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%%	options

copyright owner	=	Dirk Krause
copyright year	=	2011-xxxx
license		=	bsd



%%	header

#include "dk3conf.h"
#include "dk3types.h"

#ifdef __cplusplus
extern "C" {
#endif

/**	Convert long number from net to host representation.
	@param	x	Number to convert.
	@return Conversion result.
*/
unsigned long
dk3enc_ntohl(unsigned long x);

/**	Convert long number from host to net representation.
	@param	x	Number to convert.
	@return Conversion result.
*/
unsigned long
dk3enc_htonl(unsigned long x);

/**	Convert short  number from net to host representation.
	@param	x	Number to convert.
	@return Conversion result.
*/
unsigned short
dk3enc_ntohs(unsigned short x);

/**	Convert short  number from host to net representation.
	@param	x	Number to convert.
	@return Conversion result.
*/
unsigned short
dk3enc_htons(unsigned short x);

/**	Convert 32-bit character to UTF-8.
	@param	c	32-bit character to convert.
	@param	u8p	Pointer to result buffer.
	@param	u8l	Size of result buffer, should be 8 at least.
	@return	Number of bytes used in result buffer.
*/
size_t
dk3enc_uc2utf8(dk3_c32_t c, unsigned char *u8p, size_t u8l);

/**	Convert UTF-8 encoded text to 32-bit character.
	@param	ucp	Pointer to variable for result.
	@param	u8p	Buffer containing UTF-8 encoded text.
	@param	u8l	Number of bytes in buffer.
	@param	u8u	Pointer to variable to receive number of bytes used.
	@return	1 on success, 0 on error.
*/
int
dk3enc_utf82uc(dk3_c32_t *ucp, unsigned char const *u8p,size_t u8l,size_t *u8u);

/**	Convert IP address from 8-bit text string to long number
	in host representation.
	@param	str	Text string containing the IP address.
	@param	ul	Pointer to result variable.
	@param	app	Application structure for diagnostics, may be NULL.
	@return	1 on success, 0 on error.
*/
int
dk3enc_c8_ipaddr_to_ul_app(char const *str, unsigned long *ul, dk3_app_t *app);

/**	Convert IP address from string to long number
	in host representation.
	@param	str	Text string containing the IP address.
	@param	ul	Pointer to result variable.
	@param	app	Application structure for diagnostics, may be NULL.
	@return	1 on success, 0 on error.
*/
int
dk3enc_ipaddr_to_ul_app(dkChar const *str, unsigned long *ul, dk3_app_t *app);

/**	Find size for result buffer needed to convert binary data to
	text using ASCII-85 encoding.
	@param	s	Size of binary data.
	@return	The required buffer length (includeing finalizing 0x00 byte).
*/
size_t
dk3enc_size_bin_to_a85(size_t s);

/**	Convert binary data to text using reverse ASCII-85 encoding.
	@param	dp	Destination buffer pointer.
	@param	ds	Size of \a dp.
	@param	sp	Binary (source) data.
	@param	ss	Number of bytes in \a sp.
	@param	app	Application structure, for diagnostics, may be NULL.
*/
int
dk3enc_bin_to_ra85_app(
  char *dp, size_t ds, char const *sp, size_t ss, dk3_app_t *app
);

/**	Find size for result buffer needed to convert ASCII-85 encoded
	data back to binary data.
	@param	s	Number of ASCII-85 text characters.
	@return	Length of resulting binary data.
*/
size_t
dk3enc_size_a85_to_bin(size_t s);

/**	Convert reverse ASCII-85 encoded data back to binary.
	@param	dp	Destination buffer pointer.
	@param	ds	Destination buffer size in bytes.
	@param	sp	Source buffer pointer.
	@param	ss	Source buffer length.
	@param	app	Application structure for diagnostics, may be NULL.
	@return	Number of binary bytes decoded.
*/
size_t
dk3enc_ra85_to_bin_app(
  char *dp, size_t ds, char const *sp, size_t ss, dk3_app_t *app
);

#if 0
/**	Convert reverse ASCII-85 encoded data back to binary.
	@param	dp	Destination buffer pointer.
	@param	ds	Destination buffer size in bytes.
	@param	sp	Source buffer pointer.
	@param	ss	Source buffer length.
	@return	Number of binary bytes decoded.
*/
size_t
dk3enc_ra85_to_bin(char *dp, size_t ds, char const *sp, size_t ss);
#endif

/**	Convert reverse ASCII-85 encoded data string back to binary.
	@param	dp	Destination buffer pointer.
	@param	ds	Destination buffer size in bytes.
	@param	sp	Source buffer pointer.
	@param	app	Application structure for diagnostics, may be NULL.
	@return	Number of binary bytes decoded.
*/
size_t
dk3enc_ra85string_to_bin_app(
  char *dp, size_t ds, char const *sp, dk3_app_t *app
);

/**	Apply ASCII-85 encoding to binary data.
	@param	dp	Destination buffer pointer.
	@param	ds	Destination buffer size.
	@param	sp	Source buffer pointer.
	@param	ss	Source buffer size.
	@param	app	Application structure for diagnostics, may be NULL.
*/
int
dk3enc_bin_to_a85_app(
  char *dp, size_t ds, char const *sp, size_t ss, dk3_app_t *app
);

/**	Decode ASCII-85 encoded data back to binary.
	@param	dp	Destination buffer pointer.
	@param	ds	Destination buffer size.
	@param	sp	Source buffer pointer.
	@param	ss	Source buffer size.
	@param	app	Application structure for diagnostics, may be NULL.
*/
size_t
dk3enc_a85_to_bin_app(
  char *dp, size_t ds, char const *sp, size_t ss, dk3_app_t *app
);

/**	Decode ASCII-85 encoded data string back to binary.
	@param	dp	Destination buffer pointer.
	@param	ds	Destination buffer size.
	@param	sp	Source buffer pointer.
	@param	app	Application structure for diagnostics, may be NULL.
*/
size_t
dk3enc_a85string_to_bin_app(char *dp, size_t ds, char const *sp, dk3_app_t *app);

/**	Calculate size for binary to hexadecimal conversion.
	@param	s	Size of binary data.
	@return	Size of hexadecimal encoding.
*/
size_t
dk3enc_size_bin_to_hex(size_t s);

/**	Calculate size for hexadecimal to binary conversion.
	@param	s	Size of hexadecimal data.
	@return	Size of binary data.
*/
size_t
dk3enc_size_hex_to_bin(size_t s);

/**	Apply hexadecimal encoding to binary data.
	@param	dp	Destination buffer pointer.
	@param	ds	Destination buffer size.
	@param	sp	Source buffer pointer.
	@param	ss	Source buffer size.
	@param	app	Application structure for diagnostics, may be NULL.
*/
int
dk3enc_bin_to_hex_app(
  char *dp, size_t ds, char const *sp, size_t ss, dk3_app_t *app
);

/**	Convert hexadecimal encoded data back to binary.
	@param	dp	Destination buffer pointer.
	@param	ds	Destination buffer size.
	@param	sp	Source buffer pointer.
	@param	ss	Source buffer size.
	@param	app	Application structure for diagnostics, may be NULL.
*/
size_t
dk3enc_hex_to_bin_app(
  char *dp, size_t ds, char const *sp, size_t ss, dk3_app_t *app
);

/**	Convert hexadecimal encoded data string back to binary.
	@param	dp	Destination buffer pointer.
	@param	ds	Destination buffer size.
	@param	sp	Source buffer pointer.
	@param	app	Application structure for diagnostics, may be NULL.
*/
size_t
dk3enc_hexstring_to_bin_app(
  char *dp, size_t ds, char const *sp, dk3_app_t *app
);

/**	Calculate size for hex decoding to binary.
	@param	s	String containing hexadecimal data.
	@return	Size of binary data.
*/
size_t
dk3enc_size_hexstring_to_bin(char const *s);

/**	Find size for conversion from ASCII-85 encoded data to binary.
 * 	@param	s	ASCII-85 encoded string.
 * 	@return	Size of binary data.
 */
size_t
dk3enc_size_a85string_to_bin(char const *s);

/**	Convert 32-bit character to UTF-16.
	If the value is 0xFFFF and below, the 16 bits are used ``as is''.
	For values \a c > 0xFFFF we have to build a surrogate pair.
	We substract 0x00010000, the result is a new character with
	20 significant bits. These 20 bits are splitted into two blocks of
	10 bits each. The high surrogate is built using the prefix
	bits 110110 and the higher 10-bits block. The low surrogate is built
	using the prefix bits 110111 and the lower 10-bits block.
	Order of surrogates in a surrogate pair is flexible, this function
	writes the high surrogate first.
	@param	c	The 32-bit character.
	@param	u16p	Buffer to receive UTF-16 encoded result.
	@param	u16l	Length of \a u16l in elements.
	@return	The number of dk3_c16_t characters produced.
*/
size_t
dk3enc_uc2utf16(dk3_c32_t c, dk3_c16_t *u16p, size_t u16l);

/**	Convert UTF-16 encoded characters to 32-bit character
	@param	ucp	Pointer to result variable.
	@param	u16p	Buffer containing UTF-16 encoded text.
	@param	u16l	Number of elements available in \a u16p.
	@param	u16u	Pointer to variable to receive number of dk3_c16_t used.
	@return	1 on success, 0 on error.
*/
int
dk3enc_utf162uc(dk3_c32_t *ucp, dk3_c16_t const *u16p, size_t u16l, size_t *u16u);

/**	Get data encoding type for name.
	@param	n	Data encoding name.
	@param	app	Application structure for diagnostics, may be NULL.
	@return	Integer representation of data encoding on success, -1 on error.
*/
int
dk3enc_get_type_app(dkChar const *n, dk3_app_t *app);

/**	Get name for data encoding type.
	@param	t	Numeric type.
	@return	Name for type on success, NULL on error.
*/
dkChar const *
dk3enc_get_data_encoding_name(int t);

/**	Get numeric value for text encoding.
	@param	en	Encoding name.
	@param	app	Application structure, may be NULL.
	@return	Numeric representation of text encoding on success,
	-1 on error.
*/
int
dk3enc_get_text_encoding_app(dkChar const *en, dk3_app_t *app);

/**	Get the used encoding.
	@param	app	Application structure, may be NULL.
	@return	The encoding used for characters in memory.
*/
int
dk3enc_get_encoding(dk3_app_t *app);

#ifdef __cplusplus
}
#endif



%%	module

#include "dk3all.h"


$(trace-include)



/**	Binary to text encoding names.
	Order here must match order of DK3_DATA_ENCODING_xxx in dk3const.h.
*/
static dkChar const * const dk3enc_data_encoding_names[] = {
/*  0 */ dkT("HEX"),
/*  1 */ dkT("ASCII-85"),
/*  2 */ dkT("R-ASCII-85"),
/*  3 */ dkT("H"),
/*  4 */ dkT("A"),
/*  5 */ dkT("R"),
/*  6 */ dkT("A85"),
/*  7 */ dkT("RA85"),
NULL
};



/**	Encoding names for file contents encodings.
*/
static dkChar const * const dk3enc_text_encoding_names[] = {
/*  0 */ dkT("PLAIN"),
/*  1 */ dkT("UTF-8"),
/*  2 */ dkT("UTF-16"),
/*  3 */ dkT("UTF-16.MSB"),
/*  4 */ dkT("UTF-16.LSB"),
/*  5 */ dkT("UC32"),
/*  6 */ dkT("UC32.MSB"),
/*  7 */ dkT("UC32.LSB"),
/*  8 */ dkT("ASCII"),
/*  9 */ dkT("ISO-LATIN-1"),
/* 10 */ dkT("UTF8"),
/* 11 */ dkT("UTF16"),
/* 12 */ dkT("UTF-16-LE"),
/* 13 */ dkT("UTF-16LE"),
/* 14 */ dkT("UTF16LE"),
/* 15 */ dkT("UTF-16-LSB"),
/* 16 */ dkT("UTF-16LSB"),
/* 17 */ dkT("UTF16LSB"),
/* 18 */ dkT("UTF-16-BE"),
/* 19 */ dkT("UTF-16BE"),
/* 20 */ dkT("UTF16BE"),
/* 21 */ dkT("UTF-16-MSB"),
/* 22 */ dkT("UTF-16MSB"),
/* 23 */ dkT("UTF16MSB"),
/* 24 */ dkT("C32"),
/* 25 */ dkT("C32-LE"),
/* 26 */ dkT("C32LE"),
/* 27 */ dkT("C32-LSB"),
/* 28 */ dkT("C32LSB"),
/* 29 */ dkT("C32-BE"),
/* 30 */ dkT("C32BE"),
/* 31 */ dkT("C32-MSB"),
/* 32 */ dkT("C32MSB"),
NULL
};



/**	Encoding names for UTF-8 encoding.
*/
static char const * const	dk3enc_utf8_names[] = {
$!string-table
utf-8
utf8
$!end
};


/**	Digits used to show hexadecimal characters.
*/
static char const dk3enc_hex_digits[] = {
'0', '1', '2', '3', '4', '5', '6', '7', '8', '9', 'A', 'B', 'C', 'D', 'E', 'F', '\0'
};


/**	Bit mask to obtain last byte of a double word.
*/
static unsigned long const dk3enc_last_byte = 0x000000FFUL;



/**	Factors for ASCII85 and reverse ASCII85 encoding.
*/
static unsigned long const dk3enc_f2[] = {
  1UL,
  85UL,
  (85UL * 85UL),
  (85UL * 85UL * 85UL),
  (85UL * 85UL * 85UL * 85UL)
};



/**	Swap byte order for unsigned long.
	@param	ul	Original value.
	@return	Value in swapped byte order.
*/
static
unsigned long
dk3enc_swap_ul(unsigned long ul)
{
  unsigned long back = 0UL;
  back =  ((ul >> 24) & 0x000000FFUL);
  back |= ((ul >>  8) & 0x0000FF00UL);
  back |= ((ul <<  8) & 0x00FF0000UL);
  back |= ((ul << 24) & 0xFF000000UL);
  return back;
}



/**	Swap byte order for unsigned short.
	@param	us	Original value.
	@return	Value in swapped byte order.
*/
static
unsigned short
dk3enc_swap_us(unsigned short us)
{
  unsigned short back = 0U;
  back =  ((us >> 8) & 0x00FFU);
  back |= ((us << 8) & 0xFF00U);
  return back;
}


unsigned long
dk3enc_ntohl(unsigned long x)
{
  unsigned long back;
#if DK3_WORDS_BIGENDIAN
  back = x;
#else
  back = dk3enc_swap_ul(x);
#endif
  return back;
}


unsigned long
dk3enc_htonl(unsigned long x)
{
  unsigned long back;
#if DK3_WORDS_BIGENDIAN
  back = x;
#else
  back = dk3enc_swap_ul(x);
#endif
  return back;
}



unsigned short
dk3enc_ntohs(unsigned short x)
{
  unsigned short back;
#if DK3_WORDS_BIGENDIAN
  back = x;
#else
  back = dk3enc_swap_us(x);
#endif
  return back;
}



unsigned short
dk3enc_htons(unsigned short x)
{
  unsigned short back;
#if DK3_WORDS_BIGENDIAN
  back = x;
#else
  back = dk3enc_swap_us(x);
#endif
  return back;
}



/**	Convert 32-bit character to UTF-8 following RFC2279.
	@param	c	32-bit character to convert.
	@param	u8p	Destination buffer.
	@param	u8l	Length of @a u8p (number of bytes).
	@return	Number of bytes written to @a u8p.
*/
static
size_t
dk3enc_uc2utf8_rfc2279(dk3_c32_t c, unsigned char *u8p, size_t u8l)
{
  size_t back = 0;
  dk3_c32_t x = 0UL;	/* Variable for temporary results. */
  $? "+ dk3enc_uc2utf8_rfc2279 0x%lx=%lu %lu", (unsigned long)c, (unsigned long)c, (unsigned long)u8l
  if(u8p) {
  if(u8l > 0) {
    if(c > (dk3_c32_t)0x7FUL) {
      if(c > (dk3_c32_t)0x000007FFUL) {
	if(c > (dk3_c32_t)0x0000FFFFUL) {
	  if(c > (dk3_c32_t)0x001FFFFFUL) {
	    if(c > (dk3_c32_t)0x03FFFFFFUL) {
	      if(c < (dk3_c32_t)0x80000000UL) {		/* 6 Byte */
		if(u8l >= 6) {
		  back = 6;
		  x = c >> 30;
		  x &= 0x00000001UL;
		  x |= 0x000000FCUL;
		  u8p[0] = (unsigned char)x;
		  x = c >> 24; x &= 0x0000003FUL; x |= 0x00000080UL;
		  u8p[1] = (unsigned char)x;
		  x = c >> 18; x &= 0x0000003FUL; x |= 0x00000080UL;
		  u8p[2] = (unsigned char)x;
		  x = c >> 12; x &= 0x0000003FUL; x |= 0x00000080UL;
		  u8p[3] = (unsigned char)x;
		  x = c >>  6; x &= 0x0000003FUL; x |= 0x00000080UL;
		  u8p[4] = (unsigned char)x;
		  x = c & 0x0000003FUL; x |= 0x00000080UL;
		  u8p[5] = (unsigned char)x;
		}
	      }
	    } else {				/* 5 Byte */
	      if(u8l >= 5) {
		back = 5;
		x = c >> 24;
		x &= 0x00000003UL;
		x |= 0x000000F8UL;
		u8p[0] = (unsigned char)x;
		x = c >> 18; x &= 0x0000003FUL; x |= 0x00000080UL;
		u8p[1] = (unsigned char)x;
		x = c >> 12; x &= 0x0000003FUL; x |= 0x00000080UL;
		u8p[2] = (unsigned char)x;
		x = c >>  6; x &= 0x0000003FUL; x |= 0x00000080UL;
		u8p[3] = (unsigned char)x;
		x = c & 0x0000003FUL; x |= 0x00000080UL;
		u8p[4] = (unsigned char)x;
	      }
	    }
	  } else {				/* 4 Byte */
	    if(u8l >= 4) {
	      back = 4;
	      x = c >> 18;
	      x &= 0x00000007UL;
	      x |= 0x000000F0UL;
	      u8p[0] = (unsigned char)x;
	      x = c >> 12;
	      x &= 0x0000003FUL;
	      x |= 0x00000080UL;
	      u8p[1] = (unsigned char)x;
	      x = c >>  6;
	      x &= 0x0000003FUL;
	      x |= 0x00000080UL;
	      u8p[2] = (unsigned char)x;
	      x = c & 0x0000003FUL;
	      x |= 0x00000080UL;
	      u8p[3] = (unsigned char)x;
	    }
	  }
	} else {				/* 3 Byte */
	  if(u8l >= 3) {
	    back = 3;
	    x = c >> 12;
	    x &= 0x0000000FUL;
	    x |= 0x000000E0UL;
	    u8p[0] = (unsigned char)x;
	    x = c >>  6;
	    x &= 0x0000003FUL;
	    x |= 0x00000080UL;
	    u8p[1] = (unsigned char)x;
	    x = c & 0x0000003FUL;
	    x |= 0x00000080UL;
	    u8p[2] = (unsigned char)x;
	  }
	}
      } else {					/* 2 Byte */
	if(u8l >= 2) {
	  back = 2;
	  x = c >> 6;
	  x &= 0x0000001FUL;
	  x |= 0x000000C0UL;
	  u8p[0] = (unsigned char)x;
	  x = c & 0x0000003FUL;
	  x |= 0x00000080UL;
	  u8p[1] = (unsigned char)x;
	}
      }
    } else {					/* 1 Byte */
      if(u8l >= 1) {
	back = 1;
	u8p[0] = (unsigned char)(c & 0x0000007FUL);
      }
    }
  }
  } $? "- dk3enc_uc2utf8_rfc2279 %lu", (unsigned long)back
  return back;
}



/**	Get one 32-bit character from UTF-8 encoded string or buffer.
	@param	ucp	Pointer to destination variable.
	@param	u8p	Buffer containing UTF-8 encoded data.
	@param	u8l	Length of @a u8p (number of bytes).
	@param	u8u	Pointer to variable for used bytes from @a u8p.
	@return	1 on success, 0 on error.
*/
static
int
dk3enc_utf82uc_rfc2279(
  dk3_c32_t *ucp, unsigned char const *u8p,size_t u8l,size_t *u8u
)
{
  int		back = 0;
  unsigned char	u1 = 0x00;		/* Character to process. */
  dk3_c32_t	res = 0UL;		/* Result. */
  dk3_c32_t	x1 = 0UL;		/* Result component from 1st byte. */
  dk3_c32_t	x2 = 0UL;		/* Result component from 2nd byte. */
  dk3_c32_t	x3 = 0UL;		/* Result component from 3rd byte. */
  dk3_c32_t	x4 = 0UL;		/* Result component from 4th byte. */
  dk3_c32_t	x5 = 0UL;		/* Result component from 5th byte. */
  dk3_c32_t	x6 = 0UL;		/* Result component from 6th byte. */
  size_t	needed_length = 0;	/* Number of btes needed. */
  $? "+ dk3enc_utf82uc"
  needed_length = 0;
  if(ucp) {
  if(u8p) {
  if(u8l) {
  if(u8u) {
  if((u8l) > 0) {
    u1 = *u8p; needed_length = 1;
    if(u1 > 0x7F) {					/* > 1 Byte */
      if((u1 & 0xE0) == 0xC0) {				/* 2 Byte */
	needed_length = 2;
	if(u8l >= needed_length) {
	if((u8p[1] & 0xC0) == 0x80) {
	  x1 = u1;
	  x1 = x1 << 6;
	  x1 = x1 & 0x000007C0UL;
	  x2 = u8p[1];
	  x2 = x2 & 0x0000003FUL;
	  res = (x1 | x2); back = 1;
	}
	}
      } else {
	if((u1 & 0xF0) == 0xE0) {			/* 3 Byte */
	  needed_length = 3;
	  if(u8l >= needed_length) {
	    if((u8p[1] & 0xC0) == 0x80) {
	    if((u8p[2] & 0xC0) == 0x80) {
	      x1 = u1;
	      x1 = x1 << 12;
	      x1 = x1 & 0x0000F000UL;
	      x2 = u8p[1];
	      x2 = x2 << 6;
	      x2 = x2 & 0x00000FC0UL;
	      x3 = u8p[2];
	      x3 = x3 & 0x0000003FUL;
	      res = (x1 | x2 | x3); back = 1;
	    }
	    }
	  }
	} else {
	  if((u1 & 0xF8) == 0xF0) {			/* 4 Byte */
	    needed_length = 4;
	    if(u8l >= needed_length) {
	      if((u8p[1] & 0xC0) == 0x80) {
	      if((u8p[2] & 0xC0) == 0x80) {
	      if((u8p[3] & 0xC0) == 0x80) {
		x1 = u1;
		x2 = u8p[1];
		x3 = u8p[2];
		x4 = u8p[3];
		x1 = x1 << 18;
		x1 = x1 & 0x001C0000UL;
		x2 = x2 << 12;
		x2 = x2 & 0x0003F000UL;
		x3 = x3 << 6;
		x3 = x3 & 0x00000FC0UL;
		x4 = x4 & 0x0000003FUL;
		res = (x1 | x2 | x3 | x4); back = 1;
	      }
	      }
	      }
	    }
	  } else {
	    if((u1 & 0xFC) == 0xF8) {			/* 5 Byte */
	      needed_length = 5;
	      if(u8l >= needed_length) {
		if((u8p[1] & 0xC0) == 0x80) {
		if((u8p[2] & 0xC0) == 0x80) {
		if((u8p[3] & 0xC0) == 0x80) {
		if((u8p[4] & 0xC0) == 0x80) {
		  x1 = u1;
		  x2 = u8p[1];
		  x3 = u8p[2];
		  x4 = u8p[3];
		  x5 = u8p[4];
		  x1 = x1 << 24;
		  x1 = x1 & 0x03000000UL;
		  x2 = x2 << 18;
		  x2 = x2 & 0x00FC0000UL;
		  x3 = x3 << 12;
		  x3 = x3 & 0x0003F000UL;
		  x4 = x4 <<  6;
		  x4 = x4 & 0x00000FC0UL;
		  x5 = x5 & 0x0000003FUL;
		  res = (x1 | x2 | x3 | x4 | x5); back = 1;
		}
		}
		}
		}
	      }
	    } else {
	      if((u1 & 0xFE) == 0xFC) {			/* 6 Byte */
		needed_length = 6;
		if(u8l >= needed_length) {
		  if((u8p[1] & 0xC0) == 0x80) {
		  if((u8p[2] & 0xC0) == 0x80) {
		  if((u8p[3] & 0xC0) == 0x80) {
		  if((u8p[4] & 0xC0) == 0x80) {
		  if((u8p[5] & 0xC0) == 0x80) {
		    x1 = 0x40000000UL;
		    x2 = u8p[1]; x3 = u8p[2]; x4 = u8p[3];
		    x5 = u8p[4]; x6 = u8p[5];
		    x2 = x2 << 24;
		    x3 = x3 << 18;
		    x4 = x4 << 12;
		    x5 = x5 <<  6;
		    x2 = x2 & 0x3F000000UL;
		    x3 = x3 & 0x00FC0000UL;
		    x4 = x4 & 0x0003F000UL;
		    x5 = x5 & 0x00000FC0UL;
		    x6 = x6 & 0x0000003FUL;
		    res = (x1 | x2 | x3 | x4 | x5 | x6);
		    back = 1;
		  }
		  }
		  }
		  }
		  }
		}
	      }
	    }
	  }
	}
      }
    } else {						/* 1 Byte */
      res = u1;
      back = 1;
    }
  }
  }
  }
  }
  }
  if(back) {
    *u8u = needed_length;
    *ucp = res;
  } $? "- dk3enc_utf82uc %d", back
  return back;
}



#if DK3_HAVE_RFC_2279

/*
	RFC 2279 allowed UTF-8 encoding for 32-bit characters in the
	range 0 ... 0x7FFFFFFF.
*/

size_t
dk3enc_uc2utf8(dk3_c32_t c, unsigned char *u8p, size_t u8l)
{
  size_t back;
  $? "+ dk3enc_uc2utf8 (RFC 2279) 0x%lx=%lu", c, c
  back = dk3enc_uc2utf8_rfc2279(c, u8p, u8l);
  $? "- dk3enc_uc2utf8 (RFC 2279) %u", (unsigned)back
  return back;
}

int
dk3enc_utf82uc(dk3_c32_t *ucp, unsigned char const *u8p,size_t u8l,size_t *u8u)
{
  int back;
  back = dk3enc_utf82uc_rfc2279(ucp, u8p, u8l, u8u);
  return back;
}


#else

/*
	RFC 3629 replaces (obsoletes) RFC 2279.
	32-bit characters are now allowed in the range
	0 ... 0x0010FFFF only.
*/

size_t
dk3enc_uc2utf8(dk3_c32_t c, unsigned char *u8p, size_t u8l)
{
  size_t	back = 0;
  $? "+ dk3enc_uc2utf8 (RFC 3629) %lu=0x%lx",(unsigned long)c,(unsigned long)c
  if(c <= (dk3_c32_t)0x0010FFFFUL) {
    back = dk3enc_uc2utf8_rfc2279(c, u8p, u8l);
  } $? "- dk3enc_uc2utf8 (RFC 3629) %u", (unsigned)back
  return back;
}

int
dk3enc_utf82uc(dk3_c32_t *ucp, unsigned char const *u8p,size_t u8l,size_t *u8u)
{
  int		back	= 0;
  back = dk3enc_utf82uc_rfc2279(ucp, u8p, u8l, u8u);
  if(back) {
    if((*ucp) > (dk3_c32_t)0x0010FFFFUL) {
      back = 0;
    }
  }
  return back;
}

#endif



size_t
dk3enc_uc2utf16(dk3_c32_t c, dk3_c16_t *u16p, size_t u16l)
{
  size_t	back = 0;
  dk3_c32_t	ul = 0UL;	/* Low surrogate. */
  dk3_c32_t	um = 0UL;	/* Hight surrogate. */
  if((u16p) && (u16l)) {
    if(c >= (dk3_c32_t)0x00010000UL) {
      if(c <= (dk3_c32_t)0x0010FFFFUL) {
        if(u16l >= 2) {
	  ul = c - 0x00010000UL;
	  um = ((ul >> 10) & 0x000003FFUL);
	  um |= 0x0000D800UL;
	  u16p[0] = (dk3_c16_t)um;
	  um = (ul & 0x000003FFUL);
	  um |= 0x0000DC00UL;
	  u16p[1] = (dk3_c16_t)um;
	  back = 2;
	}
      }
    } else {
#if VERSION_BEFORE_20141125
      if((c & 0x0000DC00UL) != 0x0000DC00UL) {
        if((c & 0x0000DC00UL) != 0x0000D800UL) {
	  *u16p = (dk3_c16_t)c; back = 1;
	}
      }
#else
      if ((0x0000D800UL > c) || (0x0000DFFF < c)) {
        *u16p = (dk3_c16_t)c; back = 1;
      }
#endif
    }
  }
  return back;
}



int
dk3enc_utf162uc(dk3_c32_t *ucp, dk3_c16_t const *u16p, size_t u16l, size_t *u16u)
{
  int back = 0;
  dk3_c32_t		result = 0UL;	/* Result 32-bit character. */
  dk3_c32_t		ul1 = 0UL;	/* First UC16 used. */
  dk3_c32_t		ul2 = 0UL;	/* Second UC16 used (if any). */

  if((ucp) && (u16p) && (u16l) && (u16u)) {
    *u16u = 0;
    ul1 = (((dk3_c32_t)(u16p[0])) & 0x0000FFFFUL);
    ul2 = 0UL;
    if(u16l > 1) {
      ul2 = (((dk3_c32_t)(u16p[1])) & 0x0000FFFFUL);
    }
    if((ul1 & 0x0000DC00UL) == 0x0000DC00UL) {
      if(u16l > 1) {
        if((ul2 & 0x0000DC00UL) == 0x0000D800UL) {
	  ul2 = ((ul2 << 10) & 0x000FFC00UL);
	  ul1 = (ul1 & 0x000003FFUL);
	  result = ul1 | ul2;
	  result = result + 0x00010000UL;
	  *ucp = result; *u16u = 2; back = 1;
	}
      }
    } else {
      if((ul1 & 0x0000DC00UL) == 0x0000D800UL) {
        if(u16l > 1) {
	  if((ul2 & 0x0000DC00UL) == 0x0000DC00UL) {
	    ul1 = ((ul1 << 10) & 0x000FFC00UL);
	    ul2 = (ul2 & 0x000003FFUL);
	    result = ul1 | ul2;
	    result = result + 0x00010000UL;
	    *ucp = result; *u16u = 2; back = 1;
	  }
	}
      } else {
        ul1 &= 0x0000FFFFUL;
	*ucp = ul1; *u16u = 1; back = 1;
      }
    }
  }
  return back;
}



/**	Check whether a character is a digit.
	@param	c	Character to check.
	@return	1 on success, 0 on error.
*/
static int
dk3enc_c8_is_digit(char c)
{
  int back = 0;
  switch(c) {
    case '0': case '1': case '2': case '3': case '4':
    case '5': case '6': case '7': case '8': case '9':
    {
      back = 1;
    }
    break;
  }
  return back;
}



/**	Convert digit to corresponding unsigned long.
	@param	c	Digit.
	@return	Unsigned long for the digit.
*/
static
unsigned long
dk3enc_c8_to_ul(char c)
{
  unsigned long back = 0UL;
  if(c == '1') back = 1UL;
  if(c == '2') back = 2UL;
  if(c == '3') back = 3UL;
  if(c == '4') back = 4UL;
  if(c == '5') back = 5UL;
  if(c == '6') back = 6UL;
  if(c == '7') back = 7UL;
  if(c == '8') back = 8UL;
  if(c == '9') back = 9UL;
  return back;
}



int
dk3enc_ipaddr_to_ul_app(dkChar const *str, unsigned long *ul, dk3_app_t *app)
{
  char		bu[512];
  int		back = 0;
  $? "+ dk3enc_ipaddr_to_ul_app \"%!ds\"", TR_STR(str)
  if((str) && (ul)) {
    if(dk3str_string_to_c8_simple_app(bu, sizeof(bu), str, app)) { $? ". bu=\"%!8s\"", bu
      back = dk3enc_c8_ipaddr_to_ul_app(bu, ul, app);
    } else {
      /* ERROR: Conversion failed! */
    }
  } $? "- dk3enc_ipaddr_to_ul_app %d %lx", back, ((ul) ? (*ul) : 0UL)
  return back;
}



int
dk3enc_c8_ipaddr_to_ul_app(char const *str, unsigned long *ul, dk3_app_t *app)
{
  int		back = 0;
  int		state = 0;	/* Current state. */
  char const	*ptr = NULL;	/* Used to traverse string. */
  unsigned long	ul1 = 0UL;	/* First part of IP address. */
  unsigned long	ul2 = 0UL;	/* Second part of IP address. */
  unsigned long	ul3 = 0UL;	/* Third part of IP address. */
  unsigned long	ulval = 0UL;	/* Resulting IP address. */
  $? "+ dk3enc_c8_ipaddr_to_ul %!8s", TR_8STR(str)
  if(str && ul) {
    state = 0; ptr = str; back = 1;
    ul1 = ul2 = ul3 = ulval = 0UL;
    while(back && (*ptr)) {
      if(dk3enc_c8_is_digit(*ptr)) {
	switch(state) {
	  case 0:
	  case 1:
	  case 2:
	  case 4:
	  case 5:
	  case 6:
	  case 8:
	  case 9:
	  case 10:
	  case 12:
	  case 13:
	  case 14: {
	    ulval = 10UL * ulval + dk3enc_c8_to_ul(*ptr); state++;
	  } break;
	  default: {
	    back = 0;
	  } break;
	}
      } else {
        if(*ptr == '.') {
	  switch(state) {
	    case 0:
	    case 1:
	    case 2:
	    case 3: {
	      ul1 = ulval; ulval = 0UL; state = 4;
	    } break;
	    case 4:
	    case 5:
	    case 6:
	    case 7: {
	      ul2 = ulval; ulval = 0UL; state = 8;
	    } break;
	    case 8:
	    case 9:
	    case 10:
	    case 11: {
	      ul3 = ulval; ulval = 0UL; state = 12;
	    } break;
	  }
	} else {
	  back = 0;
	}
      }
      ptr++;
    }
    if((state < 12) || (state > 15)) {
      back = 0;
    }
    if(back) {
      if(ul1 > 255UL) back = 1;
      if(ul2 > 255UL) back = 1;
      if(ul3 > 255UL) back = 1;
      if(ulval > 255UL) back = 1;
    }
    if(back) {
      ul1 = ul1 << 24;
      ul1 &= 0xFF000000UL;
      ul2 = ul2 << 16;
      ul2 &= 0x00FF0000UL;
      ul3 = ul3 <<  8;
      ul3 &= 0x0000FF00UL;
      ulval &= 0x000000FFUL;
      ulval = ulval | ul1 | ul2 | ul3;
      *ul = ulval;
    } else {
      if(app) {
        /* Not an IP address! */
      }
    }
  }
  $? "- dk3enc_c8_ipaddr_to_ul %d %lx", back , ((ul) ? (*ul) : 0UL)
  return back;
}



size_t
dk3enc_size_bin_to_a85(size_t s)
{
#if VERSION_BEFORE_20140809
  size_t	back = 0;
  int		ec = 0;		/* Error code. */
  unsigned long ul1 = 0UL;	/* Original size converted to unsigned long. */
  unsigned long	ul2 = 0UL;	/* Remainder of division by 4. */
  unsigned long	ul3 = 0UL;	/* Result division by 4. */
  $? "+ dk3enc_size_bin_to_a85 %lu", (unsigned long)s
  ul1 = (unsigned long)s;
  ul2 = ul1 % 4UL;
  ul3 = ul1 / 4UL;
  if(ul2) ul2++;			/* for last incomplete block */
  ul1 = dk3ma_ul_add_ok(
    dk3ma_ul_mul_ok(ul3, 5UL, &ec),
    ul2,
    &ec
  );					/* add 25 percent */
  ul1++;				/* final 0x00 byte for string */
  back = (size_t)ul1;
  if(ec) back = 0;			/* error checking */
  if((unsigned long)back != ul1) back = 0;
  $? "- dk3enc_size_bin_to_a85 %lu", (unsigned long)back
  return back;
#else
  size_t	back	= 0;
  size_t	rem	= 0;	/* Division remainder */
  size_t	res	= 0;	/* Division result */
  int		ec	= 0;	/* Error code */
  $? "+ dk3enc_size_bin_to_a85 %lu", (unsigned long)s
  rem = s % 4;
  res = s / 4;
  if (rem) { rem++; }
  /* back = 5 * res + rem + 1 */
  rem++;
  back = dk3mem_add_size_t(rem,   dk3mem_mul_size_t(5, res, &ec),   &ec);
  if (ec) { back = 0; }
  $? "- dk3enc_size_bin_to_a85 %lu", (unsigned long)back
  return back;
#endif
}



/**	Convert binary data to ASCII-85 encoded string.
	@param	dp	Destination pointer.
	@param	ds	Destination size.
	@param	sp	Source pointer.
	@param	ss	Source size.
*/
static
void
dk3enc_do_bin_to_ra85(char *dp, size_t ds, char const *sp, size_t ss)
{
  register char const		*mysp = NULL;	/* Source pointer. */
  register unsigned char	*mydp = NULL;	/* Destination pointer. */
  register unsigned long	v = 0UL;	/* Output value. */
  register size_t		i = 0;		/* Current byte index. */
  register short		vused = 0;	/* Flag: v is used. */
  $? "+ dk3enc_do_bin_to_ra85"
  mydp = (unsigned char *)dp; mysp = sp; v = 0UL; vused = 0;
  for(i = 0; i < ss; i++) {	
    switch(vused++) {
      case 3: {
        v |=
	((((unsigned long)((unsigned char)(*(mysp++)))) << 24) & 0xFF000000UL);
      } break;
      case 2: {
        v |=
	((((unsigned long)((unsigned char)(*(mysp++)))) << 16) & 0x00FF0000UL);
      } break;
      case 1: {
        v |=
	((((unsigned long)((unsigned char)(*(mysp++)))) <<  8) & 0x0000FF00UL);
      } break;
      default: {
        v |=
	((((unsigned long)((unsigned char)(*(mysp++))))      ) & dk3enc_last_byte);
      } break;
    }
    if(vused >= 4) {
      *(mydp++) = (unsigned char)((v % 85UL) + 33UL);
      v = v / 85UL;
      *(mydp++) = (unsigned char)((v % 85UL) + 33UL);
      v = v / 85UL;
      *(mydp++) = (unsigned char)((v % 85UL) + 33UL);
      v = v / 85UL;
      *(mydp++) = (unsigned char)((v % 85UL) + 33UL);
      v = v / 85UL;
      *(mydp++) = (unsigned char)((v % 85UL) + 33UL);
      vused = 0; v = 0UL;
    }
  }
  if(vused) {
    vused++;
    while(vused--) {
      *(mydp++) = (unsigned char)((v % 85UL) + 33UL);
      v = v / 85UL;
    }
  }
  *mydp = '\0';	$? "- dk3enc_do_bin_to_ra85"
}



int
dk3enc_bin_to_ra85_app(
  char *dp, size_t ds, char const *sp, size_t ss, dk3_app_t *app
)
{
  int		back = 0;
  size_t	needed_size = 0;	/* Destination buffer minimum size. */
  $? "+ dk3enc_bin_to_ra85 %lu %lu", (unsigned long)ds, (unsigned long)ss
  if((dp) && (sp) && (ds) && (ss)) {
    needed_size = dk3enc_size_bin_to_a85(ss);
    if(needed_size) {
      if(ds >= needed_size) {
        dk3enc_do_bin_to_ra85(dp, ds, sp, ss);
	back = 1;
      } else {
        if(app) {
	  /* Destination buffer too small! */
	  dk3app_log_i1(app, DK3_LL_ERROR, 38);
	}
      }
    }
  } $? "- dk3enc_bin_to_ra85 %d", back
  return back;
}



size_t
dk3enc_size_a85_to_bin(size_t s)
{
  size_t	back = 0;
  unsigned long	ul1 = 0UL;	/* Original size converted to unsigned long. */
  unsigned long	ul2 = 0UL;	/* Remainder of division by 5. */
  unsigned long	ul3 = 0UL;	/* Result of division by 5. */
  $? "+ dk3enc_size_a85_to_bin %lu", (unsigned long)s
  ul1 = (unsigned long)s;
  ul2 = ul1 % 5UL;
  ul3 = ul1 / 5UL;
  ul1 = 4UL * ul3 + ul2;
  back = (size_t)ul1;
  $? "- dk3enc_size_a85_to_bin %lu", (unsigned long)back
  return back;
}



/**	Check whether a character is from the ASCII-85 charset.
	@param	c	Character to check.
	@return	1 on success, 0 on error.
*/
static
int
dk3enc_c8_is_a85(char c)
{
  int back = 1;
  if((int)c < 33) {
    back = 0;
  } else {
    if((int)c > 117) {
      back = 0;
    }
  }
  return back;
}



/**	Convert reverse ASCII-85 encoded data to binary data.
	@param	dp	Destination pointer.
	@param	ds	Destination size.
	@param	sp	Source pointer.
	@param	ss	Source size.
	@param	app	Application structure for diagnostics, may be NULL.
	@return	Number of binary bytes produced.
*/
static
size_t
dk3enc_do_ra85_to_bin(char *dp, size_t ds, char const *sp, size_t ss, dk3_app_t *app)
{
  size_t	back = 0;
  unsigned char	*mydp = NULL;	/* Destination pointer. */
  char const	*mysp = NULL;	/* Source pointer. */
  unsigned long	v = 0UL;	/* Double-word. */
  short		vused = 0;	/* Flag: v is used. */
  size_t	i = 0;		/* Index of current source byte. */
  int reported_illegal_char = 0;	/* Flag: Error already reported. */
  $? "+ dk3enc_do_ra85_to_bin %lu %lu", (unsigned long)ds, (unsigned long)ss
  mydp = (unsigned char *)dp; mysp = sp; v = 0UL; vused = 0;
  for(i = 0; i < ss; i++) {
    if(dk3enc_c8_is_a85(*mysp)) {
      v += dk3enc_f2[vused++] * ((((unsigned long)((unsigned char)(*mysp))) & dk3enc_last_byte) - 33UL);
      if(vused >= 5) {
        *(mydp++) = (unsigned char)(v         & dk3enc_last_byte);
	*(mydp++) = (unsigned char)((v >>  8) & dk3enc_last_byte);
	*(mydp++) = (unsigned char)((v >> 16) & dk3enc_last_byte);
	*(mydp++) = (unsigned char)((v >> 24) & dk3enc_last_byte);
	back += 4;
        v = 0UL; vused = 0;
      }
    } else {
      if(app) {
        if(!reported_illegal_char) {
	  reported_illegal_char = 1;
	  /* Illegal character(s) in source string! */
	  dk3app_log_i1(app, DK3_LL_ERROR, 67);
	}
      }
    }
    mysp++;
  }
  if(vused) {
    vused--;
    while(vused--) {
      *(mydp++) = (unsigned char)(v         & dk3enc_last_byte);
      back++;
      v = v >> 8;
    }
  } $? "- dk3enc_do_ra85_to_bin %lu", (unsigned long)back
  return back;
}



size_t
dk3enc_ra85_to_bin_app(
  char *dp, size_t ds, char const *sp, size_t ss, dk3_app_t *app
)
{
  size_t back = 0;
  size_t needed_size = 0;	/* Minimum output buffer size. */
  $? "+ dk3enc_ra85_to_bin %lu %lu", (unsigned long)ds, (unsigned long)ss
  if((dp) && (sp) && (ds) && (ss)) {
    needed_size = dk3enc_size_a85_to_bin(ss);
    if(needed_size) {
      if(ds >= needed_size) {
        back = dk3enc_do_ra85_to_bin(dp, ds, sp, ss, app);
      } else {
        if(app) {
	  /* Destination buffer too small! */
	  dk3app_log_i1(app, DK3_LL_ERROR, 38);
	}
      }
    }
  } $? "- dk3enc_ra85_to_bin %lu", (unsigned long)back
  return back;
}



size_t
dk3enc_ra85string_to_bin_app(
  char *dp, size_t ds, char const *sp, dk3_app_t *app
)
{
  size_t back = 0;
  $? "+ dk3enc_ra85string_to_bin %lu %!8s", (unsigned long)ds, TR_8STR(sp)
  if(sp) {
    back = dk3enc_ra85_to_bin_app(dp, ds, sp, dk3str_c8_len(sp), app);
  }
  return back;
}



/**	Convert binary data to ASCII-85 string.
	@param	dp	Destination pointer.
	@param	ds	Destination size.
	@param	sp	Source pointer.
	@param	ss	Source size.
*/
static
void
dk3enc_do_bin_to_a85(char *dp, size_t ds, char const *sp, size_t ss)
{
  register unsigned char *mydp = NULL;	/* Destination pointer. */
  register unsigned char *mysp = NULL;	/* Source pointer. */
  register unsigned long v = 0UL;	/* Double-word. */
  register short vused = 0;		/* Flag: v used. */
  register short addval = 0;		/* Value to add. */
  register size_t i = 0;		/* Index of current source byte. */
  $? "+ dk3enc_do_bin_to_a85 %lu %lu", (unsigned long)ds, (unsigned long)ss
  mydp = (unsigned char *)dp;
  mysp = (unsigned char *)sp;
  v = 0UL;
  vused = 0;
  for(i = 0; i < ss; i++) {
    switch(vused) {
      case 3: {
        v |= ( ((unsigned long)(*(mysp++)))        & 0x000000FFUL);
      } break;
      case 2: {
        v |= ((((unsigned long)(*(mysp++))) <<  8) & 0x0000FF00UL);
      } break;
      case 1: {
        v |= ((((unsigned long)(*(mysp++))) << 16) & 0x00FF0000UL);
      } break;
      default: {
        v |= ((((unsigned long)(*(mysp++))) << 24) & 0xFF000000UL);
      } break;
    }
    if(++vused >= 4) {
      vused = 5;
      while(vused--) {
        *(mydp++) = (unsigned char)(33UL + v / dk3enc_f2[vused]);
	v = v % dk3enc_f2[vused];
      }
      v = 0UL; vused = 0;
    }
  }
  if(vused) {
    vused++; addval = 5 - vused;
    while(vused--) {
      *(mydp++) = (unsigned char)(33UL + v / dk3enc_f2[vused + addval]);
      v = v % dk3enc_f2[vused + addval];
    }
  }
  *mydp = '\0'; $? "- dk3enc_do_bin_to_a85"
}



int
dk3enc_bin_to_a85_app(
  char *dp, size_t ds, char const *sp, size_t ss, dk3_app_t *app
)
{
  int back = 0;
  size_t needed_size = 0;	/* Minimum output buffer size. */
  $? "+ dk3enc_bin_to_a85 %lu %lu", (unsigned long)ds, (unsigned long)ss
  if((dp) && (sp) && (ds) && (ss)) {
    needed_size = dk3enc_size_bin_to_a85(ss);
    if(needed_size) {
      if(ds >= needed_size) {
        dk3enc_do_bin_to_a85(dp, ds, sp, ss);
	back = 1;
      } else {
        if(app) {
	  /* Destination buffer too small! */
	  dk3app_log_i1(app, DK3_LL_ERROR, 38);
	}
      }
    }
  } $? "- dk3enc_bin_to_a85 %d", back
  return back;
}



/**	Convert ASCII-85 encoded data to binary data.
	@param	dp	Destination pointer.
	@param	ds	Destination size.
	@param	sp	Source pointer.
	@param	ss	Source size.
	@param	app	Application structure for diagnostics, may be NULL.
	@return	Number of binary bytes produced.
*/
static
size_t
dk3enc_do_a85_to_bin(char *dp, size_t ds, char const *sp, size_t ss, dk3_app_t *app)
{
  register size_t back = 0;
  register unsigned char *mydp = NULL;		/* Destination pointer. */
  register unsigned char const *mysp = NULL;	/* Source pointer. */
  register unsigned long v = 0UL;		/* Double-word. */
  register short vused = 0;			/* Flag: v used. */
  register size_t i = 0;			/* Current source byte index. */
  unsigned long u1 = 0UL;			/* Temporary value. */
  unsigned long u2 = 0UL;			/* Temporary value. */
  unsigned long u3 = 0UL;			/* Temporary value. */
  int reported_illegal_character = 0;
  $? "+ dk3enc_do_a85_to_bin %lu %lu", (unsigned long)ds, (unsigned long)ss
  mydp = (unsigned char *)dp; mysp = (unsigned char *)sp;
  v = 0UL; vused = 0;
  for(i = 0; i < ss; i++) {
    if(*mysp) {
      if(dk3enc_c8_is_a85(*mysp)) {
        v += dk3enc_f2[4 - vused] *
	((((unsigned long)(*mysp)) & 0x000000FFUL) - 33UL);
      } else {
        if(!reported_illegal_character) {
	  reported_illegal_character = 1;
	  if(app) {
	    /* Illegal character in source data! */
	    dk3app_log_i1(app, DK3_LL_ERROR, 67);
	  }
	}
      }
      vused++;
      if(vused >= 5) {
        *(mydp++) = (unsigned char)((v >> 24) & 0x000000FFUL); back++;
	*(mydp++) = (unsigned char)((v >> 16) & 0x000000FFUL); back++;
	*(mydp++) = (unsigned char)((v >>  8) & 0x000000FFUL); back++;
	*(mydp++) = (unsigned char)( v        & 0x000000FFUL); back++;
        v = 0UL; vused = 0;
      }
    }
    mysp++;
  }
  if(vused) {
    u1 = (v >> 24) & 0x000000FFUL;
    u2 = (v >> 16) & 0x000000FFUL;
    u3 = (v >>  8) & 0x000000FFUL;
    switch(vused) {
      case 2: {
        if(v & 0x00FFFFFFUL) {
	  u1++; if(u1 >= 256UL) u1 = 0UL;
	}
	*(mydp++) = (unsigned char)(u1 & 0x000000FFUL); back++;
      } break;
      case 3: {
        if(v & 0x0000FFFFUL) {
	  u2++;
	  if(u2 >= 256UL) {
	    u2 = 0UL;
	    u1++; if(u1 >= 256UL) u1 = 0UL;
	  }
	}
	*(mydp++) = (unsigned char)(u1 & 0x000000FFUL); back++;
	*(mydp++) = (unsigned char)(u2 & 0x000000FFUL); back++;
      } break;
      case 4: {
        if(v & 0x000000FFUL) {
	  u3++;
	  if(u3 >= 256UL) {
	    u3 = 0UL;
	    u2++;
	    if(u2 >= 256UL) {
	      u2 = 0UL;
	      u1++; if(u1 >= 256UL) u1 = 0UL;
	    }
	  }
	}
	*(mydp++) = (unsigned char)(u1 & 0x000000FFUL); back++;
	*(mydp++) = (unsigned char)(u2 & 0x000000FFUL); back++;
	*(mydp++) = (unsigned char)(u3 & 0x000000FFUL); back++;
      } break;
    }
  } $? "- dk3enc_do_a85_to_bin %lu", (unsigned long)back
  return back;
}



size_t
dk3enc_a85_to_bin_app(
  char *dp, size_t ds, char const *sp, size_t ss, dk3_app_t *app
)
{
  size_t back = 0;
  size_t needed_size = 0;	/* Minimum output buffer size. */
  $? "+ dk3enc_a85_to_bin %lu %lu", (unsigned long)ds, (unsigned long)ss
  if((dp) && (sp) && (ds) && (ss)) {
    needed_size = dk3enc_size_a85_to_bin(ss);
    if(needed_size) {
      if(ds >= needed_size) {
        back = dk3enc_do_a85_to_bin(dp, ds, sp, ss, app);
      } else {
        if(app) {
	  /* Destination buffer too small! */
	  dk3app_log_i1(app, DK3_LL_ERROR, 38);
	}
      }
    }
  } $? "- dk3enc_a85_to_bin %lu", (unsigned long)back
  return back;
}



size_t
dk3enc_a85string_to_bin_app(char *dp, size_t ds, char const *sp, dk3_app_t *app)
{
  size_t back = 0;
  $? "+ dk3enc_a85string_to_bin %lu %!8s", (unsigned long)ds, TR_8STR(sp)
  if(sp) {
    back = dk3enc_a85_to_bin_app(dp, ds, sp, dk3str_c8_len(sp), app);
  } $? "- dk3enc_a85string_to_bin %lu", (unsigned long)back
  return back;
}



size_t
dk3enc_size_bin_to_hex(size_t s)
{
#if VERSION_BEFORE_20140809
  size_t back = 0;
  int ec = 0;			/* Error code. */
  unsigned long ul1 = 0UL;	/* Temporary value for calculation. */
  $? "+ dk3enc_size_bin_to_hex %lu", (unsigned long)s
  ul1 = (unsigned long)s;
  ul1 = dk3ma_ul_mul_ok(ul1, 2UL, &ec);
  ul1 = dk3ma_ul_add_ok(ul1, 1UL, &ec);
  back = (size_t)ul1;
  if(ec) back = 0;
  if((unsigned long)back != ul1) back = 0;
  $? "- dk3enc_size_bin_to_hex %lu", (unsigned long)back
  return back;
#else
  size_t	back	= 0;
  int		ec	= 0;	/* Error code */
  $? "+ dk3enc_size_bin_to_hex %lu", (unsigned long)s
  back = dk3mem_add_size_t(1,   dk3mem_mul_size_t(2, s, &ec),   &ec);
  if (ec) { back = 0; }
  $? "- dk3enc_size_bin_to_hex %lu", (unsigned long)back
  return back;
#endif
}



size_t
dk3enc_size_hex_to_bin(size_t s)
{
  size_t back;
  $? "+ dk3enc_size_hex_to_bin %lu", (unsigned long)s
  back = s / 2;
  back++; $? "- dk3enc_size_hex_to_bin %lu", (unsigned long)back
  return back;
}



/**	Get higher half-byte from character.
	@param	c	Source character.
	@return	Higher half-byte of \a c.
*/
static
char
dk3enc_c8_high_nibble_hex(char c)
{
  char back;
  back = dk3enc_hex_digits[ (((unsigned short)c) >> 4) & 0x000FU ];
  return back;
}



/**	Get lower half-byte from character.
	@param	c	Source character.
	@return	Lower half-byte of \a c.
*/
static
char
dk3enc_c8_low_nibble_hex(char c)
{
  char back;
  back = dk3enc_hex_digits[  ((unsigned short)c)       & 0x000FU ];
  return back;
}



/**	Convert binary data to hexadecimal string.
	@param	dp	Destination pointer.
	@param	ds	Destination size.
	@param	sp	Source pointer.
	@param	ss	Source size.
	@param	app	Application structure for diagnostics, may be NULL.
*/
static
void
dk3enc_do_bin_to_hex(char *dp, size_t ds, char const *sp, size_t ss, dk3_app_t *app)
{
  register char *mydp = NULL;		/* Destination pointer. */
  register char const *mysp = NULL;	/* Source pointer. */
  register size_t i = 0;		/* Current source byte index. */
  $? "+ dk3enc_do_bin_to_hex %lu %lu", (unsigned long)ds, (unsigned long)ss
  mydp = dp; mysp = sp;
  for(i = 0; i < ss; i++) {
    *(mydp++) = dk3enc_c8_high_nibble_hex(*mysp);
    *(mydp++) = dk3enc_c8_low_nibble_hex(*(mysp++));
  }
  *mydp = '\0'; $? "- dk3enc_do_bin_to_hex"
}



int
dk3enc_bin_to_hex_app(
  char *dp, size_t ds, char const *sp, size_t ss, dk3_app_t *app
)
{
  int back = 0;
  size_t needed_bytes = 0;	/* Minimum output buffer size. */
  $? "+ dk3enc_bin_to_hex %lu %lu", (unsigned long)ds, (unsigned long)ss
  if((dp) && (ds) && (sp) && (ss)) {
    needed_bytes = dk3enc_size_bin_to_hex(ss);
    if(needed_bytes) {
      if(ds >= needed_bytes) {
        dk3enc_do_bin_to_hex(dp, ds, sp, ss, app); back = 1;
      } else {
        if(app) {
	  /* Destination buffer too small1 */
	  dk3app_log_i1(app, DK3_LL_ERROR, 38);
	}
      }
    }
  } $? "- dk3enc_bin_to_hex %d", back
  return back;
}



/**	Convert hexadecimal data to binary data.
	@param	dp	Destination pointer.
	@param	ds	Destination size.
	@param	sp	Source pointer.
	@param	ss	Source size.
	@param	app	Application structure for diagnostics, may be NULL.
	@return	Number of bytes created in destination.
*/
static
size_t
dk3enc_do_hex_to_bin(char *dp, size_t ds, char const *sp, size_t ss, dk3_app_t *app)
{
  register size_t back = 0;
  register char const *mysp = NULL;	/* Source pointer. */
  register unsigned char *mydp = NULL;	/* Destination pointer. */
  register unsigned char v = 0x00;	/* Current byte to process. */
  register short int vused = 0;		/* Flag: v used. */
  register size_t i = 0;		/* Current source byte index. */
  int reported_illegal_character = 0;	/* Flag: Error already reported. */
  $? "+ dk3enc_do_hex_to_bin %lu %lu", (unsigned long)ds, (unsigned long)ss
  mydp = (unsigned char *)dp;
  mysp = sp; v = 0x00; vused = 0U;
  for(i = 0; i < ss; i++) {
    switch(*mysp) {
      case '0':
      case '1':
      case '2':
      case '3':
      case '4':
      case '5':
      case '6':
      case '7':
      case '8':
      case '9':
      case 'a':
      case 'A':
      case 'b':
      case 'B':
      case 'c':
      case 'C':
      case 'd':
      case 'D':
      case 'e':
      case 'E':
      case 'f':
      case 'F':
      {
        if(vused) {
	  switch(*mysp) {
	    case '0': { v |= 0x00; } break;
	    case '1': { v |= 0x01; } break;
	    case '2': { v |= 0x02; } break;
	    case '3': { v |= 0x03; } break;
	    case '4': { v |= 0x04; } break;
	    case '5': { v |= 0x05; } break;
	    case '6': { v |= 0x06; } break;
	    case '7': { v |= 0x07; } break;
	    case '8': { v |= 0x08; } break;
	    case '9': { v |= 0x09; } break;
	    case 'a': { v |= 0x0A; } break;
	    case 'A': { v |= 0x0A; } break;
	    case 'b': { v |= 0x0B; } break;
	    case 'B': { v |= 0x0B; } break;
	    case 'c': { v |= 0x0C; } break;
	    case 'C': { v |= 0x0C; } break;
	    case 'd': { v |= 0x0D; } break;
	    case 'D': { v |= 0x0D; } break;
	    case 'e': { v |= 0x0E; } break;
	    case 'E': { v |= 0x0E; } break;
	    case 'f': { v |= 0x0F; } break;
	    case 'F': { v |= 0x0F; } break;
	  }
	  *(mydp++) = v; back++; v = 0; vused = 0U;
	} else {
	  switch(*mysp) {
	    case '0': { v = 0x00; } break;
	    case '1': { v = 0x10; } break;
	    case '2': { v = 0x20; } break;
	    case '3': { v = 0x30; } break;
	    case '4': { v = 0x40; } break;
	    case '5': { v = 0x50; } break;
	    case '6': { v = 0x60; } break;
	    case '7': { v = 0x70; } break;
	    case '8': { v = 0x80; } break;
	    case '9': { v = 0x90; } break;
	    case 'a': { v = 0xA0; } break;
	    case 'A': { v = 0xA0; } break;
	    case 'b': { v = 0xB0; } break;
	    case 'B': { v = 0xB0; } break;
	    case 'c': { v = 0xC0; } break;
	    case 'C': { v = 0xC0; } break;
	    case 'd': { v = 0xD0; } break;
	    case 'D': { v = 0xD0; } break;
	    case 'e': { v = 0xE0; } break;
	    case 'E': { v = 0xE0; } break;
	    case 'f': { v = 0xF0; } break;
	    case 'F': { v = 0xF0; } break;
	  }
	  vused = 1U;
	}
      } break;
      default: {
        if(!reported_illegal_character) {
	  reported_illegal_character = 1;
	  if(app) {
	    /* Illegal character(s) in source! */
	    dk3app_log_i1(app, DK3_LL_ERROR, 67);
	  }
	}
      } break;
    }
    mysp++;
  }
  if(vused) {
    *mydp = v; back++;
  } $? "- dk3enc_do_hex_to_bin %lu", (unsigned long)back
  return back;
}



size_t
dk3enc_hex_to_bin_app(
  char *dp, size_t ds, char const *sp, size_t ss, dk3_app_t *app
)
{
  size_t back = 0;
  size_t needed_bytes = 0;	/* Minimum output buffer size. */
  $? "+ dk3enc_hex_to_bin %lu %lu", (unsigned long)ds, (unsigned long)ss
  if((dp) && (ds) && (sp) && (ss)) {
    needed_bytes = dk3enc_size_hex_to_bin(ss);
    if(needed_bytes) {
      if(ds >= needed_bytes) {
        back = dk3enc_do_hex_to_bin(dp, ds, sp, ss, app);
      } else {
        if(app) {
	  /* Destination buffer too small! */
	  dk3app_log_i1(app, DK3_LL_ERROR, 38);
	}
      }
    }
  } $? "- dk3enc_hex_to_bin %lu", (unsigned long)back
  return back;
}



size_t
dk3enc_hexstring_to_bin_app(
  char *dp, size_t ds, char const *sp, dk3_app_t *app
)
{
  size_t back = 0;
  $? "+ dk3enc_hexstring_to_bin %lu %!8s", (unsigned long)ds, TR_8STR(sp)
  if(sp) {
    back = dk3enc_hex_to_bin_app(dp, ds, sp, dk3str_c8_len(sp), app);
  } $? "- dk3enc_hexstring_to_bin %lu", (unsigned long)back
  return back;
}



size_t
dk3enc_size_hexstring_to_bin(char const *s)
{
  size_t back = 0;
  $? "+ dk3enc_size_hexstring_to_bin %!8s", TR_8STR(s)
  if(s) {
    back = dk3str_c8_len(s);
    back = dk3enc_size_hex_to_bin(back);
  } $? "- dk3enc_size_hexstring_to_bin %lu", (unsigned long)back
  return back;
}



size_t
dk3enc_size_a85string_to_bin(char const *s)
{
  size_t back = 0;
  $? "+ dk3enc_size_a85string_to_bin %!8s", TR_8STR(s)
  if(s) {
    back = dk3str_c8_len(s);
    back = dk3enc_size_a85_to_bin(back);
  } $? "- dk3enc_size_a85string_to_bin %lu", (unsigned long)back
  return back;
}



int
dk3enc_get_type_app(dkChar const *n, dk3_app_t *app)
{
  int back = -1;
  if(n) {
    back = dk3str_array_index(dk3enc_data_encoding_names, n, 0);
    if(back >= 0) {
      switch(back) {
        case 0: case 3: {
	  back = DK3_DATA_ENCODING_HEX;
	} break;
	case 1: case 4: case 6: {
	  back = DK3_DATA_ENCODING_ASCII85;
	} break;
	case 2: case 5: case 7: {
	  back = DK3_DATA_ENCODING_REVERSE_ASCII85;
	} break;
      }
    } else {
      if(app) {
        dk3app_log_i3(app, DK3_LL_ERROR, 129, 130, n);
      }
    }
  }
  return back;
}


dkChar const *
dk3enc_get_data_encoding_name(int t)
{
  dkChar const *back = NULL;
  if((t >= 0) && (t <= 2)) {
    back = dk3enc_data_encoding_names[t];
  }
  return back;
}



int
dk3enc_get_text_encoding_app(dkChar const *en, dk3_app_t *app)
{
  int back = -1;
  int i;
  $? "+ dk3enc_get_text_encoding_app \"%!ds\"", TR_STR(en)
  if(app) { back = dk3app_get_output_encoding(app); }
  if(en) {
    i = dk3str_array_index(dk3enc_text_encoding_names, en, 0); $? ". i=%d", i
    switch(i) {
      case 0: case 8: case 9: {
        back = DK3_FILE_ENCODING_ASCII;
      } break;
      case 1: case 10: {
        back = DK3_FILE_ENCODING_UTF8;
      } break;
      case 2: case 11: {
#if DK3_HAVE_BIGENDIAN
	back = DK3_FILE_ENCODING_UTF16_MSB_FIRST;
#else
	back = DK3_FILE_ENCODING_UTF16_LSB_FIRST;
#endif
      } break;
      case 3: case 18: case 19: case 20: case 21: case 22: case 23: {
        back = DK3_FILE_ENCODING_UTF16_MSB_FIRST;
      } break;
      case 4: case 12: case 13: case 14: case 15: case 16: case 17: {
        back = DK3_FILE_ENCODING_UTF16_LSB_FIRST;
      } break;
      case 5: case 24: {
#if DK3_HAVE_BIGENDIAN
	back = DK3_FILE_ENCODING_UNICODE_MSB_FIRST;
#else
	back = DK3_FILE_ENCODING_UNICODE_LSB_FIRST;
#endif
      } break;
      case 6: case 29: case 30: case 31: case 32: {
        back = DK3_FILE_ENCODING_UNICODE_MSB_FIRST;
      } break;
      case 7: case 25: case 26: case 27: case 28: {
        back = DK3_FILE_ENCODING_UNICODE_LSB_FIRST;
      } break;
      default: {
        if(app) {
	  /* ERROR: Unknown text encoding name! */
	  dk3app_log_i3(app, DK3_LL_ERROR, 129, 130, en);
	}
      } break;
    }
  } $? "- dk3enc_get_text_encoding_app %d", back
  return back;
}



int
dk3enc_get_encoding(dk3_app_t *app)
{
  int		 back = 0;
#if DK3_CHAR_SIZE == 1
  char		*ptr;
#endif
  if(app) {
    back = dk3app_get_encoding(app);
  } else {
#if DK3_CHAR_SIZE > 1
#if DK3_CHAR_SIZE > 2
    back = DK3_ENCODING_UNICODE;
#else
    back = DK3_ENCODING_UTF16;
#endif
#else
    back = DK3_ENCODING_PLAIN;
    ptr = getenv("LANG");
    if(ptr) {
      ptr = dk3str_c8_chr(ptr, '.');
      if(ptr) {
        ptr++;
	switch(dk3str_c8_array_index(dk3enc_utf8_names, ptr, 0)) {
	  case 0: case 1: {
	    back = DK3_ENCODING_UTF8;
	  } break;
	}
      }
    }
#endif
  }
  return back;
}



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