing happens on the slave end at all

In all 3 situations I can verify that the same exact data is being sent

Using 2.2k Pull up resistors. I know I'm going off board here with jumper wires but the rise time is currently well within spec. I also have the grounds of both boards tied together.

Im new to I2C so I'm sure im missing something but after looking through manuals all day I can't seem to find what it is. Any help would be greatly appreciated! Thanks!

additional info
lst with get_string 65
Quote:

ROM used: 1102 bytes (1%)
Largest free fragment is 65536
RAM used: 110 (3%) at main() level
116 (3%) worst case
Stack used: 2 locations (1 in main + 1 for interrupts)
Stack size: 31

*
00000: GOTO MAIN
*
00008: MOVWF 04
0000A: MOVFF STATUS,05
0000E: MOVFF BSR,06
00012: MOVLB 0
00014: MOVFF FSR0L,0C
00018: MOVFF FSR0H,07
0001C: MOVFF FSR1L,08
00020: MOVFF FSR1H,09
00024: MOVFF FSR2L,0A
00028: MOVFF FSR2H,0B
0002C: MOVFF PRODL,12
00030: MOVFF PRODH,13
00034: MOVFF PCLATH,14
00038: MOVFF TABLAT,15
0003C: MOVFF TBLPTRL,16
00040: MOVFF TBLPTRH,17
00044: MOVFF TBLPTRU,18
00048: MOVFF PCLATU,19
0004C: MOVFF 00,0E
00050: MOVFF 01,0F
00054: MOVFF 02,10
00058: MOVFF 03,11
0005C: MOVLB E
0005E: BTFSS xC5.0
00060: GOTO 006A
00064: BTFSC xCD.0
00066: GOTO 00C0
0006A: MOVFF 0E,00
0006E: MOVFF 0F,01
00072: MOVFF 10,02
00076: MOVFF 11,03
0007A: MOVFF 0C,FSR0L
0007E: MOVFF 07,FSR0H
00082: BSF 07.7
00084: MOVFF 08,FSR1L
00088: MOVFF 09,FSR1H
0008C: MOVFF 0A,FSR2L
00090: MOVFF 0B,FSR2H
00094: MOVFF 12,PRODL
00098: MOVFF 13,PRODH
0009C: MOVFF 14,PCLATH
000A0: MOVFF 15,TABLAT
000A4: MOVFF 16,TBLPTRL
000A8: MOVFF 17,TBLPTRH
000AC: MOVFF 18,TBLPTRU
000B0: MOVFF 19,PCLATU
000B4: MOVF 04,W
000B6: MOVFF 06,BSR
000BA: MOVFF 05,STATUS
000BE: RETFIE 0
.................... #include "main.h"
.................... #include <18F47K40.h>
.................... //////////// Standard Header file for the PIC18F47K40 device ////////////////
.................... ///////////////////////////////////////////////////////////////////////////
.................... //// (C) Copyright 1996, 2014 Custom Computer Services ////
.................... //// This source code may only be used by licensed users of the CCS C ////
.................... //// compiler. This source code may only be distributed to other ////
.................... //// licensed users of the CCS C compiler. No other use, reproduction ////
.................... //// or distribution is permitted without written permission. ////
.................... //// Derivative programs created using this software in object code ////
.................... //// form are not restricted in any way. ////
.................... ///////////////////////////////////////////////////////////////////////////
.................... #device PIC18F47K40
*
00106: DATA 55,53
00108: DATA 45,52
0010A: DATA 0D,0A
0010C: DATA 00,00
0010E: DATA 73,74
00110: DATA 61,74
00112: DATA 65,5B
00114: DATA 25,75
00116: DATA 5D,20
00118: DATA 3D,20
0011A: DATA 25,75
0011C: DATA 0D,0A
0011E: DATA 00,00
00120: DATA 64,61
00122: DATA 74,61
00124: DATA 5B,25
00126: DATA 75,5D
00128: DATA 20,20
0012A: DATA 3D,20
0012C: DATA 25,75
0012E: DATA 0D,0A
00130: DATA 00,00
*
0015A: TBLRD*+
0015C: MOVF TABLAT,F
0015E: BZ 0186
00160: MOVFF TBLPTRL,@@6C
00164: MOVFF TBLPTRH,@@6D
00168: MOVFF TBLPTRU,@@6E
0016C: MOVF TABLAT,W
0016E: MOVLB E
00170: BTFSS xCD.4
00172: BRA 0170
00174: MOVWF TX1REG
00176: MOVFF @@6C,TBLPTRL
0017A: MOVFF @@6D,TBLPTRH
0017E: MOVFF @@6E,TBLPTRU
00182: MOVLB 0
00184: BRA 015A
00186: GOTO 0320 (RETURN)
0018A: TBLRD*+
0018C: MOVFF TBLPTRL,@@6E
00190: MOVFF TBLPTRH,@@6F
00194: MOVFF TBLPTRU,@@70
00198: MOVF TABLAT,W
0019A: MOVLB E
0019C: BTFSS xCD.4
0019E: BRA 019C
001A0: MOVWF TX1REG
001A2: MOVFF @@6E,TBLPTRL
001A6: MOVFF @@6F,TBLPTRH
001AA: MOVFF @@70,TBLPTRU
001AE: MOVLB 0
001B0: DECFSZ ??65535,F
001B2: BRA 018A
001B4: RETURN 0
001B6: MOVF @DIV88.P1,W
001B8: CLRF @01
001BA: SUBWF ??65535,W
001BC: BC 01C4
001BE: MOVFF ??65535,00
001C2: BRA 01DC
001C4: CLRF @00
001C6: MOVLW 08
001C8: MOVWF @@x71
001CA: RLCF ??65535,F
001CC: RLCF @00,F
001CE: MOVF @DIV88.P1,W
001D0: SUBWF @00,W
001D2: BTFSC STATUS.C
001D4: MOVWF @00
001D6: RLCF @01,F
001D8: DECFSZ @@x71,F
001DA: BRA 01CA
001DC: RETURN 0
001DE: MOVF @01,W
001E0: MOVFF ??65535,??65535
001E4: MOVLW 64
001E6: MOVWF @DIV88.P1
001E8: RCALL 01B6
001EA: MOVFF 00,??65535
001EE: MOVF @01,W
001F0: MOVLW 30
001F2: BNZ 0202
001F4: BTFSS @PRINTF_U_9600_31870_31871.P1.1
001F6: BRA 0216
001F8: BTFSC @PRINTF_U_9600_31870_31871.P1.3
001FA: BRA 0216
001FC: BTFSC @PRINTF_U_9600_31870_31871.P1.4
001FE: MOVLW 20
00200: BRA 0208
00202: BCF @PRINTF_U_9600_31870_31871.P1.3
00204: BCF @PRINTF_U_9600_31870_31871.P1.4
00206: BSF @PRINTF_U_9600_31870_31871.P1.0
00208: ADDWF @01,F
0020A: MOVF @01,W
0020C: MOVLB E
0020E: BTFSS xCD.4
00210: BRA 020E
00212: MOVWF TX1REG
00214: MOVLB 0
00216: MOVFF ??65535,??65535
0021A: MOVLW 0A
0021C: MOVWF @DIV88.P1
0021E: RCALL 01B6
00220: MOVFF 00,??65535
00224: MOVF @01,W
00226: MOVLW 30
00228: BNZ 0236
0022A: BTFSC @PRINTF_U_9600_31870_31871.P1.3
0022C: BRA 0244
0022E: BTFSS @PRINTF_U_9600_31870_31871.P1.0
00230: BRA 0244
00232: BTFSC @PRINTF_U_9600_31870_31871.P1.4
00234: MOVLW 20
00236: ADDWF @01,F
00238: MOVF @01,W
0023A: MOVLB E
0023C: BTFSS xCD.4
0023E: BRA 023C
00240: MOVWF TX1REG
00242: MOVLB 0
00244: MOVLW 30
00246: ADDWF ??65535,F
00248: MOVF ??65535,W
0024A: MOVLB E
0024C: BTFSS xCD.4
0024E: BRA 024C
00250: MOVWF TX1REG
00252: MOVLB 0
00254: RETURN 0
....................
.................... #list
....................
.................... #DEVICE ADC=10
....................
.................... #FUSES NOPPS1WAY
.................... #FUSES NOEXTOSC
.................... //#FUSES NOMCLR //MCLR on pull up and spst
.................... #FUSES NOBROWNOUT
.................... #FUSES NOLVP
.................... #FUSES NOWDT
.................... #FUSES NOPROTECT
.................... #FUSES PUT
.................... #USE delay(internal=64MHz)
*
00132: CLRF FSR0H
00134: MOVLW ??65535
00136: MOVWF FSR0L
00138: MOVF INDF0,W
0013A: BZ 0158
0013C: MOVLW 14
0013E: MOVWF @01
00140: CLRF @00
00142: DECFSZ @00,F
00144: BRA 0142
00146: DECFSZ @01,F
00148: BRA 0140
0014A: MOVLW BF
0014C: MOVWF @00
0014E: DECFSZ @00,F
00150: BRA 014E
00152: BRA 0154
00154: DECFSZ INDF0,F
00156: BRA 013C
00158: RETURN 0
.................... //=============================================================================
.................... // PIN SELECTS
.................... //=============================================================================
.................... #PIN_SELECT SCL1IN = PIN_C3
.................... #PIN_SELECT SCL1OUT = PIN_C3
.................... #PIN_SELECT SDA1IN = PIN_C4
.................... #PIN_SELECT SDA1OUT = PIN_C4
....................
.................... #PIN_SELECT SCL2IN = PIN_B1
.................... #PIN_SELECT SCL2OUT = PIN_B1
.................... #PIN_SELECT SDA2IN = PIN_B2
.................... #PIN_SELECT SDA2OUT = PIN_B2
....................
.................... #PIN_SELECT U1TX = PIN_C6
.................... #PIN_SELECT U1RX = PIN_C7
.................... //=============================================================================
.................... #USE RS232(UART1, BAUD=9600, PARITY=N, BITS=8, ERRORS, STREAM=COM)
.................... #USE I2C(I2C1, slave, address = 0xA0, STREAM=I2C)
....................
....................
....................
....................
....................
.................... char get_string[65];
....................
.................... int i2c_flag, i;
.................... int state[5];
.................... int data[5];
.................... ///////////////////////////////////////////////////////////////////////////////
.................... #int_SSP
.................... void SSP_ISR() {
.................... state[i] = i2c_isr_state(I2C);
*
000C0: CLRF @03
000C2: MOVF i,W
000C4: ADDLW state
000C6: MOVWF FSR0L
000C8: MOVLW state+-95
000CA: ADDWFC @03,W
000CC: MOVWF FSR0H
000CE: BTFSC SSP1STAT.A
000D0: BRA 00D8
000D2: CLRF @I2C_STATE
000D4: BTFSC SSP1STAT.W
000D6: BSF @I2C_STATE.7
000D8: MOVF @I2C_STATE,W
000DA: INCF @I2C_STATE,F
000DC: MOVWF INDF0
.................... data[i] = i2c_read(I2C,1);
000DE: CLRF @03
000E0: MOVF i,W
000E2: ADDLW data
000E4: MOVWF FSR0L
000E6: MOVLW data+-100
000E8: ADDWFC @03,W
000EA: MOVWF FSR0H
000EC: BCF SSP1CON1.SSPOV
000EE: BTFSS SSP1STAT.BF
000F0: BRA 00EE
000F2: MOVF SSP1BUF,W
000F4: BSF SSP1CON1.CKP
000F6: MOVWF INDF0
.................... i++;
000F8: INCF i,F
.................... i2c_flag++;
000FA: INCF i2c_flag,F
000FC: MOVLB E
000FE: BCF xCD.0
00100: MOVLB 0
00102: GOTO 006A
.................... }
.................... ///////////////////////////////////////////////////////////////////////////////
.................... void main() {
*
00256: BSF NVMCON1.NVMREG1
00258: BCF NVMCON1.NVMREG0
0025A: CLRF TBLPTRU
0025C: BCF T1GCON.GE
0025E: BSF 07.7
00260: MOVLB E
00262: MOVLW 55
00264: MOVWF xA0
00266: MOVLW AA
00268: MOVWF xA0
0026A: BCF xA0.0
0026C: MOVLW 17
0026E: MOVWF xB5
00270: MOVLW 13
00272: MOVWF xB7
00274: MOVLW 14
00276: MOVWF xB8
00278: MOVLW 09
0027A: MOVWF x8F
0027C: MOVLW 0A
0027E: MOVWF x90
00280: MOVLW 11
00282: MOVWF xF0
00284: MOVLW 12
00286: MOVWF xF1
00288: MOVLW 0F
0028A: MOVWF xFA
0028C: MOVLW 10
0028E: MOVWF xFB
00290: MOVLW 09
00292: MOVWF xFD
00294: MOVLW 55
00296: MOVWF xA0
00298: MOVLW AA
0029A: MOVWF xA0
0029C: BSF xA0.0
0029E: CLRF xDD
002A0: CLRF xDA
002A2: CLRF xDC
002A4: MOVLW 08
002A6: MOVWF xDE
002A8: MOVLW 60
002AA: MOVWF xD8
002AC: CLRF rs232_errors
002AE: BSF BAUD1CON.BRG16
002B0: MOVLW 82
002B2: MOVWF SP1BRGL
002B4: MOVLW 06
002B6: MOVWF SP1BRGH
002B8: MOVLW A6
002BA: MOVWF TX1STA
002BC: MOVLW 90
002BE: MOVWF RC1STA
002C0: BSF TRISC.3
002C2: BSF TRISC.4
002C4: MOVLW A0
002C6: MOVWF SSP1ADD
002C8: SETF SSP1MSK
002CA: MOVLW 36
002CC: MOVWF SSP1CON1
002CE: BSF SSP1CON2.SEN
002D0: BSF SSP1CON2.GCEN
002D2: MOVLW 03
002D4: MOVLB 0
002D6: MOVWF @I2C_STATE
002D8: CLRF @sprintf_string+1
002DA: CLRF @sprintf_string
002DC: MOVLB F
002DE: CLRF x11
002E0: CLRF x19
002E2: CLRF x21
002E4: CLRF x26
002E6: CLRF x2E
002E8: CLRF x3A
002EA: CLRF x3B
002EC: CLRF x3C
002EE: CLRF x39
002F0: CLRF x36
002F2: CLRF x37
002F4: CLRF x38
002F6: CLRF x35
.................... delay_ms(100);
002F8: MOVLW 64
002FA: MOVLB 0
002FC: MOVWF ??65535
002FE: RCALL 0132
.................... set_uart_speed(9600, COM);
00300: BSF BAUD1CON.BRG16
00302: MOVLW 82
00304: MOVWF SP1BRGL
00306: MOVLW 06
00308: MOVWF SP1BRGH
0030A: MOVLW A6
0030C: MOVWF TX1STA
0030E: MOVLW 90
00310: MOVWF RC1STA
.................... //--------------------------------------------------------------------------
.................... while (true) {
.................... fprintf(COM, "USER\r\n");
00312: MOVLW 06
00314: MOVWF TBLPTRL
00316: MOVLW 01
00318: MOVWF TBLPTRH
0031A: MOVLW 00
0031C: MOVWF TBLPTRU
0031E: BRA 015A
.................... for (i=0; i<5; i++) {
00320: CLRF i
00322: MOVF i,W
00324: SUBLW 04
00326: BNC 034C
.................... state[i] = 0;
00328: CLRF @03
0032A: MOVF i,W
0032C: ADDLW state
0032E: MOVWF FSR0L
00330: MOVLW state+-95
00332: ADDWFC @03,W
00334: MOVWF FSR0H
00336: CLRF INDF0
.................... data[i] = 0;
00338: CLRF @03
0033A: MOVF i,W
0033C: ADDLW data
0033E: MOVWF FSR0L
00340: MOVLW data+-100
00342: ADDWFC @03,W
00344: MOVWF FSR0H
00346: CLRF INDF0
00348: INCF i,F
0034A: BRA 0322
.................... }
.................... i2c_flag = 0;
0034C: CLRF i2c_flag
.................... i = 0;
0034E: CLRF i
.................... clear_interrupt(INT_SSP);
00350: MOVLB E
00352: BCF xCD.0
.................... enable_interrupts(INT_SSP);
00354: BSF xC5.0
.................... enable_interrupts(GLOBAL);
00356: MOVLW C0
00358: IORWF INTCON,F
.................... while (!i2c_flag) {
0035A: MOVF i2c_flag,F
0035C: BNZ 0368
.................... delay_us(1);
0035E: MOVLW 05
00360: MOVWF @00
00362: DECFSZ @00,F
00364: BRA 0362
00366: BRA 035A
.................... }
.................... delay_ms(500);
00368: MOVLW 02
0036A: MOVLB 0
0036C: MOVWF @@x6C
0036E: MOVLW FA
00370: MOVWF ??65535
00372: RCALL 0132
00374: DECFSZ @@x6C,F
00376: BRA 036E
.................... disable_interrupts(GLOBAL);
00378: BCF INTCON.GIEL
0037A: BCF INTCON.GIEH
0037C: BTFSC INTCON.GIEH
0037E: BRA 037A
.................... disable_interrupts(INT_SSP);
00380: MOVLB E
00382: BCF xC5.0
.................... for (i=0; i < 5; i++) {
00384: CLRF i
00386: MOVF i,W
00388: SUBLW 04
0038A: BNC 044C
.................... fprintf(COM, "state[%u] = %u\r\n", i, state[i]);
0038C: CLRF @03
0038E: MOVF i,W
00390: ADDLW state
00392: MOVWF FSR0L
00394: MOVLW state+-95
00396: ADDWFC @03,W
00398: MOVWF FSR0H
0039A: MOVFF INDF0,@@6C
0039E: MOVLW 0E
003A0: MOVWF TBLPTRL
003A2: MOVLW 01
003A4: MOVWF TBLPTRH
003A6: MOVLW 00
003A8: MOVWF TBLPTRU
003AA: MOVLW 06
003AC: MOVLB 0
003AE: MOVWF ??65535
003B0: RCALL 018A
003B2: MOVFF i,??65535
003B6: MOVLW 1B
003B8: MOVWF @PRINTF_U_9600_31870_31871.P1
003BA: RCALL 01DE
003BC: MOVLW 16
003BE: MOVWF TBLPTRL
003C0: MOVLW 01
003C2: MOVWF TBLPTRH
003C4: MOVLW 00
003C6: MOVWF TBLPTRU
003C8: MOVLW 04
003CA: MOVWF ??65535
003CC: RCALL 018A
003CE: MOVFF @@6C,??65535
003D2: MOVLW 1B
003D4: MOVWF @PRINTF_U_9600_31870_31871.P1
003D6: RCALL 01DE
003D8: MOVLW 0D
003DA: MOVLB E
003DC: BTFSS xCD.4
003DE: BRA 03DC
003E0: MOVWF TX1REG
003E2: MOVLW 0A
003E4: BTFSS xCD.4
003E6: BRA 03E4
003E8: MOVWF TX1REG
.................... fprintf(COM, "data[%u] = %u\r\n", i, data[i]);
003EA: CLRF @03
003EC: MOVF i,W
003EE: ADDLW data
003F0: MOVWF FSR0L
003F2: MOVLW data+-100
003F4: ADDWFC @03,W
003F6: MOVWF FSR0H
003F8: MOVFF INDF0,@@6C
003FC: MOVLW 20
003FE: MOVWF TBLPTRL
00400: MOVLW 01
00402: MOVWF TBLPTRH
00404: MOVLW 00
00406: MOVWF TBLPTRU
00408: MOVLW 05
0040A: MOVLB 0
0040C: MOVWF ??65535
0040E: RCALL 018A
00410: MOVFF i,??65535
00414: MOVLW 1B
00416: MOVWF @PRINTF_U_9600_31870_31871.P1
00418: RCALL 01DE
0041A: MOVLW 27
0041C: MOVWF TBLPTRL
0041E: MOVLW 01
00420: MOVWF TBLPTRH
00422: MOVLW 00
00424: MOVWF TBLPTRU
00426: MOVLW 05
00428: MOVWF ??65535
0042A: RCALL 018A
0042C: MOVFF @@6C,??65535
00430: MOVLW 1B
00432: MOVWF @PRINTF_U_9600_31870_31871.P1
00434: RCALL 01DE
00436: MOVLW 0D
00438: MOVLB E
0043A: BTFSS xCD.4
0043C: BRA 043A
0043E: MOVWF TX1REG
00440: MOVLW 0A
00442: BTFSS xCD.4
00444: BRA 0442
00446: MOVWF TX1REG
00448: INCF i,F
0044A: BRA 0386
.................... }
0044C: MOVLB 0
0044E: BRA 0312
.................... }
.................... }
....................
00450: SLEEP
....................
....................
....................

Configuration Fuses:
Word 1: 2904 NOEXTOSC RSTOSC_HFINTRC_64MHZ NOCLKOUT CKS FCMEN
Word 2: B721 MCLR PUT NOLPBOR NOBROWNOUT BORV24 ZCDDIS NOPPS1WAY STVREN NODEBUG NOXINST
Word 3: 3F1F WDTSW NOWDT WDTWIN_SW WDTCLK_SW
Word 4: 17FF NOWRT NOWRTC NOWRTB NOWRTD SCANE NOLVP
Word 5: 0003 NOPROTECT NOCPD
Word 6: 02FF NOEBTR NOEBTRB

lst with get string 68
Quote:

ROM used: 1102 bytes (1%)
Largest free fragment is 65536
RAM used: 113 (3%) at main() level
119 (3%) worst case
Stack used: 2 locations (1 in main + 1 for interrupts)
Stack size: 31

*
00000: GOTO MAIN
*
00008: MOVWF 04
0000A: MOVFF STATUS,05
0000E: MOVFF BSR,06
00012: MOVLB 0
00014: MOVFF FSR0L,0C
00018: MOVFF FSR0H,07
0001C: MOVFF FSR1L,08
00020: MOVFF FSR1H,09
00024: MOVFF FSR2L,0A
00028: MOVFF FSR2H,0B
0002C: MOVFF PRODL,12
00030: MOVFF PRODH,13
00034: MOVFF PCLATH,14
00038: MOVFF TABLAT,15
0003C: MOVFF TBLPTRL,16
00040: MOVFF TBLPTRH,17
00044: MOVFF TBLPTRU,18
00048: MOVFF PCLATU,19
0004C: MOVFF 00,0E
00050: MOVFF 01,0F
00054: MOVFF 02,10
00058: MOVFF 03,11
0005C: MOVLB E
0005E: BTFSS xC5.0
00060: GOTO 006A
00064: BTFSC xCD.0
00066: GOTO 00C0
0006A: MOVFF 0E,00
0006E: MOVFF 0F,01
00072: MOVFF 10,02
00076: MOVFF 11,03
0007A: MOVFF 0C,FSR0L
0007E: MOVFF 07,FSR0H
00082: BSF 07.7
00084: MOVFF 08,FSR1L
00088: MOVFF 09,FSR1H
0008C: MOVFF 0A,FSR2L
00090: MOVFF 0B,FSR2H
00094: MOVFF 12,PRODL
00098: MOVFF 13,PRODH
0009C: MOVFF 14,PCLATH
000A0: MOVFF 15,TABLAT
000A4: MOVFF 16,TBLPTRL
000A8: MOVFF 17,TBLPTRH
000AC: MOVFF 18,TBLPTRU
000B0: MOVFF 19,PCLATU
000B4: MOVF 04,W
000B6: MOVFF 06,BSR
000BA: MOVFF 05,STATUS
000BE: RETFIE 0
.................... #include "main.h"
.................... #include <18F47K40.h>
.................... //////////// Standard Header file for the PIC18F47K40 device ////////////////
.................... ///////////////////////////////////////////////////////////////////////////
.................... //// (C) Copyright 1996, 2014 Custom Computer Services ////
.................... //// This source code may only be used by licensed users of the CCS C ////
.................... //// compiler. This source code may only be distributed to other ////
.................... //// licensed users of the CCS C compiler. No other use, reproduction ////
.................... //// or distribution is permitted without written permission. ////
.................... //// Derivative programs created using this software in object code ////
.................... //// form are not restricted in any way. ////
.................... ///////////////////////////////////////////////////////////////////////////
.................... #device PIC18F47K40
*
00106: DATA 55,53
00108: DATA 45,52
0010A: DATA 0D,0A
0010C: DATA 00,00
0010E: DATA 73,74
00110: DATA 61,74
00112: DATA 65,5B
00114: DATA 25,75
00116: DATA 5D,20
00118: DATA 3D,20
0011A: DATA 25,75
0011C: DATA 0D,0A
0011E: DATA 00,00
00120: DATA 64,61
00122: DATA 74,61
00124: DATA 5B,25
00126: DATA 75,5D
00128: DATA 20,20
0012A: DATA 3D,20
0012C: DATA 25,75
0012E: DATA 0D,0A
00130: DATA 00,00
*
0015A: TBLRD*+
0015C: MOVF TABLAT,F
0015E: BZ 0186
00160: MOVFF TBLPTRL,@@6F
00164: MOVFF TBLPTRH,@@70
00168: MOVFF TBLPTRU,@@71
0016C: MOVF TABLAT,W
0016E: MOVLB E
00170: BTFSS xCD.4
00172: BRA 0170
00174: MOVWF TX1REG
00176: MOVFF @@6F,TBLPTRL
0017A: MOVFF @@70,TBLPTRH
0017E: MOVFF @@71,TBLPTRU
00182: MOVLB 0
00184: BRA 015A
00186: GOTO 0320 (RETURN)
0018A: TBLRD*+
0018C: MOVFF TBLPTRL,@@71
00190: MOVFF TBLPTRH,@@72
00194: MOVFF TBLPTRU,@@73
00198: MOVF TABLAT,W
0019A: MOVLB E
0019C: BTFSS xCD.4
0019E: BRA 019C
001A0: MOVWF TX1REG
001A2: MOVFF @@71,TBLPTRL
001A6: MOVFF @@72,TBLPTRH
001AA: MOVFF @@73,TBLPTRU
001AE: MOVLB 0
001B0: DECFSZ ??65535,F
001B2: BRA 018A
001B4: RETURN 0
001B6: MOVF @DIV88.P1,W
001B8: CLRF @01
001BA: SUBWF ??65535,W
001BC: BC 01C4
001BE: MOVFF ??65535,00
001C2: BRA 01DC
001C4: CLRF @00
001C6: MOVLW 08
001C8: MOVWF @@x74
001CA: RLCF ??65535,F
001CC: RLCF @00,F
001CE: MOVF @DIV88.P1,W
001D0: SUBWF @00,W
001D2: BTFSC STATUS.C
001D4: MOVWF @00
001D6: RLCF @01,F
001D8: DECFSZ @@x74,F
001DA: BRA 01CA
001DC: RETURN 0
001DE: MOVF @01,W
001E0: MOVFF ??65535,??65535
001E4: MOVLW 64
001E6: MOVWF @DIV88.P1
001E8: RCALL 01B6
001EA: MOVFF 00,??65535
001EE: MOVF @01,W
001F0: MOVLW 30
001F2: BNZ 0202
001F4: BTFSS @PRINTF_U_9600_31870_31871.P1.1
001F6: BRA 0216
001F8: BTFSC @PRINTF_U_9600_31870_31871.P1.3
001FA: BRA 0216
001FC: BTFSC @PRINTF_U_9600_31870_31871.P1.4
001FE: MOVLW 20
00200: BRA 0208
00202: BCF @PRINTF_U_9600_31870_31871.P1.3
00204: BCF @PRINTF_U_9600_31870_31871.P1.4
00206: BSF @PRINTF_U_9600_31870_31871.P1.0
00208: ADDWF @01,F
0020A: MOVF @01,W
0020C: MOVLB E
0020E: BTFSS xCD.4
00210: BRA 020E
00212: MOVWF TX1REG
00214: MOVLB 0
00216: MOVFF ??65535,??65535
0021A: MOVLW 0A
0021C: MOVWF @DIV88.P1
0021E: RCALL 01B6
00220: MOVFF 00,??65535
00224: MOVF @01,W
00226: MOVLW 30
00228: BNZ 0236
0022A: BTFSC @PRINTF_U_9600_31870_31871.P1.3
0022C: BRA 0244
0022E: BTFSS @PRINTF_U_9600_31870_31871.P1.0
00230: BRA 0244
00232: BTFSC @PRINTF_U_9600_31870_31871.P1.4
00234: MOVLW 20
00236: ADDWF @01,F
00238: MOVF @01,W
0023A: MOVLB E
0023C: BTFSS xCD.4
0023E: BRA 023C
00240: MOVWF TX1REG
00242: MOVLB 0
00244: MOVLW 30
00246: ADDWF ??65535,F
00248: MOVF ??65535,W
0024A: MOVLB E
0024C: BTFSS xCD.4
0024E: BRA 024C
00250: MOVWF TX1REG
00252: MOVLB 0
00254: RETURN 0
....................
.................... #list
....................
.................... #DEVICE ADC=10
....................
.................... #FUSES NOPPS1WAY
.................... #FUSES NOEXTOSC
.................... //#FUSES NOMCLR //MCLR on pull up and spst
.................... #FUSES NOBROWNOUT
.................... #FUSES NOLVP
.................... #FUSES NOWDT
.................... #FUSES NOPROTECT
.................... #FUSES PUT
.................... #USE delay(internal=64MHz)
*
00132: CLRF FSR0H
00134: MOVLW ??65535
00136: MOVWF FSR0L
00138: MOVF INDF0,W
0013A: BZ 0158
0013C: MOVLW 14
0013E: MOVWF @01
00140: CLRF @00
00142: DECFSZ @00,F
00144: BRA 0142
00146: DECFSZ @01,F
00148: BRA 0140
0014A: MOVLW BF
0014C: MOVWF @00
0014E: DECFSZ @00,F
00150: BRA 014E
00152: BRA 0154
00154: DECFSZ INDF0,F
00156: BRA 013C
00158: RETURN 0
.................... //=============================================================================
.................... // PIN SELECTS
.................... //=============================================================================
.................... #PIN_SELECT SCL1IN = PIN_C3
.................... #PIN_SELECT SCL1OUT = PIN_C3
.................... #PIN_SELECT SDA1IN = PIN_C4
.................... #PIN_SELECT SDA1OUT = PIN_C4
....................
.................... #PIN_SELECT SCL2IN = PIN_B1
.................... #PIN_SELECT SCL2OUT = PIN_B1
.................... #PIN_SELECT SDA2IN = PIN_B2
.................... #PIN_SELECT SDA2OUT = PIN_B2
....................
.................... #PIN_SELECT U1TX = PIN_C6
.................... #PIN_SELECT U1RX = PIN_C7
.................... //=============================================================================
.................... #USE RS232(UART1, BAUD=9600, PARITY=N, BITS=8, ERRORS, STREAM=COM)
.................... #USE I2C(I2C1, slave, address = 0xA0, STREAM=I2C)
....................
....................
....................
....................
....................
.................... char get_string[68];
....................
.................... int i2c_flag, i;
.................... int state[5];
.................... int data[5];
.................... ///////////////////////////////////////////////////////////////////////////////
.................... #int_SSP
.................... void SSP_ISR() {
.................... state[i] = i2c_isr_state(I2C);
*
000C0: CLRF @03
000C2: MOVF i,W
000C4: ADDLW state
000C6: MOVWF FSR0L
000C8: MOVLW state+-98
000CA: ADDWFC @03,W
000CC: MOVWF FSR0H
000CE: BTFSC SSP1STAT.A
000D0: BRA 00D8
000D2: CLRF @I2C_STATE
000D4: BTFSC SSP1STAT.W
000D6: BSF @I2C_STATE.7
000D8: MOVF @I2C_STATE,W
000DA: INCF @I2C_STATE,F
000DC: MOVWF INDF0
.................... data[i] = i2c_read(I2C,1);
000DE: CLRF @03
000E0: MOVF i,W
000E2: ADDLW data
000E4: MOVWF FSR0L
000E6: MOVLW data+-103
000E8: ADDWFC @03,W
000EA: MOVWF FSR0H
000EC: BCF SSP1CON1.SSPOV
000EE: BTFSS SSP1STAT.BF
000F0: BRA 00EE
000F2: MOVF SSP1BUF,W
000F4: BSF SSP1CON1.CKP
000F6: MOVWF INDF0
.................... i++;
000F8: INCF i,F
.................... i2c_flag++;
000FA: INCF i2c_flag,F
000FC: MOVLB E
000FE: BCF xCD.0
00100: MOVLB 0
00102: GOTO 006A
.................... }
.................... ///////////////////////////////////////////////////////////////////////////////
.................... void main() {
*
00256: BSF NVMCON1.NVMREG1
00258: BCF NVMCON1.NVMREG0
0025A: CLRF TBLPTRU
0025C: BCF T1GCON.GE
0025E: BSF 07.7
00260: MOVLB E
00262: MOVLW 55
00264: MOVWF xA0
00266: MOVLW AA
00268: MOVWF xA0
0026A: BCF xA0.0
0026C: MOVLW 17
0026E: MOVWF xB5
00270: MOVLW 13
00272: MOVWF xB7
00274: MOVLW 14
00276: MOVWF xB8
00278: MOVLW 09
0027A: MOVWF x8F
0027C: MOVLW 0A
0027E: MOVWF x90
00280: MOVLW 11
00282: MOVWF xF0
00284: MOVLW 12
00286: MOVWF xF1
00288: MOVLW 0F
0028A: MOVWF xFA
0028C: MOVLW 10
0028E: MOVWF xFB
00290: MOVLW 09
00292: MOVWF xFD
00294: MOVLW 55
00296: MOVWF xA0
00298: MOVLW AA
0029A: MOVWF xA0
0029C: BSF xA0.0
0029E: CLRF xDD
002A0: CLRF xDA
002A2: CLRF xDC
002A4: MOVLW 08
002A6: MOVWF xDE
002A8: MOVLW 60
002AA: MOVWF xD8
002AC: CLRF rs232_errors
002AE: BSF BAUD1CON.BRG16
002B0: MOVLW 82
002B2: MOVWF SP1BRGL
002B4: MOVLW 06
002B6: MOVWF SP1BRGH
002B8: MOVLW A6
002BA: MOVWF TX1STA
002BC: MOVLW 90
002BE: MOVWF RC1STA
002C0: BSF TRISC.3
002C2: BSF TRISC.4
002C4: MOVLW A0
002C6: MOVWF SSP1ADD
002C8: SETF SSP1MSK
002CA: MOVLW 36
002CC: MOVWF SSP1CON1
002CE: BSF SSP1CON2.SEN
002D0: BSF SSP1CON2.GCEN
002D2: MOVLW 03
002D4: MOVLB 0
002D6: MOVWF @I2C_STATE
002D8: CLRF @sprintf_string+1
002DA: CLRF @sprintf_string
002DC: MOVLB F
002DE: CLRF x11
002E0: CLRF x19
002E2: CLRF x21
002E4: CLRF x26
002E6: CLRF x2E
002E8: CLRF x3A
002EA: CLRF x3B
002EC: CLRF x3C
002EE: CLRF x39
002F0: CLRF x36
002F2: CLRF x37
002F4: CLRF x38
002F6: CLRF x35
.................... delay_ms(100);
002F8: MOVLW 64
002FA: MOVLB 0
002FC: MOVWF ??65535
002FE: RCALL 0132
.................... set_uart_speed(9600, COM);
00300: BSF BAUD1CON.BRG16
00302: MOVLW 82
00304: MOVWF SP1BRGL
00306: MOVLW 06
00308: MOVWF SP1BRGH
0030A: MOVLW A6
0030C: MOVWF TX1STA
0030E: MOVLW 90
00310: MOVWF RC1STA
.................... //--------------------------------------------------------------------------
.................... while (true) {
.................... fprintf(COM, "USER\r\n");
00312: MOVLW 06
00314: MOVWF TBLPTRL
00316: MOVLW 01
00318: MOVWF TBLPTRH
0031A: MOVLW 00
0031C: MOVWF TBLPTRU
0031E: BRA 015A
.................... for (i=0; i<5; i++) {
00320: CLRF i
00322: MOVF i,W
00324: SUBLW 04
00326: BNC 034C
.................... state[i] = 0;
00328: CLRF @03
0032A: MOVF i,W
0032C: ADDLW state
0032E: MOVWF FSR0L
00330: MOVLW state+-98
00332: ADDWFC @03,W
00334: MOVWF FSR0H
00336: CLRF INDF0
.................... data[i] = 0;
00338: CLRF @03
0033A: MOVF i,W
0033C: ADDLW data
0033E: MOVWF FSR0L
00340: MOVLW data+-103
00342: ADDWFC @03,W
00344: MOVWF FSR0H
00346: CLRF INDF0
00348: INCF i,F
0034A: BRA 0322
.................... }
.................... i2c_flag = 0;
0034C: CLRF i2c_flag
.................... i = 0;
0034E: CLRF i
.................... clear_interrupt(INT_SSP);
00350: MOVLB E
00352: BCF xCD.0
.................... enable_interrupts(INT_SSP);
00354: BSF xC5.0
.................... enable_interrupts(GLOBAL);
00356: MOVLW C0
00358: IORWF INTCON,F
.................... while (!i2c_flag) {
0035A: MOVLB 0
0035C: MOVF i2c_flag,F
0035E: BNZ 036A
.................... delay_us(1);
00360: MOVLW 05
00362: MOVWF @00
00364: DECFSZ @00,F
00366: BRA 0364
00368: BRA 035C
.................... }
.................... delay_ms(500);
0036A: MOVLW 02
0036C: MOVWF @@x6F
0036E: MOVLW FA
00370: MOVWF ??65535
00372: RCALL 0132
00374: DECFSZ @@x6F,F
00376: BRA 036E
.................... disable_interrupts(GLOBAL);
00378: BCF INTCON.GIEL
0037A: BCF INTCON.GIEH
0037C: BTFSC INTCON.GIEH
0037E: BRA 037A
.................... disable_interrupts(INT_SSP);
00380: MOVLB E
00382: BCF xC5.0
.................... for (i=0; i < 5; i++) {
00384: MOVLB 0
00386: CLRF i
00388: MOVF i,W
0038A: SUBLW 04
0038C: BNC 044E
.................... fprintf(COM, "state[%u] = %u\r\n", i, state[i]);
0038E: CLRF @03
00390: MOVF i,W
00392: ADDLW state
00394: MOVWF FSR0L
00396: MOVLW state+-98
00398: ADDWFC @03,W
0039A: MOVWF FSR0H
0039C: MOVFF INDF0,@@6F
003A0: MOVLW 0E
003A2: MOVWF TBLPTRL
003A4: MOVLW 01
003A6: MOVWF TBLPTRH
003A8: MOVLW 00
003AA: MOVWF TBLPTRU
003AC: MOVLW 06
003AE: MOVWF ??65535
003B0: RCALL 018A
003B2: MOVFF i,??65535
003B6: MOVLW 1B
003B8: MOVWF @PRINTF_U_9600_31870_31871.P1
003BA: RCALL 01DE
003BC: MOVLW 16
003BE: MOVWF TBLPTRL
003C0: MOVLW 01
003C2: MOVWF TBLPTRH
003C4: MOVLW 00
003C6: MOVWF TBLPTRU
003C8: MOVLW 04
003CA: MOVWF ??65535
003CC: RCALL 018A
003CE: MOVFF @@6F,??65535
003D2: MOVLW 1B
003D4: MOVWF @PRINTF_U_9600_31870_31871.P1
003D6: RCALL 01DE
003D8: MOVLW 0D
003DA: MOVLB E
003DC: BTFSS xCD.4
003DE: BRA 03DC
003E0: MOVWF TX1REG
003E2: MOVLW 0A
003E4: BTFSS xCD.4
003E6: BRA 03E4
003E8: MOVWF TX1REG
.................... fprintf(COM, "data[%u] = %u\r\n", i, data[i]);
003EA: CLRF @03
003EC: MOVLB 0
003EE: MOVF i,W
003F0: ADDLW data
003F2: MOVWF FSR0L
003F4: MOVLW data+-103
003F6: ADDWFC @03,W
003F8: MOVWF FSR0H
003FA: MOVFF INDF0,@@6F
003FE: MOVLW 20
00400: MOVWF TBLPTRL
00402: MOVLW 01
00404: MOVWF TBLPTRH
00406: MOVLW 00
00408: MOVWF TBLPTRU
0040A: MOVLW 05
0040C: MOVWF ??65535
0040E: RCALL 018A
00410: MOVFF i,??65535
00414: MOVLW 1B
00416: MOVWF @PRINTF_U_9600_31870_31871.P1
00418: RCALL 01DE
0041A: MOVLW 27
0041C: MOVWF TBLPTRL
0041E: MOVLW 01
00420: MOVWF TBLPTRH
00422: MOVLW 00
00424: MOVWF TBLPTRU
00426: MOVLW 05
00428: MOVWF ??65535
0042A: RCALL 018A
0042C: MOVFF @@6F,??65535
00430: MOVLW 1B
00432: MOVWF @PRINTF_U_9600_31870_31871.P1
00434: RCALL 01DE
00436: MOVLW 0D
00438: MOVLB E
0043A: BTFSS xCD.4
0043C: BRA 043A
0043E: MOVWF TX1REG
00440: MOVLW 0A
00442: BTFSS xCD.4
00444: BRA 0442
00446: MOVWF TX1REG
00448: MOVLB 0
0044A: INCF i,F
0044C: BRA 0388
.................... }
0044E: BRA 0312
.................... }
.................... }
....................
00450: SLEEP
....................
....................
....................

Configuration Fuses:
Word 1: 2904 NOEXTOSC RSTOSC_HFINTRC_64MHZ NOCLKOUT CKS FCMEN
Word 2: B721 MCLR PUT NOLPBOR NOBROWNOUT BORV24 ZCDDIS NOPPS1WAY STVREN NODEBUG NOXINST
Word 3: 3F1F WDTSW NOWDT WDTWIN_SW WDTCLK_SW
Word 4: 17FF NOWRT NOWRTC NOWRTB NOWRTD SCANE NOLVP
Word 5: 0003 NOPROTECT NOCPD
Word 6: 02FF NOEBTR NOEBTRB
Ttelmah



Joined: 11 Mar 2010
Posts: 19529

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PostPosted: Fri Jan 13, 2017 2:29 am     Reply with quote

Look at the examples.....

Your I2C_ISR is 'missing the point a little'.

The interrupt will occur when the address byte is received as well as data, so you need to use the value from the I2C_ISR_STATE to determine what the slave is actually to do, and reset the 'i' counter.
Without this, data written to the array _will_ eventually risk overflowing, and this will then overwrite the other variables. Result 'disaster'....
mob1182



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Posts: 28

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PostPosted: Fri Jan 13, 2017 6:45 am     Reply with quote

Thanks Ttelmah, but what I'm trying to say is that the state of the ISR is always 0, even if I change the r/w bit in the address the master is sending for a read instead of a write. I never get 0x80, or 1, or 2... and believe me I looked at the examples and datasheets over and over before I came here. I've read sec 26.9.2.1 on the pic datasheet so I understand it interrupts after an address match and every byte of data. That's why I have the 500ms delay, to allow all the data to come in. And this is just a test program to read the state value and data. The final version will a lot different, more like the ccs example. And the "i" variable does get reset in the while(true) loop. I am currently controlling the data being sent so for know it is only a few bytes to not overflow the array. When I broadcast a command in teraterm, it gets saved to pKeyword[1] and send to the slave. So im personally keeping it to only a few bytes. But maybe I am missing the point a little, and I'm still missing it lol. Obviously I'm doing something wrong cause it doesn't work
Ttelmah



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PostPosted: Fri Jan 13, 2017 6:54 am     Reply with quote

Your master needs to send the last byte in the transaction with a NACK. This marks the end of transaction (not actually the stop).
In the 'long' transaction, the slave is looping with the I2C in an error state (since the transaction has not correctly terminated), and overwriting the state bytes, so you just see zero).
mob1182



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PostPosted: Fri Jan 13, 2017 7:57 am     Reply with quote

Ok I'm just a little confused. I thought that was only for a slave transmission to the master? To indicate to the master that the slave is done. Not for the master to tell the slave its done.

This is a slave reception. I don't see this in the i2c spec anywhere. Nor in the pic datasheet in 26.9.2.1 for slave reception or 26.10.6.3 for master transmission.
Ttelmah



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PostPosted: Fri Jan 13, 2017 8:40 am     Reply with quote

Apologies it is your slave that has the problem here.
The point is you may well have another problem, but lets get your code tidy, and workable to see. You only needed to post about ten lines for the transmit side, and twenty for the receive, instead we have a huge amount that is much too complex.
You are _forcing_ an ACK on everything in the slave, but the hardware handles the ACK/NACK for the slave. Forcing it will cause problems.
mob1182



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PostPosted: Fri Jan 13, 2017 10:16 am     Reply with quote

Ok so take the "1" argument out of i2c_read()?
To simplify I removed that from the read and the stream argument since its the only i2c stream.

Still having the same problem

Now this works. When I send the characters "12" from the master I get 0,1,2 for the state array and 160,49,50 for the data array, which is correct. address A0 = 160, acii 1 = 49 and acii 2 = 50.
Code:

#include "main.h"

char get_string[65];  ////works with this at 65 but not 68
int i2c_flag, i;
int state[5];
int data[5];
#int_SSP
void SSP_ISR() {
   state[i] = i2c_isr_state();
   data[i] = i2c_read();
   i++;
   i2c_flag++;
}
void main() {
   delay_ms(100);
   set_uart_speed(9600, COM);
   while (true)   {
      fprintf(COM, "USER\r\n");
      //--------------------------
      for (i=0; i<5; i++) {         //reset arrays
         state[i] = 0;
         data[i] = 0;
      }
      i2c_flag = 0;                 //reset flag
      i = 0;                        //reset i
      //--------------------------
      clear_interrupt(INT_SSP);
      enable_interrupts(INT_SSP);
      enable_interrupts(GLOBAL);
      while (!i2c_flag) {           //wait til data is sent
         delay_us(1);
      }
      delay_ms(500);                //once addr is rcvd give time for rest of data
      disable_interrupts(GLOBAL);
      disable_interrupts(INT_SSP);
      for (i=0; i < 5; i++)   {     //print arrays
         fprintf(COM, "state[%u] = %u\r\n", i, state[i]);
         fprintf(COM, "data[%u]  = %u\r\n", i, data[i]);
      }
   }
}


Now if I change get_string to a larger array it doesn't work, and get_string is not even being used yet.

Actually if I change the get_string array to 67 I get all 0's for the state and data array. And...
If I change it to 68, or larger, the interrupt doesn't even seem to fire cause the code does not continue, indicating that i2c_flag is not being set.
Ttelmah



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PostPosted: Fri Jan 13, 2017 10:34 am     Reply with quote

OK. Now we have something small enough to look at.

There was a very similar thread a few weeks ago, and another that may relate:

<http://www.ccsinfo.com/forum/viewtopic.php?t=55779>
So, what programmer are you using?.

The other was actually using a bootloader, and this was not setup correctly and causing a problem as soon as an array went over a certain size.
mob1182



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PostPosted: Fri Jan 13, 2017 10:44 am     Reply with quote

Ha yea that link is my post too from before Christmas. So I can't get the icd-u64 programmer to program correctly for this particular chip. I've used it just fine for other older chips. This chip is fairly new. Came out middle of last year I believe(could be wrong, dnt hold me to that).

I put a support ticket into CCS about it but never heard anything back. Even though I paid the $250 maintenance fee to upgrade my compiler just to support this chip.

What I'm currently doing is using CCS to create the hex file after compile. Then importing that hex into mplabs integrated programming environment app. And using a pickit 3 to program. I am getting programs greater than 640 instruction to program and verify doing this.
mob1182



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PostPosted: Mon Jan 16, 2017 9:15 am     Reply with quote

I just used a different programmer, a softlog ICP2, and got the same results. So I don't think this is a programming issue.
Ttelmah



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PostPosted: Mon Jan 16, 2017 9:53 am     Reply with quote

OK. I'll see if I can try some programs on your chip and see what is happening. Unfortunately been having problems with my Windows (so with being able to run CCS). Turns out to be with Parallels (which is how I run Windows most of the time, since I use Macintoshes), have had to go back a few versions on this, and have Windows working again OK now, but have lost a lot of time, so it may be a while before I can 'catch up'.
mob1182



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PostPosted: Mon Jan 16, 2017 12:19 pm     Reply with quote

Problem with windows! Ha never lol. I do appreciate you taking the time in helping me for what its worth.

Just an update, I simplified the code even more. Made the state and data arrays just a int variable. commented out the i2c_isr_state(), all I want is to see if i can get 1 byte of data and continue. Took out "i". "for" loops and stuff. Only thing im sending is the address byte. Again works with get_string array at 65 but not 68.

This is the interesting part. I notice that the SDA line returns to 5V after the address byte is sent. So the slave is sending an ack I assume. If I comment out the i2c_read() and reprogram, the SDA line remains low, so no stop being sent cause its not getting an ACK.

So it appears that the interrupt is firing but the data does not get saved correctly and the i2c_flag value too. Now I don't know assembly language (this is why I use CCS) so it's hard for me to figure out exactly what's going on

Here is the code
Code:

#include "main.h"

char get_string[68];
int i2c_flag;
int data = 0;
#int_SSP
void SSP_ISR() {
   data = i2c_read();
   i2c_flag = 1;
}
void main() {
   delay_ms(100);
   set_uart_speed(9600, COM);
   while (true)   {
      fprintf(COM, "USER\r\n");
      i2c_flag = 0;                 //reset flag
      //--------------------------
      clear_interrupt(INT_SSP);
      enable_interrupts(INT_SSP);
      enable_interrupts(GLOBAL);
      while (!i2c_flag) {           //wait til data is sent
         delay_us(1);
      }
      fprintf(COM, "data  = %u\r\n", data);
   }
}

Assembly
Code:

00000 EF0D F001      00001 GOTO   021A
00008 6E04           00002 MOVWF  04
0000A CFD8 F005      00003 MOVFF  FD8,05
0000E CFE0 F006      00004 MOVFF  FE0,06
00012 0100           00005 MOVLB  0
00014 CFE9 F00C      00006 MOVFF  FE9,0C
00018 CFEA F007      00007 MOVFF  FEA,07
0001C CFE1 F008      00008 MOVFF  FE1,08
00020 CFE2 F009      00009 MOVFF  FE2,09
00024 CFD9 F00A      00010 MOVFF  FD9,0A
00028 CFDA F00B      00011 MOVFF  FDA,0B
0002C CFF3 F012      00012 MOVFF  FF3,12
00030 CFF4 F013      00013 MOVFF  FF4,13
00034 CFFA F014      00014 MOVFF  FFA,14
00038 CFF5 F015      00015 MOVFF  FF5,15
0003C CFF6 F016      00016 MOVFF  FF6,16
00040 CFF7 F017      00017 MOVFF  FF7,17
00044 CFF8 F018      00018 MOVFF  FF8,18
00048 CFFB F019      00019 MOVFF  FFB,19
0004C C000 F00E      00020 MOVFF  00,0E
00050 C001 F00F      00021 MOVFF  01,0F
00054 C002 F010      00022 MOVFF  02,10
00058 C003 F011      00023 MOVFF  03,11
0005C 010E           00024 MOVLB  E
0005E A1C5           00025 BTFSS  xC5.0
00060 EF35 F000      00026 GOTO   006A
00064 B1CD           00027 BTFSC  xCD.0
00066 EF60 F000      00028 GOTO   00C0
0006A C00E F000      00029 MOVFF  0E,00
0006E C00F F001      00030 MOVFF  0F,01
00072 C010 F002      00031 MOVFF  10,02
00076 C011 F003      00032 MOVFF  11,03
0007A C00C FFE9      00033 MOVFF  0C,FE9
0007E C007 FFEA      00034 MOVFF  07,FEA
00082 8E07           00035 BSF    07.7
00084 C008 FFE1      00036 MOVFF  08,FE1
00088 C009 FFE2      00037 MOVFF  09,FE2
0008C C00A FFD9      00038 MOVFF  0A,FD9
00090 C00B FFDA      00039 MOVFF  0B,FDA
00094 C012 FFF3      00040 MOVFF  12,FF3
00098 C013 FFF4      00041 MOVFF  13,FF4
0009C C014 FFFA      00042 MOVFF  14,FFA
000A0 C015 FFF5      00043 MOVFF  15,FF5
000A4 C016 FFF6      00044 MOVFF  16,FF6
000A8 C017 FFF7      00045 MOVFF  17,FF7
000AC C018 FFF8      00046 MOVFF  18,FF8
000B0 C019 FFFB      00047 MOVFF  19,FFB
000B4 5004           00048 MOVF   04,W
000B6 C006 FFE0      00049 MOVFF  06,FE0
000BA C005 FFD8      00050 MOVFF  05,FD8
000BE 0010           00051 RETFIE 0
                    00052 .................... #include "main.h"
                    00053 .................... #include <18F47K40.h>
                    00054 .................... //////////// Standard Header file for the PIC18F47K40 device ////////////////
                    00055 .................... ///////////////////////////////////////////////////////////////////////////
                    00056 .................... ////        (C) Copyright 1996, 2014 Custom Computer Services          ////
                    00057 .................... //// This source code may only be used by licensed users of the CCS C  ////
                    00058 .................... //// compiler.  This source code may only be distributed to other      ////
                    00059 .................... //// licensed users of the CCS C compiler.  No other use, reproduction ////
                    00060 .................... //// or distribution is permitted without written permission.          ////
                    00061 .................... //// Derivative programs created using this software in object code    ////
                    00062 .................... //// form are not restricted in any way.                               ////
                    00063 .................... ///////////////////////////////////////////////////////////////////////////
                    00064 .................... #device PIC18F47K40
000DA 5355           00065 DATA 55,53
000DC 5245           00066 DATA 45,52
000DE 0A0D           00067 DATA 0D,0A
000E0 0000           00068 DATA 00,00
000E2 6164           00069 DATA 64,61
000E4 6174           00070 DATA 74,61
000E6 2020           00071 DATA 20,20
000E8 203D           00072 DATA 3D,20
000EA 7525           00073 DATA 25,75
000EC 0A0D           00074 DATA 0D,0A
000EE 0000           00075 DATA 00,00
0011A 0009           00076 TBLRD*+
0011C 52F5           00077 MOVF   FF5,F
0011E E013           00078 BZ    0146
00120 CFF6 F064      00079 MOVFF  FF6,64
00124 CFF7 F065      00080 MOVFF  FF7,65
00128 CFF8 F066      00081 MOVFF  FF8,66
0012C 50F5           00082 MOVF   FF5,W
0012E 010E           00083 MOVLB  E
00130 A9CD           00084 BTFSS  xCD.4
00132 D7FE           00085 BRA    0130
00134 6E9A           00086 MOVWF  F9A
00136 C064 FFF6      00087 MOVFF  64,FF6
0013A C065 FFF7      00088 MOVFF  65,FF7
0013E C066 FFF8      00089 MOVFF  66,FF8
00142 0100           00090 MOVLB  0
00144 D7EA           00091 BRA    011A
00146 EF69 F001      00092 GOTO   02D2 (RETURN)
0014A 0009           00093 TBLRD*+
0014C CFF6 F065      00094 MOVFF  FF6,65
00150 CFF7 F066      00095 MOVFF  FF7,66
00154 CFF8 F067      00096 MOVFF  FF8,67
00158 50F5           00097 MOVF   FF5,W
0015A 010E           00098 MOVLB  E
0015C A9CD           00099 BTFSS  xCD.4
0015E D7FE           00100 BRA    015C
00160 6E9A           00101 MOVWF  F9A
00162 C065 FFF6      00102 MOVFF  65,FF6
00166 C066 FFF7      00103 MOVFF  66,FF7
0016A C067 FFF8      00104 MOVFF  67,FF8
0016E 0100           00105 MOVLB  0
00170 2F64           00106 DECFSZ x64,F
00172 D7EB           00107 BRA    014A
00174 EF80 F001      00108 GOTO   0300 (RETURN)
00178 5167           00109 MOVF   x67,W
0017A 6A01           00110 CLRF   01
0017C 5D66           00111 SUBWF  x66,W
0017E E203           00112 BC    0186
00180 C066 F000      00113 MOVFF  66,00
00184 D00C           00114 BRA    019E
00186 6A00           00115 CLRF   00
00188 0E08           00116 MOVLW  08
0018A 6F68           00117 MOVWF  x68
0018C 3766           00118 RLCF   x66,F
0018E 3600           00119 RLCF   00,F
00190 5167           00120 MOVF   x67,W
00192 5C00           00121 SUBWF  00,W
00194 B0D8           00122 BTFSC  FD8.0
00196 6E00           00123 MOVWF  00
00198 3601           00124 RLCF   01,F
0019A 2F68           00125 DECFSZ x68,F
0019C D7F7           00126 BRA    018C
0019E 0012           00127 RETURN 0
001A0 5001           00128 MOVF   01,W
001A2 C064 F066      00129 MOVFF  64,66
001A6 0E64           00130 MOVLW  64
001A8 6F67           00131 MOVWF  x67
001AA DFE6           00132 RCALL  0178
001AC C000 F064      00133 MOVFF  00,64
001B0 5001           00134 MOVF   01,W
001B2 0E30           00135 MOVLW  30
001B4 E107           00136 BNZ   01C4
001B6 A365           00137 BTFSS  x65.1
001B8 D00F           00138 BRA    01D8
001BA B765           00139 BTFSC  x65.3
001BC D00D           00140 BRA    01D8
001BE B965           00141 BTFSC  x65.4
001C0 0E20           00142 MOVLW  20
001C2 D003           00143 BRA    01CA
001C4 9765           00144 BCF    x65.3
001C6 9965           00145 BCF    x65.4
001C8 8165           00146 BSF    x65.0
001CA 2601           00147 ADDWF  01,F
001CC 5001           00148 MOVF   01,W
001CE 010E           00149 MOVLB  E
001D0 A9CD           00150 BTFSS  xCD.4
001D2 D7FE           00151 BRA    01D0
001D4 6E9A           00152 MOVWF  F9A
001D6 0100           00153 MOVLB  0
001D8 C064 F066      00154 MOVFF  64,66
001DC 0E0A           00155 MOVLW  0A
001DE 6F67           00156 MOVWF  x67
001E0 DFCB           00157 RCALL  0178
001E2 C000 F064      00158 MOVFF  00,64
001E6 5001           00159 MOVF   01,W
001E8 0E30           00160 MOVLW  30
001EA E106           00161 BNZ   01F8
001EC B765           00162 BTFSC  x65.3
001EE D00B           00163 BRA    0206
001F0 A165           00164 BTFSS  x65.0
001F2 D009           00165 BRA    0206
001F4 B965           00166 BTFSC  x65.4
001F6 0E20           00167 MOVLW  20
001F8 2601           00168 ADDWF  01,F
001FA 5001           00169 MOVF   01,W
001FC 010E           00170 MOVLB  E
001FE A9CD           00171 BTFSS  xCD.4
00200 D7FE           00172 BRA    01FE
00202 6E9A           00173 MOVWF  F9A
00204 0100           00174 MOVLB  0
00206 0E30           00175 MOVLW  30
00208 2764           00176 ADDWF  x64,F
0020A 5164           00177 MOVF   x64,W
0020C 010E           00178 MOVLB  E
0020E A9CD           00179 BTFSS  xCD.4
00210 D7FE           00180 BRA    020E
00212 6E9A           00181 MOVWF  F9A
00214 0100           00182 MOVLB  0
00216 EF85 F001      00183 GOTO   030A (RETURN)
                    00184 .................... 
                    01853 .................... #list
                    01854 .................... 
                    01855 .................... #DEVICE ADC=10
                    01856 .................... 
                    01857 .................... #FUSES NOPPS1WAY
                    01858 .................... #FUSES NOEXTOSC
                    01859 .................... //#FUSES NOMCLR   //MCLR on pull up and spst
                    01860 .................... #FUSES NOBROWNOUT
                    01861 .................... #FUSES NOLVP
                    01862 .................... #FUSES NOWDT
                    01863 .................... #FUSES NOPROTECT
                    01864 .................... #FUSES PUT 
                    01865 .................... #USE delay(internal=64MHz)
000F0 6AEA           01866 CLRF   FEA
000F2 0E64           01867 MOVLW  64
000F4 6EE9           01868 MOVWF  FE9
000F6 50EF           01869 MOVF   FEF,W
000F8 E00E           01870 BZ    0116
000FA 0E14           01871 MOVLW  14
000FC 6E01           01872 MOVWF  01
000FE 6A00           01873 CLRF   00
00100 2E00           01874 DECFSZ 00,F
00102 D7FE           01875 BRA    0100
00104 2E01           01876 DECFSZ 01,F
00106 D7FB           01877 BRA    00FE
00108 0EBF           01878 MOVLW  BF
0010A 6E00           01879 MOVWF  00
0010C 2E00           01880 DECFSZ 00,F
0010E D7FE           01881 BRA    010C
00110 D000           01882 BRA    0112
00112 2EEF           01883 DECFSZ FEF,F
00114 D7F2           01884 BRA    00FA
00116 EF59 F001      01885 GOTO   02B2 (RETURN)
                    01886 .................... //=============================================================================
                    01887 .................... // PIN SELECTS
                    01888 .................... //=============================================================================
                    01889 .................... #PIN_SELECT SCL1IN   = PIN_C3
                    01890 .................... #PIN_SELECT SCL1OUT  = PIN_C3
                    01891 .................... #PIN_SELECT SDA1IN   = PIN_C4
                    01892 .................... #PIN_SELECT SDA1OUT  = PIN_C4
                    01893 .................... 
                    01894 .................... #PIN_SELECT U1TX     = PIN_C6
                    01895 .................... #PIN_SELECT U1RX     = PIN_C7
                    01896 .................... //=============================================================================
                    01897 .................... #USE RS232(UART1, BAUD=9600, PARITY=N, BITS=8, ERRORS, STREAM=COM)
                    01898 .................... #USE I2C(I2C1, slave, address = 0xA0)
                    01899 .................... 
                    01900 .................... 
                    01901 .................... 
                    01902 .................... 
                    01903 .................... 
                    01904 .................... char get_string[68]; 
                    01905 .................... int i2c_flag;
                    01906 .................... int data = 0;
                    01907 .................... #int_SSP
                    01908 .................... void SSP_ISR() {
                    01909 ....................    data = i2c_read();
000C0 9C96           01910 BCF    F96.6
000C2 A095           01911 BTFSS  F95.0
000C4 D7FE           01912 BRA    00C2
000C6 5092           01913 MOVF   F92,W
000C8 8896           01914 BSF    F96.4
000CA 6F61           01915 MOVWF  x61
                    01916 ....................    i2c_flag = 1;
000CC 0E01           01917 MOVLW  01
000CE 6F60           01918 MOVWF  x60
000D0 010E           01919 MOVLB  E
000D2 91CD           01920 BCF    xCD.0
000D4 0100           01921 MOVLB  0
000D6 EF35 F000      01922 GOTO   006A
                    01923 .................... }
                    01924 .................... void main() {
0021A 8E81           01925 BSF    F81.7
0021C 9C81           01926 BCF    F81.6
0021E 6AF8           01927 CLRF   FF8
00220 9ED0           01928 BCF    FD0.7
00222 8E07           01929 BSF    07.7
00224 010E           01930 MOVLB  E
00226 0E55           01931 MOVLW  55
00228 6FA0           01932 MOVWF  xA0
0022A 0EAA           01933 MOVLW  AA
0022C 6FA0           01934 MOVWF  xA0
0022E 91A0           01935 BCF    xA0.0
00230 0E17           01936 MOVLW  17
00232 6FB5           01937 MOVWF  xB5
00234 0E13           01938 MOVLW  13
00236 6FB7           01939 MOVWF  xB7
00238 0E14           01940 MOVLW  14
0023A 6FB8           01941 MOVWF  xB8
0023C 0E0F           01942 MOVLW  0F
0023E 6FFA           01943 MOVWF  xFA
00240 0E10           01944 MOVLW  10
00242 6FFB           01945 MOVWF  xFB
00244 0E09           01946 MOVLW  09
00246 6FFD           01947 MOVWF  xFD
00248 0E55           01948 MOVLW  55
0024A 6FA0           01949 MOVWF  xA0
0024C 0EAA           01950 MOVLW  AA
0024E 6FA0           01951 MOVWF  xA0
00250 81A0           01952 BSF    xA0.0
00252 6BDD           01953 CLRF   xDD
00254 6BDA           01954 CLRF   xDA
00256 6BDC           01955 CLRF   xDC
00258 0E08           01956 MOVLW  08
0025A 6FDE           01957 MOVWF  xDE
0025C 0E60           01958 MOVLW  60
0025E 6FD8           01959 MOVWF  xD8
00260 6A1B           01960 CLRF   1B
00262 869F           01961 BSF    F9F.3
00264 0E82           01962 MOVLW  82
00266 6E9B           01963 MOVWF  F9B
00268 0E06           01964 MOVLW  06
0026A 6E9C           01965 MOVWF  F9C
0026C 0EA6           01966 MOVLW  A6
0026E 6E9E           01967 MOVWF  F9E
00270 0E90           01968 MOVLW  90
00272 6E9D           01969 MOVWF  F9D
00274 868A           01970 BSF    F8A.3
00276 888A           01971 BSF    F8A.4
00278 0EA0           01972 MOVLW  A0
0027A 6E93           01973 MOVWF  F93
0027C 6894           01974 SETF   F94
0027E 0E36           01975 MOVLW  36
00280 6E96           01976 MOVWF  F96
00282 8097           01977 BSF    F97.0
00284 8E97           01978 BSF    F97.7
00286 0100           01979 MOVLB  0
00288 6B61           01980 CLRF   x61
0028A 6B63           01981 CLRF   x63
0028C 6B62           01982 CLRF   x62
0028E 010F           01983 MOVLB  F
00290 6B11           01984 CLRF   x11
00292 6B19           01985 CLRF   x19
00294 6B21           01986 CLRF   x21
00296 6B26           01987 CLRF   x26
00298 6B2E           01988 CLRF   x2E
0029A 6B3A           01989 CLRF   x3A
0029C 6B3B           01990 CLRF   x3B
0029E 6B3C           01991 CLRF   x3C
002A0 6B39           01992 CLRF   x39
002A2 6B36           01993 CLRF   x36
002A4 6B37           01994 CLRF   x37
002A6 6B38           01995 CLRF   x38
002A8 6B35           01996 CLRF   x35
                    01997 ....................    delay_ms(100); 
002AA 0E64           01998 MOVLW  64
002AC 0100           01999 MOVLB  0
002AE 6F64           02000 MOVWF  x64
002B0 D71F           02001 BRA    00F0
                    02002 ....................    set_uart_speed(9600, COM);
002B2 869F           02003 BSF    F9F.3
002B4 0E82           02004 MOVLW  82
002B6 6E9B           02005 MOVWF  F9B
002B8 0E06           02006 MOVLW  06
002BA 6E9C           02007 MOVWF  F9C
002BC 0EA6           02008 MOVLW  A6
002BE 6E9E           02009 MOVWF  F9E
002C0 0E90           02010 MOVLW  90
002C2 6E9D           02011 MOVWF  F9D
                    02012 ....................    while (true)   {
                    02013 ....................       fprintf(COM, "USER\r\n");
002C4 0EDA           02014 MOVLW  DA
002C6 6EF6           02015 MOVWF  FF6
002C8 0E00           02016 MOVLW  00
002CA 6EF7           02017 MOVWF  FF7
002CC 0E00           02018 MOVLW  00
002CE 6EF8           02019 MOVWF  FF8
002D0 D724           02020 BRA    011A
                    02021 ....................       i2c_flag = 0;                 //reset flag
002D2 6B60           02022 CLRF   x60
                    02023 ....................       //--------------------------
                    02024 ....................       clear_interrupt(INT_SSP);
002D4 010E           02025 MOVLB  E
002D6 91CD           02026 BCF    xCD.0
                    02027 ....................       enable_interrupts(INT_SSP);
002D8 81C5           02028 BSF    xC5.0
                    02029 ....................       enable_interrupts(GLOBAL);
002DA 0EC0           02030 MOVLW  C0
002DC 12F2           02031 IORWF  FF2,F
                    02032 ....................       while (!i2c_flag) {           //wait til data is sent
002DE 0100           02033 MOVLB  0
002E0 5360           02034 MOVF   x60,F
002E2 E105           02035 BNZ   02EE
                    02036 ....................          delay_us(1);
002E4 0E05           02037 MOVLW  05
002E6 6E00           02038 MOVWF  00
002E8 2E00           02039 DECFSZ 00,F
002EA D7FE           02040 BRA    02E8
002EC D7F9           02041 BRA    02E0
                    02042 ....................       }
                    02043 ....................       fprintf(COM, "data  = %u\r\n", data);
002EE 0EE2           02044 MOVLW  E2
002F0 6EF6           02045 MOVWF  FF6
002F2 0E00           02046 MOVLW  00
002F4 6EF7           02047 MOVWF  FF7
002F6 0E00           02048 MOVLW  00
002F8 6EF8           02049 MOVWF  FF8
002FA 0E08           02050 MOVLW  08
002FC 6F64           02051 MOVWF  x64
002FE D725           02052 BRA    014A
00300 C061 F064      02053 MOVFF  61,64
00304 0E1B           02054 MOVLW  1B
00306 6F65           02055 MOVWF  x65
00308 D74B           02056 BRA    01A0
0030A 0E0D           02057 MOVLW  0D
0030C 010E           02058 MOVLB  E
0030E A9CD           02059 BTFSS  xCD.4
00310 D7FE           02060 BRA    030E
00312 6E9A           02061 MOVWF  F9A
00314 0E0A           02062 MOVLW  0A
00316 A9CD           02063 BTFSS  xCD.4
00318 D7FE           02064 BRA    0316
0031A 6E9A           02065 MOVWF  F9A
0031C 0100           02066 MOVLB  0
0031E D7D2           02067 BRA    02C4
                    02068 ....................    }
                    02069 .................... }
                    02070 .................... 
00320 0003           02071 SLEEP
                    02072 .................... 
                    02073 .................... 
                    02074 .................... 

Configuration Fuses:
   Word  1: 2904   NOEXTOSC RSTOSC_HFINTRC_64MHZ NOCLKOUT CKS FCMEN
   Word  2: B721   MCLR PUT NOLPBOR NOBROWNOUT BORV24 ZCDDIS NOPPS1WAY STVREN NODEBUG NOXINST
   Word  3: 3F1F   WDTSW NOWDT WDTWIN_SW WDTCLK_SW
   Word  4: 17FF   NOWRT NOWRTC NOWRTB NOWRTD SCANE NOLVP
   Word  5: 0003   NOPROTECT NOCPD
   Word  6: 02FF   NOEBTR NOEBTRB

SYMBOL TABLE
  LABEL                             VALUE

_RETURN_                          00000001
rs232_errors                      0000001B
get_string                        0000001C
i2c_flag                          00000060
data                              00000061
LVDRDY                            00000F2F
LVDOUT                            00000F2F
C2OUT                             00000F35
C1OUT                             00000F39
MDBIT                             00000F51
MDOUT                             00000F51
ADACLR                            00000F5A
PWM4OUT                           00000FA2
PWM3OUT                           00000FA5
CCP_2_LOW                         00000FA9
CCP_2                             00000FA9
CCP_2_HIGH                        00000FAA
CCP_1_LOW                         00000FAD
CCP_1                             00000FAD
CCP_1_HIGH                        00000FAE
Allocation:                       0000EEEF
SSP_ISR                           00000000
MAIN                              00000002

MEMORY USAGE
Ttelmah



Joined: 11 Mar 2010
Posts: 19529

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PostPosted: Mon Jan 16, 2017 1:42 pm     Reply with quote

The hardware actually releases the clock, when the byte is read.
Now on some chips there has been a problem in the past with this having to be done manually (setting up a CKP bit and setting this at the end of the interrupt handler).
I notice the chip has a really nasty erratum about TBLRD operations. Will have to look and see if CCS are handling this.
What happens if you define the array after the other variables?.
mob1182



Joined: 03 Mar 2016
Posts: 28

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PostPosted: Mon Jan 16, 2017 2:25 pm     Reply with quote

Wow ok so if I define the array after the other variables it does work.
So this is a chip error then and not the CCS compiler?
And it looks like this only effects rev A2 chips, which is what I have. I wonder if there is anyway to request rev A3 when ordering.
I don't completely know how this will affect the code once I grow it, but hopefully I can work around this now that I know what the issue is, somewhat anyway.
Thanks Ttelmah!
PCM programmer



Joined: 06 Sep 2003
Posts: 21708

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PostPosted: Mon Jan 16, 2017 2:46 pm     Reply with quote

Quote:
if I define the array after the other variables it does work

In your original code, when you increase the size of the array, you are
moving the variables 'data' and 'i2c_flag' out of Access Ram (0x00 to 0x5F),
and into regular banked Ram. This could be a clue.
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