/* Copyright (C) 1994 Aladdin Enterprises.  All rights reserved.
  
  This file is part of Aladdin Ghostscript.
  
  Aladdin Ghostscript is distributed with NO WARRANTY OF ANY KIND.  No author
  or distributor accepts any responsibility for the consequences of using it,
  or for whether it serves any particular purpose or works at all, unless he
  or she says so in writing.  Refer to the Aladdin Ghostscript Free Public
  License (the "License") for full details.
  
  Every copy of Aladdin Ghostscript must include a copy of the License,
  normally in a plain ASCII text file named PUBLIC.  The License grants you
  the right to copy, modify and redistribute Aladdin Ghostscript, but only
  under certain conditions described in the License.  Among other things, the
  License requires that the copyright notice and this notice be preserved on
  all copies.
*/

/* spdiff.c */
/* Pixel differencing filters */
#include "stdio_.h"
#include "strimpl.h"
#include "spdiffx.h"

private_st_PDiff_state();

#define ss ((stream_PDiff_state *)st)

/* Define values for case dispatch. */
#define cBits1 0
#define cBits2 4
#define cBits4 8
#define cBits8 12
#define cEncode -1
#define cDecode 15

/* Initialize PixelDifferenceEncode filter. */
private int
s_PDiffE_init(stream_state *st)
{	long bits_per_row =
		ss->Colors * ss->BitsPerComponent * (long)ss->Columns;
	static const byte cb_values[] =
		{ 0, cBits1, cBits2, 0, cBits4, 0, 0, 0, cBits8 };
	ss->row_count = (uint)((bits_per_row + 7) >> 3);
	ss->end_mask = (1 << (-bits_per_row & 7)) - 1;
	ss->case_index =
		cb_values[ss->BitsPerComponent] + ss->Colors + cEncode;
	ss->row_left = 0;
	return 0;
}

/* Initialize PixelDifferenceDecode filter. */
private int
s_PDiffD_init(stream_state *st)
{	s_PDiffE_init(st);
	ss->case_index += cDecode - cEncode;
	return 0;
}

/* Process a buffer.  Note that this handles both Encode and Decode. */
private int
s_PDiff_process(stream_state *st, stream_cursor_read *pr,
  stream_cursor_write *pw, bool last)
{	register const byte *p = pr->ptr;
	register byte *q = pw->ptr;
	int rcount, wcount;
	register int count;
	int status = 0;
	register byte s0;
	register byte t;
	byte save_last;
	const byte end_mask = ss->end_mask;
	s0 = ss->s0;
row:	if ( ss->row_left == 0 )
		ss->row_left = ss->row_count,
		s0 = ss->s1 = ss->s2 = ss->s3 = 0;
	rcount = pr->limit - p;
	wcount = pw->limit - q;
	if ( ss->row_left < rcount )
		rcount = ss->row_left;
	count = (wcount < rcount ? (status = 1, wcount) : rcount);
	ss->row_left -= count;
	if ( ss->row_left == 0 )
		save_last = p[count];

	/*
	 * Encoding and decoding are fundamentally different.
	 * Encoding computes E[i] = D[i] - D[i-1];
	 * decoding computes D[i] = E[i] + D[i-1].
	 * Nevertheless, the loop structures are similar enough that
	 * we put the code for both functions in the same place.
	 */

#define loopn(n, body)\
  while ( count >= n ) p += n, q += n, body, count -= n

	switch ( ss->case_index )
	{

	/* 1 bit per component */

#define eloop1(ee)\
  loopn(1, (t = *p, *q = ee, s0 = t))

	case cEncode+cBits1+1:
		eloop1(t ^ ((s0 << 7) | (t >> 1)));
	case cEncode+cBits1+2:
		eloop1(t ^ ((s0 << 6) | (t >> 2)));
	case cEncode+cBits1+3:
		eloop1(t ^ ((s0 << 5) | (t >> 3)));
	case cEncode+cBits1+4:
		eloop1(t ^ ((s0 << 4) | (t >> 4)));

#define dloop1(te, de)\
  loopn(1, (t = te, s0 = *q = de)); break

	case cDecode+cBits1+1:
		dloop1(*p ^ (s0 << 7),
			(t ^= t >> 1, t ^= t >> 2, t ^ (t >> 4)));
	case cDecode+cBits1+2:
		dloop1(*p ^ (s0 << 6),
			(t ^= (t >> 2), t ^ (t >> 4)));
	case cDecode+cBits1+3:
		dloop1(*p ^ (s0 << 5),
			t ^ (t >> 3) ^ (t >> 6));
	case cDecode+cBits1+4:
		dloop1(*p ^ (s0 << 4),
			t ^ (t >> 4));

	/* 2 bits per component */

#define add4x2(a, b) ( (((a) & (b) & 0x55) << 1) ^ (a) ^ (b) )
#define sub4x2(a, b) ( ((~(a) & (b) & 0x55) << 1) ^ (a) ^ (b) )

	case cEncode+cBits2+1:
		eloop1((s0 = (s0 << 6) | (t >> 2), sub4x2(t, s0)));
	case cEncode+cBits2+2:
		eloop1((s0 = (s0 << 4) | (t >> 4), sub4x2(t, s0)));
	case cEncode+cBits2+3:
		eloop1((s0 = (s0 << 2) | (t >> 6), sub4x2(t, s0)));
	case cEncode+cBits2+4:
		eloop1(sub4x2(t, s0));

	case cDecode+cBits2+1:
		dloop1(*p + (s0 << 6),
			(t = add4x2(t >> 2, t),
			add4x2(t >> 4, t)));
	case cDecode+cBits2+2:
		dloop1(*p, (t = add4x2(t, s0 << 4),
			   add4x2(t >> 4, t)));
	case cDecode+cBits2+3:
		dloop1(*p, (t = add4x2(t, s0 << 2),
			   add4x2(t >> 6, t)));
	case cDecode+cBits2+4:
		dloop1(*p, add4x2(t, s0));

#undef add4x2
#undef sub4x2

	/* 4 bits per component */

#define add2x4(a, b) ( (((a) + (b)) & 0xf) + ((a) & 0xf0) + ((b) & 0xf0) )
#define add2x4r4(a) ( (((a) + ((a) >> 4)) & 0xf) + ((a) & 0xf0) )
#define sub2x4(a, b) ( (((a) - (b)) & 0xf) + ((a) & 0xf0) - ((b) & 0xf0) )
#define sub2x4r4(a) ( (((a) - ((a) >> 4)) & 0xf) + ((a) & 0xf0) )

	case cEncode+cBits4+1:
		eloop1( ((t - (s0 << 4)) & 0xf0) | ((t - (t >> 4)) & 0xf) );
	case cEncode+cBits4+2:
		eloop1(sub2x4(t, s0));
	case cEncode+cBits4+3:
	{	register byte s1 = ss->s1;
		loopn(1, (t = *p,
			  *q =
			    ((t - (s0 << 4)) & 0xf0) | ((t - (s1 >> 4)) & 0xf),
			  s0 = s1, s1 = t));
		ss->s1 = s1;
	}	break;
	case cEncode+cBits4+4:
	{	register byte s1 = ss->s1;
		loopn(2,
		      (t = p[-1], q[-1] = sub2x4(t, s0), s0 = t,
		       t = *p, *q = sub2x4(t, s1), s1 = t));
		ss->s1 = s1;
	}	break;

	case cDecode+cBits4+1:
		dloop1(*p + (s0 << 4), add2x4r4(t));
	case cDecode+cBits4+2:
		dloop1(*p, add2x4(t, s0));
	case cDecode+cBits4+3:
	{	register byte s1 = ss->s1;
		loopn(1, (t = (s0 << 4) + (s1 >> 4),
			  s0 = s1, s1 = *q = add2x4(*p, t)));
		ss->s1 = s1;
	}	break;
	case cDecode+cBits4+4:
	{	register byte s1 = ss->s1;
		loopn(2,
		      (t = p[-1], s0 = q[-1] = add2x4(s0, t),
		       t = *p, s1 = *q = add2x4(s1, t)));
		ss->s1 = s1;
	}	break;

#undef add2x4
#undef add2x4r4
#undef sub2x4
#undef sub2x4r4

	/* 8 bits per component */

#define encode8(s, d) (q[d] = p[d] - s, s = p[d])
#define decode8(s, d) s = q[d] = s + p[d]

	case cEncode+cBits8+1:
		loopn(1, encode8(s0, 0));
		break;
	case cDecode+cBits8+1:
		loopn(1, decode8(s0, 0));
		break;
	case cEncode+cBits8+2:
	{	register byte s1 = ss->s1;
		loopn(2, (encode8(s0, -1), encode8(s1, 0)));
		ss->s1 = s1;
	}	break;
	case cDecode+cBits8+2:
	{	register byte s1 = ss->s1;
		loopn(2, (decode8(s0, -1), decode8(s1, 0)));
		ss->s1 = s1;
	}	break;
	case cEncode+cBits8+3:
	{	register byte s1 = ss->s1, s2 = ss->s2;
		loopn(3, (encode8(s0, -2), encode8(s1, -1),
			  encode8(s2, 0)));
		ss->s1 = s1, ss->s2 = s2;
	}	break;
	case cDecode+cBits8+3:
	{	register byte s1 = ss->s1, s2 = ss->s2;
		loopn(3, (decode8(s0, -2), decode8(s1, -1),
			  decode8(s2, 0)));
		ss->s1 = s1, ss->s2 = s2;
	}	break;
	case cEncode+cBits8+4:
	{	register byte s1 = ss->s1, s2 = ss->s2, s3 = ss->s3;
		loopn(4, (encode8(s0, -3), encode8(s1, -2),
			  encode8(s2, -1), encode8(s3, 0)));
		ss->s1 = s1, ss->s2 = s2, ss->s3 = s3;
	}	break;
	case cDecode+cBits8+4:
	{	register byte s1 = ss->s1, s2 = ss->s2, s3 = ss->s3;
		loopn(4, (decode8(s0, -3), decode8(s1, -2),
			  decode8(s2, -1), decode8(s3, 0)));
		ss->s1 = s1, ss->s2 = s2, ss->s3 = s3;
	}	break;

#undef encode8
#undef decode8

	}
#undef loopn
#undef dloop1
	if ( ss->row_left == 0 )
	{	if ( end_mask != 0 )
			*q = (*q & ~end_mask) | (save_last & end_mask);
		if ( p < pr->limit && q < pw->limit )
			goto row;
	}
	ss->s0 = s0;
	pr->ptr = p;
	pw->ptr = q;
	return status;
}

/* Stream templates */
const stream_template s_PDiffE_template =
{	&st_PDiff_state, s_PDiffE_init, s_PDiff_process, 1, 1
};
const stream_template s_PDiffD_template =
{	&st_PDiff_state, s_PDiffD_init, s_PDiff_process, 1, 1
};