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%%	options

copyright owner	=	Dirk Krause
copyright year	=	2015-xxxx
license		=	bsd



%%	header

/**	@file
	32 bit character decoding.

	CRT on Windows: Not used.
*/

#ifndef DK4CONF_H_INCLUDED
#include "dk4conf.h"
#endif

#ifndef DK4TYPES_H_INCLUDED
#include "dk4types.h"
#endif

/**	Decoder structure to build a 32 bit character from 4 4 4 4 bytes.
*/
typedef struct {
  dk4_c32_t	val;	/**< Value constructed from the bytes. */
  int		msb;	/**< Flag: First byte is MSB. */
  int		nb;	/**< Number of next byte. */
} dk4_c32_byte_decoder_t;

#ifdef __cplusplus
extern "C" {
#endif

/**	Initialize the decoder.
	@param	ptr	Decoder to initialize.
	@param	msb	Flag: Most significant byte first.
*/
void
dk4c32_decoder_init(dk4_c32_byte_decoder_t *ptr, int msb);

/**	Add one byte to the decoder.
	@param	ptr
	@param	inbyte
	@return	DK4_EDSTM_ACCEPT if the byte was added to the internal
	decoder state (no action necessary) or
	DK4_EDSTM_FINISHED if one output was finished (use
	dk4c32_decoder_get() to obtain the value).
*/
int
dk4c32_decoder_add(dk4_c32_byte_decoder_t *ptr, unsigned char inbyte);

/**	Retrieve output value.
	@param	ptr	Decoder to retrieve value from.
	@return	Output produced by the decoder.
*/
dk4_c32_t
dk4c32_decoder_get(dk4_c32_byte_decoder_t *ptr);

/**	Check whether the decoder is empty (nothing is stored in the
	internal state).
	@param	ptr	Decoder to check.
	@return	1 on success (decoder empty), 0 otherwise.
*/
int
dk4c32_decoder_is_empty(dk4_c32_byte_decoder_t *ptr);

#ifdef __cplusplus
}
#endif



%%	module

#include "dk4c32.h"

#ifndef DK4EDSTM_H_INCLUDED
#include "dk4edstm.h"
#endif

#if DK4_HAVE_STDLIB_H
#ifndef STDLIB_H_INCLUDED
#include <stdlib.h>
#define	STDLIB_H_INCLUDED 1
#endif
#else
#ifndef STDIO_H_INCLUDED
#include <stdio.h>
#define	STDIO_H_INCLUDED 1
#endif
#endif

void
dk4c32_decoder_init(dk4_c32_byte_decoder_t *ptr, int msb)
{
  if (NULL != ptr) {
    ptr->val = (dk4_c32_t)0UL;
    ptr->msb = msb;
    ptr->nb  = 0;
  }
}



int
dk4c32_decoder_add(dk4_c32_byte_decoder_t *ptr, unsigned char inbyte)
{
  int		back	=	DK4_EDSTM_ERROR;
  if (NULL != ptr) {
    switch (ptr->nb) {
      case 3: {
        if (ptr->msb) {
	  ptr->val |= (dkC32(0x000000FF) & ((dk4_c32_t)inbyte));
	} else {
	  ptr->val |= (dkC32(0xFF000000) & (((dk4_c32_t)inbyte) << 24));
	}
	ptr->nb = 0;
	back = DK4_EDSTM_FINISHED;
      } break;
      case 2: {
        if (ptr->msb) {
	  ptr->val |= (dkC32(0x0000FF00) & (((dk4_c32_t)inbyte) <<  8));
	} else {
	  ptr->val |= (dkC32(0x00FF0000) & (((dk4_c32_t)inbyte) << 16));
	}
	ptr->nb = 3;
	back = DK4_EDSTM_ACCEPT;
      } break;
      case 1: {
        if (ptr->msb) {
	  ptr->val |= (dkC32(0x00FF0000) & (((dk4_c32_t)inbyte) << 16));
	} else {
	  ptr->val |= (dkC32(0x0000FF00) & (((dk4_c32_t)inbyte) <<  8));
	}
	ptr->nb = 2;
	back = DK4_EDSTM_ACCEPT;
      } break;
      default: {
        if (ptr->msb) {
	  ptr->val = (dkC32(0xFF000000) & (((dk4_c32_t)inbyte) << 24));
	} else {
	  ptr->val = (dkC32(0x000000FF) & ((dk4_c32_t)inbyte));
	}
	ptr->nb = 1;
	back = DK4_EDSTM_ACCEPT;
      } break;
    }
  }
  return back;
}



dk4_c32_t
dk4c32_decoder_get(dk4_c32_byte_decoder_t *ptr)
{
  dk4_c32_t	back	=	(dk4_c32_t)0UL;
  if (NULL != ptr) {
    back = ptr->val;
  }
  return  back;
}



int
dk4c32_decoder_is_empty(dk4_c32_byte_decoder_t *ptr)
{
  int	back	=	0;
  if (NULL != ptr) {
    if (0 == ptr->nb) {
      back = 1;
    }
  }
  return back;
}