ATmega1284 programming issues

[Kilroywashere]

Hey guys i get this error ......



Arduino: 1.8.8 (Windows 7), Board: "ATmega1284-16MHz"

In file included from C:\Users\Me\Documents\Arduino\AVR_BASIC_Computer_V0.1\AVR_BASIC_Computer_V0.1.ino:182:0:

C:\Users\Me\Documents\Arduino\libraries\SpiEEPROM/spieeprom.h:14:22: fatal error: WProgram.h: No such file or directory

compilation terminated.

exit status 1
Error compiling for board ATmega1284-16MHz.

This report would have more information with
"Show verbose output during compilation"
option enabled in File -> Preferences.




Question is does this mean it cannot find spieeprom.h:14:22: fatal error: WProgram.h: No such file or directory .... i assume im missing something?
 


Im trying to put tiny basic on this micro but i keep getting that error...

[agehall]

Tried installing that library that the header stems from?

[iMo]

Try to change "WProgram.h" to "Arduino.h" in your files.

[Kilroywashere]

so this might be an issue of not having the right bord manager you think?

[Kilroywashere]

Try to change "WProgram.h" to "Arduino.h" in your files.

ill try this....

[Kilroywashere]

Try to change "WProgram.h" to "Arduino.h" in your files.

ill try this....

Arduino: 1.8.8 (Windows 7), Board: "ATmega1284-16MHz"

In file included from C:\Users\Me\Documents\Arduino\AVR_BASIC_Computer_V0.1\AVR_BASIC_Computer_V0.1.ino:182:0:

C:\Users\Me\Documents\Arduino\libraries\SpiEEPROM/spieeprom.h:14:22: fatal error: WProgram.h: No such file or directory

compilation terminated.

exit status 1
Error compiling for board ATmega1284-16MHz.

This report would have more information with
"Show verbose output during compilation"
option enabled in File -> Preferences.




--------------------------------------------------------



seem to get the same error when i change that ...

[agehall]

Becasue you didn't change the reference in the file mentioned in the error message.

[Kilroywashere]

Tried installing that library that the header stems from?

these are the steps i took...



Step 1
The Firmware & Bootloader

Clicking on the "Firmware" link on the left-hand side of this page goes to a zip archive containing the firmware (code - an Arduino sketch) for the computer as well as the Arduino libraries required for the sketch. Once the zip archive has been downloaded, extract it and place the folders within the "Arduino Libraries" into the Arduino libraries directory as shown in the image below:



2
Step 2
Once the Arduino libraries have been placed in the correct directory, the Arduino sketch needs to be placed in the Arduino sketches directory as shown in the below image:



3
Step 3
After the firmware folder has been dealt with, the bootloader can be downloaded from the "ATmega 1284P Arduino Bootloader" link (which goes to a Github page; use the download as zip link on the right hand side of the Github page) and placed within the Arduino hardware directory as shown in the following image:





what i could not findon the page was how they programed the atmega ... like what bord in the bords manager

[Kilroywashere]

Becasue you didn't change the reference in the file mentioned in the error message.

didn't change the reference ? like inside code? all i did was change the name of the file ...

[agehall]

Yes, in the code.

[Kilroywashere]

Yes, in the code.

where abouts  should i look for it? i could not find WProgram.h in there at all...




////////////////////////////////////////////////////////////////////////////////
// TinyBasic Plus
////////////////////////////////////////////////////////////////////////////////
//
// Authors: Mike Field <hamster@snap.net.nz>
//       Scott Lawrence <yorgle@gmail.com>
//          Dan http://hackaday.io/hacker/4326-dan
//

#define kVersion "v0.16"

// v0.16: 04/11/2014
//      Altered code to only save programs to external EEPROM IC (25LC640)
//      for the AVR BASIC Computer v0.1
//
// v0.15: 13/08/2014
//      Support for external EEPROM (25LC640) added - used for storing programs.
//      Requires library for external EEPROM access (SPIEEPROM). SPI pins might not
//      be usable for GPIO while the SPIEEPROM library is active in this sketch.
//
// v0.14: 19/04/2014
//      TVout and PS2uartKeyboard Libraries added.
//
// v0.13: 2013-03-04
//      Support for Arduino 1.5 (SPI.h included, additional changes for DUE support)
//
// v0.12: 2013-03-01
//      EEPROM load and save routines added: EFORMAT, ELIST, ELOAD, ESAVE, ECHAIN
//      added EAUTORUN option (chains to EEProm saved program on startup)
//      Bugfixes to build properly on non-arduino systems (PROGMEM #define workaround)
//      cleaned up a bit of the #define options wrt TONE
//
// v0.11: 2013-02-20
//      all display strings and tables moved to PROGMEM to save space
//      removed second serial
//      removed pinMode completely, autoconf is explicit
//      beginnings of EEPROM related functionality (new,load,save,list)
//
// v0.10: 2012-10-15
//      added kAutoConf, which eliminates the "PINMODE" statement.
//      now, DWRITE,DREAD,AWRITE,AREAD automatically set the PINMODE appropriately themselves.
//      should save a few bytes in your programs.
//
// v0.09: 2012-10-12
//      Fixed directory listings.  FILES now always works. (bug in the SD library)
//      ref: http://arduino.cc/forum/index.php/topic,124739.0.html
//      fixed filesize printouts (added printUnum for unsigned numbers)
//      #defineable baud rate for slow connection throttling
//e
// v0.08: 2012-10-02
//      Tone generation through piezo added (TONE, TONEW, NOTONE)
//
// v0.07: 2012-09-30
//      Autorun buildtime configuration feature
//
// v0.06: 2012-09-27
//      Added optional second serial input, used for an external keyboard
//
// v0.05: 2012-09-21
//      CHAIN to load and run a second file
//      RND,RSEED for random stuff
//      Added "!=" for "<>" synonym
//      Added "END" for "STOP" synonym (proper name for the functionality anyway)
//
// v0.04: 2012-09-20
//      DELAY ms   - for delaying
//      PINMODE <pin>, INPUT|IN|I|OUTPUT|OUT|O
//      DWRITE <pin>, HIGH|HI|1|LOW|LO|0
//      AWRITE <pin>, [0..255]
//      fixed "save" appending to existing files instead of overwriting
//    Updated for building desktop command line app (incomplete)
//
// v0.03: 2012-09-19
//   Integrated Jurg Wullschleger whitespace,unary fix
//   Now available through github
//   Project renamed from "Tiny Basic in C" to "TinyBasic Plus"
//      
// v0.02b: 2012-09-17  Scott Lawrence <yorgle@gmail.com>
//    Better FILES listings
//
// v0.02a: 2012-09-17  Scott Lawrence <yorgle@gmail.com>
//    Support for SD Library
//    Added: SAVE, FILES (mostly works), LOAD (mostly works) (redirects IO)
//    Added: MEM, ? (PRINT)
//    Quirk:  "10 LET A=B+C" is ok "10 LET A = B + C" is not.
//    Quirk:  INPUT seems broken?

/*
* Additional Libraries
*/
// TVout
#include <TVout.h>
#include <video_gen.h>
#include <font4x6.h>
#include <font6x8.h>
#include <font8x8.h>
#include <font8x8ext.h>
#include <fontALL.h>
// PS2 Keyboard
#include <PS2uartKeyboard.h>

PS2uartKeyboard keyboard;
TVout TV;


// IF testing with Visual C, this needs to be the first thing in the file.
//#include "stdafx.h"


char eliminateCompileErrors = 1;  // fix to suppress arduino build errors

// hack to let makefiles work with this file unchanged
#ifdef FORCE_DESKTOP
#undef ARDUINO
#else
#define ARDUINO 1
#endif

////////////////////////////////////////////////////////////////////////////////
// Feature option configuration...

// This enables LOAD, SAVE, FILES commands through the Arduino SD Library
// it adds 9k of usage as well.
//#define ENABLE_FILEIO 1
#undef ENABLE_FILEIO

// this turns on "autorun".  if there's FileIO, and a file "autorun.bas",
// then it will load it and run it when starting up
//#define ENABLE_AUTORUN 1
#undef ENABLE_AUTORUN
// and this is the file that gets run
#define kAutorunFilename  "autorun.bas"

// this is the alternate autorun.  Autorun the program in the eeprom.
// it will load whatever is in the EEProm and run it
#define ENABLE_EAUTORUN 1
//#undef ENABLE_EAUTORUN

// this will enable the "TONE", "NOTONE" command using a piezo
// element on the specified pin.  Wire the red/positive/piezo to the kPiezoPin,
// and the black/negative/metal disc to ground.
// it adds 1.5k of usage as well.
//#define ENABLE_TONES 1
#undef ENABLE_TONES
#define kPiezoPin 15

// we can use the EEProm to store a program during powerdown.  This is
// 1keyboardyte on the '328, and 512 bytes on the '168.  Enabling this here will
// allow for this funcitonality to work.  Note that this only works on AVR
// arduino.  Disable it for DUE/other devices.
#define ENABLE_EEPROM 1
//#undef ENABLE_EEPROM

// Sometimes, we connect with a slower device as the console.
// Set your console D0/D1 baud rate here (9600 baud default)
#define kConsoleBaud 9600

////////////////////////////////////////////////////////////////////////////////
#ifdef ARDUINO
#ifndef RAMEND
// okay, this is a hack for now
// if we're in here, we're a DUE probably (ARM instead of AVR)

#define RAMEND 4096-1

// turn off EEProm
#undef ENABLE_EEPROM
#undef ENABLE_TONES

#else
// we're an AVR!

// we're moving our data strings into progmem
#include <avr/pgmspace.h>
#endif

// includes, and settings for Arduino-specific functionality
#ifdef ENABLE_EEPROM
long eepos = 0;
// EEPROM IC
#include <SPI.h>
#include <spieeprom.h>
SPIEEPROM disk1(0);  // Type 0 = 16bit address
#endif


#ifdef ENABLE_FILEIO
#include <SD.h>
#include <SPI.h> /* needed as of 1.5 beta */

// Arduino-specific configuration
// set this to the card select for your SD shield
#define kSD_CS 4

#define kSD_Fail  0
#define kSD_OK    1

File fp;
#endif

// set up our RAM buffer size for program and user input
// NOTE: This number will have to change if you include other libraries.
#ifdef ARDUINO
#ifdef ENABLE_FILEIO
#define kRamFileIO (1100) /* approximate */
#else
#define kRamFileIO (0)
#endif
#ifdef ENABLE_TONES
#define kRamTones (40)
#else
#define kRamTones (0)
#endif
#endif /* ARDUINO */
#define kRamSize  (RAMEND - 8803 - kRamFileIO - kRamTones)

#ifndef ARDUINO
// Not arduino setup
#include <stdio.h>
#include <stdlib.h>
#undef ENABLE_TONES

// size of our program ram
#define kRamSize   4096 /* arbitrary */

#ifdef ENABLE_FILEIO
FILE * fp;
#endif
#endif

#ifdef ENABLE_FILEIO
// functions defined elsehwere
void cmd_Files( void );
#endif

////////////////////

#ifndef boolean
#define boolean int
#define true 1
#define false 0
#endif
#endif

#ifndef byte
typedef unsigned char byte;
#endif

// some catches for AVR based text string stuff...
#ifndef PROGMEM
#define PROGMEM
#endif
#ifndef pgm_read_byte
#define pgm_read_byte( A ) *(A)
#endif

////////////////////

#ifdef ENABLE_FILEIO
unsigned char * filenameWord(void);
static boolean sd_is_initialized = false;
#endif

boolean inhibitOutput = false;
static boolean runAfterLoad = false;
static boolean triggerRun = false;

// these will select, at runtime, where IO happens through for load/save
enum {
  kStreamSerial = 0,
  kStreamEEProm,
  kStreamFile
};
static unsigned char inStream = kStreamSerial;
static unsigned char outStream = kStreamSerial;


////////////////////////////////////////////////////////////////////////////////
// ASCII Characters
#define CR   '\r'
#define NL   '\n'
#define LF      0x0a
#define TAB   '\t'
#define BELL   '\b'
#define SPACE   ' '
#define SQUOTE  '\''
#define DQUOTE  '\"'
#define CTRLC   0x1B  // Changed to ESC key (27 - 0x1B)
#define CTRLH   0x08
#define CTRLS   0x13
#define CTRLX   0x18

typedef short unsigned LINENUM;
#ifdef ARDUINO
#define ECHO_CHARS 1
#else
#define ECHO_CHARS 0
#endif


static unsigned char program[kRamSize];
static const char *  sentinel = "AVR BASIC Computer V0.1";
static unsigned char *txtpos,*list_line;
static unsigned char expression_error;
static unsigned char *tempsp;

/***********************************************************/
// Keyword table and constants - the last character has 0x80 added to it
static unsigned char keywords[] PROGMEM = {
  'L','I','S','T'+0x80,
  'L','O','A','D'+0x80,
  'N','E','W'+0x80,
  'R','U','N'+0x80,
  'S','A','V','E'+0x80,
  'N','E','X','T'+0x80,
  'L','E','T'+0x80,
  'I','F'+0x80,
  'G','O','T','O'+0x80,
  'G','O','S','U','B'+0x80,
  'R','E','T','U','R','N'+0x80,
  'R','E','M'+0x80,
  'F','O','R'+0x80,
  'I','N','P','U','T'+0x80,
  'P','R','I','N','T'+0x80,
  'P','O','K','E'+0x80,
  'S','T','O','P'+0x80,
  'B','Y','E'+0x80,
  'F','I','L','E','S'+0x80,
  'M','E','M'+0x80,
  '?'+ 0x80,
  '\''+ 0x80,
  'A','W','R','I','T','E'+0x80,
  'D','W','R','I','T','E'+0x80,
  'D','E','L','A','Y'+0x80,
  'E','N','D'+0x80,
  'R','S','E','E','D'+0x80,
  'C','H','A','I','N'+0x80,
#ifdef ENABLE_TONES
  'T','O','N','E','W'+0x80,
  'T','O','N','E'+0x80,
  'N','O','T','O','N','E'+0x80,
#endif
#ifdef ARDUINO
#ifdef ENABLE_EEPROM
  'E','C','H','A','I','N'+0x80,
  'E','L','I','S','T'+0x80,
  'E','L','O','A','D'+0x80,
  'E','F','O','R','M','A','T'+0x80,
  'E','S','A','V','E'+0x80,
#endif
#endif
  0
};

// by moving the command list to an enum, we can easily remove sections
// above and below simultaneously to selectively obliterate functionality.
enum {
  KW_LIST = 0,
  KW_LOAD, KW_NEW, KW_RUN, KW_SAVE,
  KW_NEXT, KW_LET, KW_IF,
  KW_GOTO, KW_GOSUB, KW_RETURN,
  KW_REM,
  KW_FOR,
  KW_INPUT, KW_PRINT,
  KW_POKE,
  KW_STOP, KW_BYE,
  KW_FILES,
  KW_MEM,
  KW_QMARK, KW_QUOTE,
  KW_AWRITE, KW_DWRITE,
  KW_DELAY,
  KW_END,
  KW_RSEED,
  KW_CHAIN,
#ifdef ENABLE_TONES
  KW_TONEW, KW_TONE, KW_NOTONE,
#endif
#ifdef ARDUINO
#ifdef ENABLE_EEPROM
  KW_ECHAIN, KW_ELIST, KW_ELOAD, KW_EFORMAT, KW_ESAVE,
#endif
#endif
  KW_DEFAULT /* always the final one*/
};

struct stack_for_frame {
  char frame_type;
  char for_var;
  short int terminal;
  short int step;
  unsigned char *current_line;
  unsigned char *txtpos;
};

struct stack_gosub_frame {
  char frame_type;
  unsigned char *current_line;
  unsigned char *txtpos;
};

static unsigned char func_tab[] PROGMEM = {
  'P','E','E','K'+0x80,
  'A','B','S'+0x80,
  'A','R','E','A','D'+0x80,
  'D','R','E','A','D'+0x80,
  'R','N','D'+0x80,
  0
};
#define FUNC_PEEK    0
#define FUNC_ABS     1
#define FUNC_AREAD   2
#define FUNC_DREAD   3
#define FUNC_RND     4
#define FUNC_UNKNOWN 5

static unsigned char to_tab[] PROGMEM = {
  'T','O'+0x80,
  0
};

static unsigned char step_tab[] PROGMEM = {
  'S','T','E','P'+0x80,
  0
};

static unsigned char relop_tab[] PROGMEM = {
  '>','='+0x80,
  '<','>'+0x80,
  '>'+0x80,
  '='+0x80,
  '<','='+0x80,
  '<'+0x80,
  '!','='+0x80,
  0
};

#define RELOP_GE      0
#define RELOP_NE      1
#define RELOP_GT      2
#define RELOP_EQ      3
#define RELOP_LE      4
#define RELOP_LT      5
#define RELOP_NE_BANG      6
#define RELOP_UNKNOWN   7

static unsigned char highlow_tab[] PROGMEM = {
  'H','I','G','H'+0x80,
  'H','I'+0x80,
  'L','O','W'+0x80,
  'L','O'+0x80,
  0
};
#define HIGHLOW_HIGH    1
#define HIGHLOW_UNKNOWN 4

#define STACK_SIZE (sizeof(struct stack_for_frame)*5)
#define VAR_SIZE sizeof(short int) // Size of variables in bytes

static unsigned char *stack_limit;
static unsigned char *program_start;
static unsigned char *program_end;
static unsigned char *stack; // Software stack for things that should go on the CPU stack
static unsigned char *variables_begin;
static unsigned char *current_line;
static unsigned char *sp1;
#define STACK_GOSUB_FLAG 'G'
#define STACK_FOR_FLAG 'F'
static unsigned char table_index;
static LINENUM linenum;

static const unsigned char okmsg[]            PROGMEM = "OK";
static const unsigned char whatmsg[]          PROGMEM = "What? ";
static const unsigned char howmsg[]           PROGMEM =   "How?";
static const unsigned char sorrymsg[]         PROGMEM = "Sorry!";
static const unsigned char initmsg[]          PROGMEM = "TinyBasic Plus " kVersion;
static const unsigned char memorymsg[]        PROGMEM = " bytes free.";
#ifdef ARDUINO
#ifdef ENABLE_EEPROM
static const unsigned char eeprommsg[]        PROGMEM = " EEProm bytes total.";
static const unsigned char eepromamsg[]       PROGMEM = " EEProm bytes available.";
#endif
#endif
static const unsigned char breakmsg[]         PROGMEM = "break!";
static const unsigned char unimplimentedmsg[] PROGMEM = "Unimplemented";
static const unsigned char backspacemsg[]     PROGMEM = "\b \b";
static const unsigned char indentmsg[]        PROGMEM = "    ";
static const unsigned char sderrormsg[]       PROGMEM = "SD card error.";
static const unsigned char sdfilemsg[]        PROGMEM = "SD file error.";
static const unsigned char dirextmsg[]        PROGMEM = "(dir)";
static const unsigned char slashmsg[]         PROGMEM = "/";
static const unsigned char spacemsg[]         PROGMEM = " ";

static int inchar(void);
static void outchar(unsigned char c);
static void line_terminator(void);
static short int expression(void);
static unsigned char breakcheck(void);
/***************************************************************************/
static void ignore_blanks(void)
{
  while(*txtpos == SPACE || *txtpos == TAB)
    txtpos++;
}


/***************************************************************************/
static void scantable(unsigned char *table)
{
  int i = 0;
  table_index = 0;
  while(1)
  {
    // Run out of table entries?
    if(pgm_read_byte( table ) == 0)
      return;

    // Do we match this character?
    if(txtpos == pgm_read_byte( table ))
    {
      i++;
      table++;
    }
    else
    {
      // do we match the last character of keywork (with 0x80 added)? If so, return
      if(txtpos+0x80 == pgm_read_byte( table ))
      {
        txtpos += i+1;  // Advance the pointer to following the keyword
        ignore_blanks();
        return;
      }

      // Forward to the end of this keyword
      while((pgm_read_byte( table ) & 0x80) == 0)
        table++;

      // Now move on to the first character of the next word, and reset the position index
      table++;
      table_index++;
      ignore_blanks();
      i = 0;
    }
  }
}

/***************************************************************************/
static void pushb(unsigned char b)
{
  sp1--;
  *sp1 = b;
}

/***************************************************************************/
static unsigned char popb()
{
  unsigned char b;
  b = *sp1;
  sp1++;
  return b;
}

/***************************************************************************/
void printnum(int num)
{
  int digits = 0;

  if(num < 0)
  {
    num = -num;
    outchar('-');
  }
  do {
    pushb(num%10+'0');
    num = num/10;
    digits++;
  }
  while (num > 0);

  while(digits > 0)
  {
    outchar(popb());
    digits--;
  }
}

void printUnum(unsigned int num)
{
  int digits = 0;

  do {
    pushb(num%10+'0');
    num = num/10;
    digits++;
  }
  while (num > 0);

  while(digits > 0)
  {
    outchar(popb());
    digits--;
  }
}

/***************************************************************************/
static unsigned short testnum(void)
{
  unsigned short num = 0;
  ignore_blanks();

  while(*txtpos>= '0' && *txtpos <= '9' )
  {
    // Trap overflows
    if(num >= 0xFFFF/10)
    {
      num = 0xFFFF;
      break;
    }

    num = num *10 + *txtpos - '0';
    txtpos++;
  }
  return   num;
}

/***************************************************************************/
static unsigned char print_quoted_string(void)
{
  int i=0;
  unsigned char delim = *txtpos;
  if(delim != '"' && delim != '\'')
    return 0;
  txtpos++;

  // Check we have a closing delimiter
  while(txtpos != delim)
  {
    if(txtpos == NL)
      return 0;
    i++;
  }

  // Print the characters
  while(*txtpos != delim)
  {
    outchar(*txtpos);
    txtpos++;
  }
  txtpos++; // Skip over the last delimiter

  return 1;
}


/***************************************************************************/
void printmsgNoNL(const unsigned char *msg)
{
  while( pgm_read_byte( msg ) != 0 ) {
    outchar( pgm_read_byte( msg++ ) );
  };
}

/***************************************************************************/
void printmsg(const unsigned char *msg)
{
  printmsgNoNL(msg);
  line_terminator();
}

/***************************************************************************/
static void getln(char prompt)
{
  outchar(prompt);
  txtpos = program_end+sizeof(LINENUM);

  while(1)
  {
    char c = inchar();
    switch(c)
    {
    case NL:
      //break;
    case CR:
      line_terminator();
      // Terminate all strings with a NL
      txtpos[0] = NL;
      return;
    case CTRLH:
      if(txtpos == program_end)
        break;
      txtpos--;

      printmsg(backspacemsg);
      break;
    default:
      // We need to leave at least one space to allow us to shuffle the line into order
      if(txtpos == variables_begin-2)
        outchar(BELL);
      else
      {
        txtpos[0] = c;
        txtpos++;
        outchar(c);
      }
    }
  }
}

/***************************************************************************/
static unsigned char *findline(void)
{
  unsigned char *line = program_start;
  while(1)
  {
    if(line == program_end)
      return line;

    if(((LINENUM *)line)[0] >= linenum)
      return line;

    // Add the line length onto the current address, to get to the next line;
    line += line[sizeof(LINENUM)];
  }
}

/***************************************************************************/
static void toUppercaseBuffer(void)
{
  unsigned char *c = program_end+sizeof(LINENUM);
  unsigned char quote = 0;

  while(*c != NL)
  {
    // Are we in a quoted string?
    if(*c == quote)
      quote = 0;
    else if(*c == '"' || *c == '\'')
      quote = *c;
    else if(quote == 0 && *c >= 'a' && *c <= 'z')
      *c = *c + 'A' - 'a';
    c++;
  }
}

/***************************************************************************/
void printline()
{
  LINENUM line_num;

  line_num = *((LINENUM *)(list_line));
  list_line += sizeof(LINENUM) + sizeof(char);

  // Output the line */
  printnum(line_num);
  outchar(' ');
  while(*list_line != NL)
  {
    outchar(*list_line);
    list_line++;
  }
  list_line++;
  line_terminator();
}

/***************************************************************************/
static short int expr4(void)
{
  // fix provided by Jurg Wullschleger wullschleger@gmail.com
  // fixes whitespace and unary operations
  ignore_blanks();

  if( *txtpos == '-' ) {
    txtpos++;
    return -expr4();
  }
  // end fix

  if(*txtpos == '0')
  {
    txtpos++;
    return 0;
  }

  if(*txtpos >= '1' && *txtpos <= '9')
  {
    short int a = 0;
    do    {
      a = a*10 + *txtpos - '0';
      txtpos++;
    }
    while(*txtpos >= '0' && *txtpos <= '9');
    return a;
  }

  // Is it a function or variable reference?
  if(txtpos[0] >= 'A' && txtpos[0] <= 'Z')
  {
    short int a;
    // Is it a variable reference (single alpha)
    if(txtpos[1] < 'A' || txtpos[1] > 'Z')
    {
      a = ((short int *)variables_begin)[*txtpos - 'A'];
      txtpos++;
      return a;
    }

    // Is it a function with a single parameter
    scantable(func_tab);
    if(table_index == FUNC_UNKNOWN)
      goto expr4_error;

    unsigned char f = table_index;

    if(*txtpos != '(')
      goto expr4_error;

    txtpos++;
    a = expression();
    if(*txtpos != ')')
      goto expr4_error;
    txtpos++;
    switch(f)
    {
    case FUNC_PEEK:
      return program[a];
     
    case FUNC_ABS:
      if(a < 0)
        return -a;
      return a;

#ifdef ARDUINO
    case FUNC_AREAD:
      pinMode( a, INPUT );
      return analogRead( a );                       
    case FUNC_DREAD:
      pinMode( a, INPUT );
      return digitalRead( a );
#endif

    case FUNC_RND:
#ifdef ARDUINO
      return( random( a ));
#else
      return( rand() % a );
#endif
    }
  }

  if(*txtpos == '(')
  {
    short int a;
    txtpos++;
    a = expression();
    if(*txtpos != ')')
      goto expr4_error;

    txtpos++;
    return a;
  }

expr4_error:
  expression_error = 1;
  return 0;

}

/***************************************************************************/
static short int expr3(void)
{
  short int a,b;

  a = expr4();

  ignore_blanks(); // fix for eg:  100 a = a + 1

  while(1)
  {
    if(*txtpos == '*')
    {
      txtpos++;
      b = expr4();
      a *= b;
    }
    else if(*txtpos == '/')
    {
      txtpos++;
      b = expr4();
      if(b != 0)
        a /= b;
      else
        expression_error = 1;
    }
    else
      return a;
  }
}

/***************************************************************************/
static short int expr2(void)
{
  short int a,b;

  if(*txtpos == '-' || *txtpos == '+')
    a = 0;
  else
    a = expr3();

  while(1)
  {
    if(*txtpos == '-')
    {
      txtpos++;
      b = expr3();
      a -= b;
    }
    else if(*txtpos == '+')
    {
      txtpos++;
      b = expr3();
      a += b;
    }
    else
      return a;
  }
}
/***************************************************************************/
static short int expression(void)
{
  short int a,b;

  a = expr2();

  // Check if we have an error
  if(expression_error)   return a;

  scantable(relop_tab);
  if(table_index == RELOP_UNKNOWN)
    return a;

  switch(table_index)
  {
  case RELOP_GE:
    b = expr2();
    if(a >= b) return 1;
    break;
  case RELOP_NE:
  case RELOP_NE_BANG:
    b = expr2();
    if(a != b) return 1;
    break;
  case RELOP_GT:
    b = expr2();
    if(a > b) return 1;
    break;
  case RELOP_EQ:
    b = expr2();
    if(a == b) return 1;
    break;
  case RELOP_LE:
    b = expr2();
    if(a <= b) return 1;
    break;
  case RELOP_LT:
    b = expr2();
    if(a < b) return 1;
    break;
  }
  return 0;
}

/***************************************************************************/
void loop()
{
  unsigned char *start;
  unsigned char *newEnd;
  unsigned char linelen;
  boolean isDigital;
  boolean alsoWait = false;
  int val;

#ifdef ARDUINO
#ifdef ENABLE_TONES
  noTone( kPiezoPin );
#endif
#endif

  program_start = program;
  program_end = program_start;
  sp1 = program+sizeof(program);  // Needed for printnum
  stack_limit = program+sizeof(program)-STACK_SIZE;
  variables_begin = stack_limit - 27*VAR_SIZE;

  // memory free
  printnum(variables_begin-program_end);
  printmsg(memorymsg);

warmstart:
  // this signifies that it is running in 'direct' mode.
  current_line = 0;
  sp1 = program+sizeof(program);
  printmsg(okmsg);

prompt:
  if( triggerRun ){
    triggerRun = false;
    current_line = program_start;
    goto execline;
  }

  getln( '>' );
  toUppercaseBuffer();

  txtpos = program_end+sizeof(unsigned short);

  // Find the end of the freshly entered line
  while(*txtpos != NL)
    txtpos++;

  // Move it to the end of program_memory
  {
    unsigned char *dest;
    dest = variables_begin-1;
    while(1)
    {
      *dest = *txtpos;
      if(txtpos == program_end+sizeof(unsigned short))
        break;
      dest--;
      txtpos--;
    }
    txtpos = dest;
  }

  // Now see if we have a line number
  linenum = testnum();
  ignore_blanks();
  if(linenum == 0)
    goto direct;

  if(linenum == 0xFFFF)
    goto qhow;

  // Find the length of what is left, including the (yet-to-be-populated) line header
  linelen = 0;
  while(txtpos[linelen] != NL)
    linelen++;
  linelen++; // Include the NL in the line length
  linelen += sizeof(unsigned short)+sizeof(char); // Add space for the line number and line length

  // Now we have the number, add the line header.
  txtpos -= 3;
  *((unsigned short *)txtpos) = linenum;
  txtpos[sizeof(LINENUM)] = linelen;


  // Merge it into the rest of the program
  start = findline();

  // If a line with that number exists, then remove it
  if(start != program_end && *((LINENUM *)start) == linenum)
  {
    unsigned char *dest, *from;
    unsigned tomove;

    from = start + start[sizeof(LINENUM)];
    dest = start;

    tomove = program_end - from;
    while( tomove > 0)
    {
      *dest = *from;
      from++;
      dest++;
      tomove--;
    }   
    program_end = dest;
  }

  if(txtpos[sizeof(LINENUM)+sizeof(char)] == NL) // If the line has no txt, it was just a delete
    goto prompt;



  // Make room for the new line, either all in one hit or lots of little shuffles
  while(linelen > 0)
  {   
    unsigned int tomove;
    unsigned char *from,*dest;
    unsigned int space_to_make;

    space_to_make = txtpos - program_end;

    if(space_to_make > linelen)
      space_to_make = linelen;
    newEnd = program_end+space_to_make;
    tomove = program_end - start;


    // Source and destination - as these areas may overlap we need to move bottom up
    from = program_end;
    dest = newEnd;
    while(tomove > 0)
    {
      from--;
      dest--;
      *dest = *from;
      tomove--;
    }

    // Copy over the bytes into the new space
    for(tomove = 0; tomove < space_to_make; tomove++)
    {
      *start = *txtpos;
      txtpos++;
      start++;
      linelen--;
    }
    program_end = newEnd;
  }
  goto prompt;

unimplemented:
  printmsg(unimplimentedmsg);
  goto prompt;

qhow:   
  printmsg(howmsg);
  goto prompt;

qwhat:   
  printmsgNoNL(whatmsg);
  if(current_line != NULL)
  {
    unsigned char tmp = *txtpos;
    if(*txtpos != NL)
      *txtpos = '^';
    list_line = current_line;
    printline();
    *txtpos = tmp;
  }
  line_terminator();
  goto prompt;

qsorry:   
  printmsg(sorrymsg);
  goto warmstart;

run_next_statement:
  while(*txtpos == ':')
    txtpos++;
  ignore_blanks();
  if(*txtpos == NL)
    goto execnextline;
  goto interperateAtTxtpos;

direct:
  txtpos = program_end+sizeof(LINENUM);
  if(*txtpos == NL)
    goto prompt;

interperateAtTxtpos:
  if(breakcheck())
  {
    printmsg(breakmsg);
    goto warmstart;
  }

  scantable(keywords);

  switch(table_index)
  {
  case KW_DELAY:
    {
#ifdef ARDUINO
      expression_error = 0;
      val = expression();
      delay( val );
      goto execnextline;
#else
      goto unimplemented;
#endif
    }

  case KW_FILES:
    goto files;
  case KW_LIST:
    goto list;
  case KW_CHAIN:
    goto chain;
  case KW_LOAD:
    goto load;
  case KW_MEM:
    goto mem;
  case KW_NEW:
    if(txtpos[0] != NL)
      goto qwhat;
    program_end = program_start;
    goto prompt;
  case KW_RUN:
    current_line = program_start;
    goto execline;
  case KW_SAVE:
    goto save;
  case KW_NEXT:
    goto next;
  case KW_LET:
    goto assignment;
  case KW_IF:
    short int val;
    expression_error = 0;
    val = expression();
    if(expression_error || *txtpos == NL)
      goto qhow;
    if(val != 0)
      goto interperateAtTxtpos;
    goto execnextline;

  case KW_GOTO:
    expression_error = 0;
    linenum = expression();
    if(expression_error || *txtpos != NL)
      goto qhow;
    current_line = findline();
    goto execline;

  case KW_GOSUB:
    goto gosub;
  case KW_RETURN:
    goto gosub_return;
  case KW_REM:
  case KW_QUOTE:
    goto execnextline;   // Ignore line completely
  case KW_FOR:
    goto forloop;
  case KW_INPUT:
    goto input;
  case KW_PRINT:
  case KW_QMARK:
    goto print;
  case KW_POKE:
    goto poke;
  case KW_END:
  case KW_STOP:
    // This is the easy way to end - set the current line to the end of program attempt to run it
    if(txtpos[0] != NL)
      goto qwhat;
    current_line = program_end;
    goto execline;
  case KW_BYE:
    // Leave the basic interperater
    return;

  case KW_AWRITE:  // AWRITE <pin>, HIGH|LOW
    isDigital = false;
    goto awrite;
  case KW_DWRITE:  // DWRITE <pin>, HIGH|LOW
    isDigital = true;
    goto dwrite;

  case KW_RSEED:
    goto rseed;

#ifdef ENABLE_TONES
  case KW_TONEW:
    alsoWait = true;
  case KW_TONE:
    goto tonegen;
  case KW_NOTONE:
    goto tonestop;
#endif

#ifdef ARDUINO
#ifdef ENABLE_EEPROM
  case KW_EFORMAT:
    goto eformat;
  case KW_ESAVE:
    goto esave;
  case KW_ELOAD:
    goto eload;
  case KW_ELIST:
    goto elist;
  case KW_ECHAIN:
    goto echain;
#endif
#endif

  case KW_DEFAULT:
    goto assignment;
  default:
    break;
  }

execnextline:
  if(current_line == NULL)      // Processing direct commands?
    goto prompt;
  current_line +=    current_line[sizeof(LINENUM)];

execline:
  if(current_line == program_end) // Out of lines to run
    goto warmstart;
  txtpos = current_line+sizeof(LINENUM)+sizeof(char);
  goto interperateAtTxtpos;

#ifdef ARDUINO
#ifdef ENABLE_EEPROM
elist:
  {
    int i;
    for (i = 0; i < 8192; i++)
    {
      val = disk1.read_byte(i);
      if( val == '\0' ) {
      goto execnextline;
    }

    if( ((val < ' ') || (val  > '~')) && (val != NL) && (val != CR))  {
      outchar( '?' );
    }
    else {
      outchar( val );
    }
    }
   
  }
  goto execnextline;

eformat:
  {
    for (int i = 0; i < 8191; i++)
    {
      if( (i & 0x03f) == 0x20 ) outchar( '.' );
      disk1.write( i, 0 );
    } 
    outchar( LF );
  }
  goto execnextline;

esave:
  {
    outStream = kStreamEEProm;
    eepos = 0;

    // copied from "List"
    list_line = findline();
    while(list_line != program_end)
      printline();

    // go back to standard output, close the file
    outStream = kStreamSerial;
   
    goto warmstart;
  }
 
 
echain:
  runAfterLoad = true;

eload:
  // clear the program
  program_end = program_start;

  // load from a file into memory
  eepos = 0;
  inStream = kStreamEEProm;
  inhibitOutput = true;
  goto warmstart;
#endif /* ENABLE_EEPROM */
#endif

input:
  {
    unsigned char var;
    ignore_blanks();
    if(*txtpos < 'A' || *txtpos > 'Z')
      goto qwhat;
    var = *txtpos;
    txtpos++;
    ignore_blanks();
    if(*txtpos != NL && *txtpos != ':')
      goto qwhat;
    ((short int *)variables_begin)[var-'A'] = 99;

    goto run_next_statement;
  }

forloop:
  {
    unsigned char var;
    short int initial, step, terminal;
    ignore_blanks();
    if(*txtpos < 'A' || *txtpos > 'Z')
      goto qwhat;
    var = *txtpos;
    txtpos++;
    ignore_blanks();
    if(*txtpos != '=')
      goto qwhat;
    txtpos++;
    ignore_blanks();

    expression_error = 0;
    initial = expression();
    if(expression_error)
      goto qwhat;

    scantable(to_tab);
    if(table_index != 0)
      goto qwhat;

    terminal = expression();
    if(expression_error)
      goto qwhat;

    scantable(step_tab);
    if(table_index == 0)
    {
      step = expression();
      if(expression_error)
        goto qwhat;
    }
    else
      step = 1;
    ignore_blanks();
    if(*txtpos != NL && *txtpos != ':')
      goto qwhat;


    if(!expression_error && *txtpos == NL)
    {
      struct stack_for_frame *f;
      if(sp1 + sizeof(struct stack_for_frame) < stack_limit)
        goto qsorry;

      sp1 -= sizeof(struct stack_for_frame);
      f = (struct stack_for_frame *)sp1;
      ((short int *)variables_begin)[var-'A'] = initial;
      f->frame_type = STACK_FOR_FLAG;
      f->for_var = var;
      f->terminal = terminal;
      f->step     = step;
      f->txtpos   = txtpos;
      f->current_line = current_line;
      goto run_next_statement;
    }
  }
  goto qhow;

gosub:
  expression_error = 0;
  linenum = expression();
  if(!expression_error && *txtpos == NL)
  {
    struct stack_gosub_frame *f;
    if(sp1 + sizeof(struct stack_gosub_frame) < stack_limit)
      goto qsorry;

    sp1 -= sizeof(struct stack_gosub_frame);
    f = (struct stack_gosub_frame *)sp1;
    f->frame_type = STACK_GOSUB_FLAG;
    f->txtpos = txtpos;
    f->current_line = current_line;
    current_line = findline();
    goto execline;
  }
  goto qhow;

next:
  // Fnd the variable name
  ignore_blanks();
  if(*txtpos < 'A' || *txtpos > 'Z')
    goto qhow;
  txtpos++;
  ignore_blanks();
  if(*txtpos != ':' && *txtpos != NL)
    goto qwhat;

gosub_return:
  // Now walk up the stack frames and find the frame we want, if present
  tempsp = sp1;
  while(tempsp < program+sizeof(program)-1)
  {
    switch(tempsp[0])
    {
    case STACK_GOSUB_FLAG:
      if(table_index == KW_RETURN)
      {
        struct stack_gosub_frame *f = (struct stack_gosub_frame *)tempsp;
        current_line   = f->current_line;
        txtpos         = f->txtpos;
        sp1 += sizeof(struct stack_gosub_frame);
        goto run_next_statement;
      }
      // This is not the loop you are looking for... so Walk back up the stack
      tempsp += sizeof(struct stack_gosub_frame);
      break;
    case STACK_FOR_FLAG:
      // Flag, Var, Final, Step
      if(table_index == KW_NEXT)
      {
        struct stack_for_frame *f = (struct stack_for_frame *)tempsp;
        // Is the the variable we are looking for?
        if(txtpos[-1] == f->for_var)
        {
          short int *varaddr = ((short int *)variables_begin) + txtpos[-1] - 'A';
          *varaddr = *varaddr + f->step;
          // Use a different test depending on the sign of the step increment
          if((f->step > 0 && *varaddr <= f->terminal) || (f->step < 0 && *varaddr >= f->terminal))
          {
            // We have to loop so don't pop the stack
            txtpos = f->txtpos;
            current_line = f->current_line;
            goto run_next_statement;
          }
          // We've run to the end of the loop. drop out of the loop, popping the stack
          sp1 = tempsp + sizeof(struct stack_for_frame);
          goto run_next_statement;
        }
      }
      // This is not the loop you are looking for... so Walk back up the stack
      tempsp += sizeof(struct stack_for_frame);
      break;
    default:
      //printf("Stack is stuffed!\n");
      goto warmstart;
    }
  }
  // Didn't find the variable we've been looking for
  goto qhow;

assignment:
  {
    short int value;
    short int *var;

    if(*txtpos < 'A' || *txtpos > 'Z')
      goto qhow;
    var = (short int *)variables_begin + *txtpos - 'A';
    txtpos++;

    ignore_blanks();

    if (*txtpos != '=')
      goto qwhat;
    txtpos++;
    ignore_blanks();
    expression_error = 0;
    value = expression();
    if(expression_error)
      goto qwhat;
    // Check that we are at the end of the statement
    if(*txtpos != NL && *txtpos != ':')
      goto qwhat;
    *var = value;
  }
  goto run_next_statement;
poke:
  {
    short int value;
    unsigned char *address;

    // Work out where to put it
    expression_error = 0;
    value = expression();
    if(expression_error)
      goto qwhat;
    address = (unsigned char *)value;

    // check for a comma
    ignore_blanks();
    if (*txtpos != ',')
      goto qwhat;
    txtpos++;
    ignore_blanks();

    // Now get the value to assign
    expression_error = 0;
    value = expression();
    if(expression_error)
      goto qwhat;
    //printf("Poke %p value %i\n",address, (unsigned char)value);
    // Check that we are at the end of the statement
    if(*txtpos != NL && *txtpos != ':')
      goto qwhat;
  }
  goto run_next_statement;

list:
  linenum = testnum(); // Retuns 0 if no line found.

  // Should be EOL
  if(txtpos[0] != NL)
    goto qwhat;

  // Find the line
  list_line = findline();
  while(list_line != program_end)
    printline();
  goto warmstart;

print:
  // If we have an empty list then just put out a NL
  if(*txtpos == ':' )
  {
    line_terminator();
    txtpos++;
    goto run_next_statement;
  }
  if(*txtpos == NL)
  {
    goto execnextline;
  }

  while(1)
  {
    ignore_blanks();
    if(print_quoted_string())
    {
      ;
    }
    else if(*txtpos == '"' || *txtpos == '\'')
      goto qwhat;
    else
    {
      short int e;
      expression_error = 0;
      e = expression();
      if(expression_error)
        goto qwhat;
      printnum(e);
    }

    // At this point we have three options, a comma or a new line
    if(*txtpos == ',')
      txtpos++;   // Skip the comma and move onto the next
    else if(txtpos[0] == ';' && (txtpos[1] == NL || txtpos[1] == ':'))
    {
      txtpos++; // This has to be the end of the print - no newline
      break;
    }
    else if(*txtpos == NL || *txtpos == ':')
    {
      line_terminator();   // The end of the print statement
      break;
    }
    else
      goto qwhat;   
  }
  goto run_next_statement;

mem:
  // memory free
  printnum(variables_begin-program_end);
  printmsg(memorymsg);
#ifdef ARDUINO
#ifdef ENABLE_EEPROM
  {
    printnum(8192);
    printmsg(eeprommsg);
     
    val = ' ';
    int i;   
    for( i=0 ; (i<(8192)) && (val != '\0') ; i++ ) {
      val = disk1.read_byte( i );   
    }
    printnum( (8192) - (i-1) );
   
    printmsg( eepromamsg );
  }
#endif /* ENABLE_EEPROM */
#endif /* ARDUINO */
  goto run_next_statement;


  /*************************************************/

#ifdef ARDUINO
awrite: // AWRITE <pin>,val
dwrite:
  {
    short int pinNo;
    short int value;
    unsigned char *txtposBak;

    // Get the pin number
    expression_error = 0;
    pinNo = expression();
    if(expression_error)
      goto qwhat;

    // check for a comma
    ignore_blanks();
    if (*txtpos != ',')
      goto qwhat;
    txtpos++;
    ignore_blanks();


    txtposBak = txtpos;
    scantable(highlow_tab);
    if(table_index != HIGHLOW_UNKNOWN)
    {
      if( table_index <= HIGHLOW_HIGH ) {
        value = 1;
      }
      else {
        value = 0;
      }
    }
    else {

      // and the value (numerical)
      expression_error = 0;
      value = expression();
      if(expression_error)
        goto qwhat;
    }
    pinMode( pinNo, OUTPUT );
    if( isDigital ) {
      digitalWrite( pinNo, value );
    }
    else {
      analogWrite( pinNo, value );
    }
  }
  goto run_next_statement;
#else
pinmode: // PINMODE <pin>, I/O
awrite: // AWRITE <pin>,val
dwrite:
  goto unimplemented;
#endif

  /*************************************************/
files:
  // display a listing of files on the device.
  // version 1: no support for subdirectories

#ifdef ENABLE_FILEIO
    cmd_Files();
  goto warmstart;
#else
  goto unimplemented;
#endif // ENABLE_FILEIO


chain:
  runAfterLoad = true;

load:
  // clear the program
  program_end = program_start;

  // load from a file into memory
#ifdef ENABLE_FILEIO
  {
    unsigned char *filename;

    // Work out the filename
    expression_error = 0;
    filename = filenameWord();
    if(expression_error)
      goto qwhat;

#ifdef ARDUINO
    // Arduino specific
    if( !SD.exists( (char *)filename ))
    {
      printmsg( sdfilemsg );
    }
    else {

      fp = SD.open( (const char *)filename );
      inStream = kStreamFile;
      inhibitOutput = true;
    }
#else // ARDUINO
    // Desktop specific
#endif // ARDUINO
    // this will kickstart a series of events to read in from the file.

  }
  goto warmstart;
#else // ENABLE_FILEIO
  goto unimplemented;
#endif // ENABLE_FILEIO



save:
  // save from memory out to a file
#ifdef ENABLE_FILEIO
  {
    unsigned char *filename;

    // Work out the filename
    expression_error = 0;
    filename = filenameWord();
    if(expression_error)
      goto qwhat;

#ifdef ARDUINO
    // remove the old file if it exists
    if( SD.exists( (char *)filename )) {
      SD.remove( (char *)filename );
    }

    // open the file, switch over to file output
    fp = SD.open( (const char *)filename, FILE_WRITE );
    outStream = kStreamFile;

    // copied from "List"
    list_line = findline();
    while(list_line != program_end)
      printline();

    // go back to standard output, close the file
    outStream = kStreamSerial;

    fp.close();
#else // ARDUINO
    // desktop
#endif // ARDUINO
    goto warmstart;
  }
#else // ENABLE_FILEIO
  goto unimplemented;
#endif // ENABLE_FILEIO

rseed:
  {
    short int value;

    //Get the pin number
    expression_error = 0;
    value = expression();
    if(expression_error)
      goto qwhat;

#ifdef ARDUINO
    randomSeed( value );
#else // ARDUINO
    srand( value );
#endif // ARDUINO
    goto run_next_statement;
  }

#ifdef ENABLE_TONES
tonestop:
  noTone( kPiezoPin );
  goto run_next_statement;

tonegen:
  {
    // TONE freq, duration
    // if

[agehall]

Have you tried reading the error message? That might give you some hints...

[iMo]

While building a source there are many .h and .cpp files involved, for example your spieeprom.h and many others.
As I wrote above replace the WProgram.h include in that file with Arduino.h.
Replace the strings in the files you get listed in those error messages.

Like

#include "WProgram.h"

should be

#include "Arduino.h"

[Kilroywashere]

While building a source there are many .h and .cpp files involved, for example your spieeprom.h and many others.
As I wrote above replace the WProgram.h include in that file with Arduino.h.
Replace the strings in the files you get listed in those error messages.

what do u mean Replace the strings??? i found only one file called WProgram.h i renamed that program to Arduino.h.

[iMo]

Look at my previous post.
We are talking your spieeprom.h file.
Open the file and do replace the name of the include file (the name is a string).

The error message is telling you where is the issue:

SpiEEPROM/spieeprom.h:14:22: fatal error: WProgram.h: No such file or directory

In the file spieeprom.h on the line 14, there is an #include statement which wants to include a file which does not exist.

[Kilroywashere]

While building a source there are many .h and .cpp files involved, for example your spieeprom.h and many others.
As I wrote above replace the WProgram.h include in that file with Arduino.h.
Replace the strings in the files you get listed in those error messages.

Like

#include "WProgram.h"

should be

#include "Arduino.h"

spieeprom.h  i used notepad and changed the WProgram.h to Arduino.h....



Did you send me more file names i dont see them on here ?


BTW thank you guys fir helping

[iMo]

Always follow the Error messages and do clean the stuff up, step by step.
In case you are using an old library there could be many files with many #includes inside, pointing to missing, wrong or older arduino core .h files and you have to change them in the particular #include, or you have to add the missing library (a dependency).

PS: Do not rename files!

[Kilroywashere]

Always follow the Error messages and do clean the stuff up, step by step.
In case you are using an old library there could be many files with many #includes inside, pointing to wrong or older arduino core .h files and you have to change them.

PS: Do not rename files!

oppss.... Ok so i think im going to try to find a newer version... or delete all this stuff and try again ...... thanks for your help ... lest i understand now that its making me change a bunch of stuff to run it on older software i guess

[Kilroywashere]

Hey guys just wondering if you can still help me ..... so i keep getting the same error....

Arduino: 1.8.9 (Windows 7), Board: "ATmega1284, Standard, 1284P, 2.7v, Disabled (default), 16 MHz external"

In file included from C:\Program Files\Arduino\AVR_BASIC_Computer_V0.1\AVR_BASIC_Computer_V0.1.ino:182:0:

C:\Program Files\Arduino\libraries\SpiEEPROM/spieeprom.h:14:22: fatal error: WProgram.h: No such file or directory

 #include <WProgram.h>

                      ^

compilation terminated.







----------------------------------------------------



OK so i look up spieeprom.h and sepieeprom.cpp and open it in notepad .....look for #include <WProgram.h>  and change it to

#include <Arduino.h>



I still get the same error...  what am i missing here?  This wont compile unless this is fixed im assuming ....


it does not verify Compile ....


An more hints would be great
 

[sleemanj]

WProgram.h was a very old include from very old Arduino systems.  If the code you are trying to compile is still referencing without qualification WProgram.h, it's probably the least of it's concerns.

See if the code you are trying to compile (SPIEEProm library) has a newer version before you go trying to fix it.

[Kilroywashere]

https://hackaday.io/project/3537-avr-basic-computer-v01 this is what im trying to do .....  and this is my current error



-----------------------------------------------------------------------------------------------------------------------------------------------

Arduino: 1.8.9 (Windows 7), Board: "ATmega1284, Standard, 1284P, 2.7v, Disabled (default), 16 MHz external"

In file included from C:\Users\Me\AppData\Local\Arduino15\packages\MightyCore\hardware\avr\2.0.1\cores\MCUdude_corefiles/Arduino.h:28:0,

                 from sketch\AVR_BASIC_Computer_V0.1.ino.cpp:1:

AVR_BASIC_Computer_V0.1:309:33: error: variable 'keywords' must be const in order to be put into read-only section by means of '__attribute__((progmem))'

 static unsigned char keywords[] PROGMEM = {

                                 ^

AVR_BASIC_Computer_V0.1:401:33: error: variable 'func_tab' must be const in order to be put into read-only section by means of '__attribute__((progmem))'

 static unsigned char func_tab[] PROGMEM = {

                                 ^

AVR_BASIC_Computer_V0.1:416:31: error: variable 'to_tab' must be const in order to be put into read-only section by means of '__attribute__((progmem))'

 static unsigned char to_tab[] PROGMEM = {

                               ^

AVR_BASIC_Computer_V0.1:421:33: error: variable 'step_tab' must be const in order to be put into read-only section by means of '__attribute__((progmem))'

 static unsigned char step_tab[] PROGMEM = {

                                 ^

AVR_BASIC_Computer_V0.1:426:34: error: variable 'relop_tab' must be const in order to be put into read-only section by means of '__attribute__((progmem))'

 static unsigned char relop_tab[] PROGMEM = {

                                  ^

AVR_BASIC_Computer_V0.1:446:36: error: variable 'highlow_tab' must be const in order to be put into read-only section by means of '__attribute__((progmem))'

 static unsigned char highlow_tab[] PROGMEM = {

                                    ^

exit status 1
variable 'keywords' must be const in order to be put into read-only section by means of '__attribute__((progmem))'

This report would have more information with
"Show verbose output during compilation"
option enabled in File -> Preferences.

[iMo]

Again, the Error message is telling you what is wrong:

AVR_BASIC_Computer_V0.1:309:33: error: variable 'keywords' must be const in order to be put into read-only section by means of '__attribute__((progmem))'

 static unsigned char keywords[] PROGMEM = {

Try with

 static const unsigned char keywords[] PROGMEM = {

or

 const unsigned char keywords[] PROGMEM = {

and so on..