relicense to 0BSD

[pforth] / csrc / pf_text.c

/* @(#) pf_text.c 98/01/26 1.3 */
/***************************************************************
** Text Strings for Error Messages
** Various Text tools.
**
** For PForth based on 'C'
**
** Author: Phil Burk
** Copyright 1994 3DO, Phil Burk, Larry Polansky, David Rosenboom
**
** Permission to use, copy, modify, and/or distribute this
** software for any purpose with or without fee is hereby granted.
**
** THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL
** WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED
** WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL
** THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR
** CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING
** FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF
** CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
** OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
**
****************************************************************
** 19970702 PLB Fixed ConvertNumberToText for unsigned numbers.
** 19980522 PLB Expand PAD for ConvertNumberToText so "-1 binary .s" doesn't crash.
***************************************************************/

#include "pf_all.h"

#define PF_ENGLISH

/*
** Define array of error messages.
** These are defined in one place to make it easier to translate them.
*/
#ifdef PF_ENGLISH
/***************************************************************/
void pfReportError( const char *FunctionName, Err ErrCode )
{
   const char *s;

   MSG("Error in ");
   MSG(FunctionName);
   MSG(" - ");

   switch(ErrCode & 0xFF)
   {
   case PF_ERR_NO_MEM & 0xFF:
       s = "insufficient memory"; break;
   case PF_ERR_TOO_BIG & 0xFF:
       s = "data chunk too large"; break;
   case PF_ERR_NUM_PARAMS & 0xFF:
       s = "incorrect number of parameters"; break;
   case PF_ERR_OPEN_FILE & 0xFF:
       s = "could not open file"; break;
   case PF_ERR_WRONG_FILE & 0xFF:
       s = "wrong type of file format"; break;
   case PF_ERR_BAD_FILE & 0xFF:
       s = "badly formatted file"; break;
   case PF_ERR_READ_FILE & 0xFF:
       s = "file read failed"; break;
   case PF_ERR_WRITE_FILE & 0xFF:
       s = "file write failed"; break;
   case PF_ERR_CORRUPT_DIC & 0xFF:
       s = "corrupted dictionary"; break;
   case PF_ERR_NOT_SUPPORTED & 0xFF:
       s = "not supported in this version"; break;
   case PF_ERR_VERSION_FUTURE & 0xFF:
       s = "version from future"; break;
   case PF_ERR_VERSION_PAST & 0xFF:
       s = "version is obsolete. Rebuild new one."; break;
   case PF_ERR_COLON_STACK & 0xFF:
       s = "stack depth changed between : and ; . Probably unbalanced conditional"; break;
   case PF_ERR_HEADER_ROOM & 0xFF:
       s = "no room left in header space"; break;
   case PF_ERR_CODE_ROOM & 0xFF:
       s = "no room left in code space"; break;
   case PF_ERR_NO_SHELL & 0xFF:
       s = "attempt to use names in forth compiled with PF_NO_SHELL"; break;
   case PF_ERR_NO_NAMES & 0xFF:
       s = "dictionary has no names";  break;
   case PF_ERR_OUT_OF_RANGE & 0xFF:
       s = "parameter out of range";  break;
   case PF_ERR_ENDIAN_CONFLICT & 0xFF:
       s = "endian-ness of dictionary does not match code";  break;
   case PF_ERR_FLOAT_CONFLICT & 0xFF:
       s = "float support mismatch between .dic file and code";  break;
   case PF_ERR_CELL_SIZE_CONFLICT & 0xFF:
       s = "cell size mismatch between .dic file and code";  break;
   default:
       s = "unrecognized error code!"; break;
   }
   MSG(s);
   EMIT_CR;
}

void pfReportThrow( ThrowCode code )
{
   const char *s = NULL;
   switch(code)
   {
   case THROW_ABORT:
   case THROW_ABORT_QUOTE:
       s = "ABORT"; break;
   case THROW_STACK_OVERFLOW:
       s = "Stack overflow!"; break;
   case THROW_STACK_UNDERFLOW:
       s = "Stack underflow!"; break;
   case THROW_EXECUTING:
       s = "Executing a compile-only word!"; break;
   case THROW_FLOAT_STACK_UNDERFLOW:
       s = "Float Stack underflow!"; break;
   case THROW_UNDEFINED_WORD:
       s = "Undefined word!"; break;
   case THROW_PAIRS:
       s = "Conditional control structure mismatch!"; break;
   case THROW_BYE:
   case THROW_QUIT:
       break;
   case THROW_SEMICOLON:
       s = "Stack depth changed between : and ; . Probably unbalanced conditional!"; break;
   case THROW_DEFERRED:
       s = "Not a DEFERred word!"; break;
   default:
       s = "Unrecognized throw code!"; break;
   }

   if( s )
   {
       MSG_NUM_D("THROW code = ", code );
       MSG(s);
       EMIT_CR;
   }
}
#endif

/**************************************************************
** Copy a Forth String to a 'C' string.
*/

char *ForthStringToC( char *dst, const char *FString, cell_t dstSize )
{
   cell_t Len;

   Len = (cell_t) *FString;
   /* Make sure the text + NUL can fit. */
   if( Len >= dstSize )
   {
       Len = dstSize - 1;
   }
   pfCopyMemory( dst, FString+1, Len );
   dst[Len] = '\0';

   return dst;
}

/**************************************************************
** Copy a NUL terminated string to a Forth counted string.
*/
char *CStringToForth( char *dst, const char *CString, cell_t dstSize )
{
   cell_t i;

   /* Make sure the SIZE+text can fit. */
   for( i=1; i<dstSize; i++ )
   {
       if( *CString == 0 )
       {
           break;
       }
       dst[i] = *CString++;
   }
   *dst = (char ) i-1;
   return dst;
}

/**************************************************************
** Compare two test strings, case sensitive.
** Return TRUE if they match.
*/
cell_t ffCompareText( const char *s1, const char *s2, cell_t len )
{
   cell_t i, Result;

   Result = TRUE;
   for( i=0; i<len; i++ )
   {
DBUGX(("ffCompareText: *s1 = 0x%x, *s2 = 0x%x\n", *s1, *s2 ));
       if( *s1++ != *s2++ )
       {
           Result = FALSE;
           break;
       }
   }
DBUGX(("ffCompareText: return 0x%x\n", Result ));
   return Result;
}

/**************************************************************
** Compare two test strings, case INsensitive.
** Return TRUE if they match.
*/
cell_t ffCompareTextCaseN( const char *s1, const char *s2, cell_t len )
{
   cell_t i, Result;
   char  c1,c2;

   Result = TRUE;
   for( i=0; i<len; i++ )
   {
       c1 = pfCharToLower(*s1++);
       c2 = pfCharToLower(*s2++);
DBUGX(("ffCompareText: c1 = 0x%x, c2 = 0x%x\n", c1, c2 ));
       if( c1 != c2 )
       {
           Result = FALSE;
           break;
       }
   }
DBUGX(("ffCompareText: return 0x%x\n", Result ));
   return Result;
}

/**************************************************************
** Compare two strings, case sensitive.
** Return zero if they match, -1 if s1<s2, +1 is s1>s2;
*/
cell_t ffCompare( const char *s1, cell_t len1, const char *s2, cell_t len2 )
{
   cell_t i, result, n, diff;

   result = 0;
   n = MIN(len1,len2);
   for( i=0; i<n; i++ )
   {
       if( (diff = (*s2++ - *s1++)) != 0 )
       {
           result = (diff > 0) ? -1 : 1 ;
           break;
       }
   }
   if( result == 0 )  /* Match up to MIN(len1,len2) */
   {
       if( len1 < len2 )
       {
           result = -1;
       }
       else if ( len1 > len2 )
       {
           result = 1;
       }
   }
   return result;
}

/***************************************************************
** Convert number to text.
*/
#define CNTT_PAD_SIZE ((sizeof(cell_t)*8)+2)  /* PLB 19980522 - Expand PAD so "-1 binary .s" doesn't crash. */
static char cnttPad[CNTT_PAD_SIZE];

char *ConvertNumberToText( cell_t Num, cell_t Base, int32_t IfSigned, int32_t MinChars )
{
   cell_t IfNegative = 0;
   char *p,c;
   ucell_t NewNum, Rem, uNum;
   cell_t i = 0;

   uNum = Num;
   if( IfSigned )
   {
/* Convert to positive and keep sign. */
       if( Num < 0 )
       {
           IfNegative = TRUE;
           uNum = -Num;
       }
   }

/* Point past end of Pad */
   p = cnttPad + CNTT_PAD_SIZE;
   *(--p) = (char) 0; /* NUL terminate */

   while( (i++<MinChars) || (uNum != 0) )
   {
       NewNum = uNum / Base;
       Rem = uNum - (NewNum * Base);
       c = (char) (( Rem < 10 ) ? (Rem + '0') : (Rem - 10 + 'A'));
       *(--p) = c;
       uNum = NewNum;
   }

   if( IfSigned )
   {
       if( IfNegative ) *(--p) = '-';
   }
   return p;
}

/***************************************************************
** Diagnostic routine that prints memory in table format.
*/
void DumpMemory( void *addr, cell_t cnt)
{
   cell_t ln, cn, nlines;
   unsigned char *ptr, *cptr, c;

   nlines = (cnt + 15) / 16;

   ptr = (unsigned char *) addr;

   EMIT_CR;

   for (ln=0; ln<nlines; ln++)
   {
       MSG( ConvertNumberToText( (cell_t) ptr, 16, FALSE, 8 ) );
       MSG(": ");
       cptr = ptr;
       for (cn=0; cn<16; cn++)
       {
           MSG( ConvertNumberToText( (cell_t) *cptr++, 16, FALSE, 2 ) );
           EMIT(' ');
       }
       EMIT(' ');
       for (cn=0; cn<16; cn++)
       {
           c = *ptr++;
           if ((c < ' ') || (c > '}')) c = '.';
           EMIT(c);
       }
       EMIT_CR;
   }
}


/* Print name, mask off any dictionary bits. */
void TypeName( const char *Name )
{
   const char *FirstChar;
   cell_t Len;

   FirstChar = Name+1;
   Len = *Name & 0x1F;

   ioType( FirstChar, Len );
}



#ifdef PF_UNIT_TEST
/* Unit test for string conversion routines. */
#define ASSERT_PAD_IS( index, value, msg ) \
   if( pad[index] != ((char)(value)) ) \
   { \
       ERR(( "ERROR text test failed: " msg "\n")); \
       numErrors += 1; \
   } \

cell_t pfUnitTestText( void )
{
   cell_t numErrors = 0;
   char pad[16];
   char fpad[8];

   /* test CStringToForth */
   pfSetMemory(pad,0xA5,sizeof(pad));
   CStringToForth( pad, "frog", 6 );
   ASSERT_PAD_IS( 0, 4, "CS len 6" );
   ASSERT_PAD_IS( 4, 'g', "CS end 6" );
   ASSERT_PAD_IS( 5, 0xA5, "CS past 6" );

   pfSetMemory(pad,0xA5,sizeof(pad));
   CStringToForth( pad, "frog", 5 );
   ASSERT_PAD_IS( 0, 4, "CS len 5" );
   ASSERT_PAD_IS( 4, 'g', "CS end 5" );
   ASSERT_PAD_IS( 5, 0xA5, "CS past 5" );

   pfSetMemory(pad,0xA5,sizeof(pad));
   CStringToForth( pad, "frog", 4 );
   ASSERT_PAD_IS( 0, 3, "CS len 4" );
   ASSERT_PAD_IS( 3, 'o', "CS end 4" );
   ASSERT_PAD_IS( 4, 0xA5, "CS past 4" );

   /* Make a Forth string for testing ForthStringToC. */
   CStringToForth( fpad, "frog", sizeof(fpad) );

   pfSetMemory(pad,0xA5,sizeof(pad));
   ForthStringToC( pad, fpad, 6 );
   ASSERT_PAD_IS( 0, 'f', "FS len 6" );
   ASSERT_PAD_IS( 3, 'g', "FS end 6" );
   ASSERT_PAD_IS( 4, 0, "FS nul 6" );
   ASSERT_PAD_IS( 5, 0xA5, "FS past 6" );

   pfSetMemory(pad,0xA5,sizeof(pad));
   ForthStringToC( pad, fpad, 5 );
   ASSERT_PAD_IS( 0, 'f', "FS len 5" );
   ASSERT_PAD_IS( 3, 'g', "FS end 5" );
   ASSERT_PAD_IS( 4, 0, "FS nul 5" );
   ASSERT_PAD_IS( 5, 0xA5, "FS past 5" );

   pfSetMemory(pad,0xA5,sizeof(pad));
   ForthStringToC( pad, fpad, 4 );
   ASSERT_PAD_IS( 0, 'f', "FS len 4" );
   ASSERT_PAD_IS( 2, 'o', "FS end 4" );
   ASSERT_PAD_IS( 3, 0, "FS nul 4" );
   ASSERT_PAD_IS( 4, 0xA5, "FS past 4" );

   return numErrors;
}
#endif