[imager.git] / rubthru.im

#include "imager.h"

static int
rubthru_targ_noalpha(i_img *im, i_img *src,
                     int tx, int ty, 
                     int src_minx, int src_miny,
                     int src_maxx, int src_maxy) {
  int x, y, ttx, tty;
  int alphachan;
  int ch;
  int width = src_maxx - src_minx;
  int want_channels;

  i_clear_error();

  if (im->channels == 3 && (src->channels == 4 || src->channels == 2)) {
    want_channels = 4;
    alphachan = 3;
  }
  else if (im->channels == 1 && (src->channels == 4 || src->channels == 2)) {
    want_channels = 2;
    alphachan = 1;
  }
  else {
    i_copyto(im, src, src_minx, src_miny, src_maxx, src_maxy, tx, ty);
    return 1;
  }

#code im->bits <= 8 && src->bits <= 8
  IM_WORK_T alpha;
  IM_COLOR *src_line, *dest_line;
  
  src_line = mymalloc(sizeof(IM_COLOR) * width);
  dest_line = mymalloc(sizeof(IM_COLOR) * width);

  tty = ty;
  for(y = src_miny; y < src_maxy; y++) {
    IM_COLOR *srcp = src_line;
    IM_COLOR *destp = dest_line;
    ttx = tx;
    IM_GLIN(src, src_minx, src_maxx, y, src_line);
    IM_GLIN(im, tx, tx + width, tty, dest_line);
    if (src->channels != want_channels)
      IM_ADAPT_COLORS(want_channels, src->channels, src_line, width);

    for(x = src_minx; x < src_maxx; x++) {
      alpha = srcp->channel[alphachan];
      for (ch = 0; ch < im->channels; ++ch) {
	IM_WORK_T samp = (alpha * srcp->channel[ch]
                            + (IM_SAMPLE_MAX - alpha) * destp->channel[ch])/IM_SAMPLE_MAX;
        destp->channel[ch] = IM_LIMIT(samp);
      }
      ++srcp;
      ++destp;
      ttx;
    }
    IM_PLIN(im, tx, tx + width, tty, dest_line);
    tty++;
  }
  myfree(src_line);
  myfree(dest_line);
#/code

  return 1;
}

static int
rubthru_targ_alpha(i_img *im, i_img *src, int tx, int ty, 
                   int src_minx, int src_miny,
                   int src_maxx, int src_maxy) {
  int x, y, ttx, tty;
  int want_channels;
  int alphachan;
  int ch;
  int targ_alpha_chan;
  int width = src_maxx - src_minx;
  
  if (im->channels == 4 && (src->channels == 4 || src->channels == 2)) {
    alphachan = 3;
    want_channels = 4;
  }
  else if (im->channels == 2 && (src->channels == 4 || src->channels == 2)) {
    alphachan = 1;
    want_channels = 2;
  }
  else {
    i_copyto(im, src, src_minx, src_miny, src_maxx, src_maxy, tx, ty);
    return 1;
  }

  targ_alpha_chan = im->channels - 1;

#code im->bits <= 8 && src->bits <= 8
  IM_WORK_T src_alpha, orig_alpha, dest_alpha, remains;
  IM_COLOR *src_line, *dest_line;

  src_line = mymalloc(sizeof(IM_COLOR) * width);
  dest_line = mymalloc(sizeof(IM_COLOR) * width);

  tty = ty;
  for(y = src_miny; y < src_maxy; y++) {
    int min_x, max_x;
    IM_COLOR *srcp = src_line;
    IM_COLOR *destp = dest_line;
    IM_GLIN(src, src_minx, src_maxx, y, src_line);
    if (src->channels != want_channels)
      IM_ADAPT_COLORS(want_channels, src->channels, src_line, width);
    min_x = src_minx;
    max_x = src_maxx;

    while (min_x < max_x && srcp->channel[alphachan] == 0) {
      ++min_x;
      ++srcp;
    }
    while (max_x > min_x && src_line[max_x-1].channel[alphachan] == 0) {
      --max_x;
    }

    if (max_x > min_x) {
      int work_left = tx + min_x - src_minx;
      int work_width = max_x - min_x;
      ttx = work_left;
      IM_GLIN(im, work_left, work_left + work_width, tty, dest_line);
      
      for(x = src_minx; x < src_maxx; x++) {
	src_alpha = srcp->channel[alphachan];
	if (src_alpha) {
	  remains = IM_SAMPLE_MAX - src_alpha;
	  orig_alpha = destp->channel[targ_alpha_chan];
	  dest_alpha = src_alpha + (remains * orig_alpha) / IM_SAMPLE_MAX;
	  
	  for (ch = 0; ch < im->channels-1; ++ch) {
	    IM_WORK_T samp = 
	      ( src_alpha * srcp->channel[ch]
		+ remains * destp->channel[ch] * orig_alpha / IM_SAMPLE_MAX 
		) / dest_alpha;
	    destp->channel[ch] = IM_LIMIT(samp);
	  }
	  /* dest's alpha */
	  destp->channel[targ_alpha_chan] = dest_alpha;
	}
	++srcp;
	++destp;
	ttx++;
      }
      IM_PLIN(im, work_left, work_left + work_width, tty, dest_line);
    }
    tty++;
  }
  myfree(dest_line);
  myfree(src_line);
#/code
  return 1;
}

/*
=item i_rubthru(im, src, tx, ty, src_minx, src_miny, src_maxx, src_maxy )

=category Image

Takes the sub image I<src[src_minx, src_maxx)[src_miny, src_maxy)> and
overlays it at (I<tx>,I<ty>) on the image object.

The alpha channel of each pixel in I<src> is used to control how much
the existing colour in I<im> is replaced, if it is 255 then the colour
is completely replaced, if it is 0 then the original colour is left 
unmodified.

=cut
*/

int
i_rubthru(i_img *im, i_img *src, int tx, int ty, int src_minx, int src_miny,
	  int src_maxx, int src_maxy) {
  if (src_minx < 0) {
    tx -= src_minx;
    src_minx = 0;
  }
  if (src_miny < 0) {
    ty -= src_miny;
    src_miny = 0;
  }
  if (tx < 0) {
    src_minx -= tx;
    tx = 0;
  }
  if (ty < 0) {
    src_miny -= ty;
    ty = 0;
  }
  if (src_maxx > src->xsize) {
    src_maxx = src->xsize;
  }
  if (src_maxy > src->ysize) {
    src_maxy = src->ysize;
  }
  if (tx >= im->xsize || ty >= im->ysize
      || src_minx >= src_maxx || src_miny >= src_maxy) {
    i_clear_error();
    i_push_error(0, "rubthrough: nothing to do");
    return 0;
  }

  if (im->channels == 1 || im->channels == 3)
    return rubthru_targ_noalpha(im, src, tx, ty, src_minx, src_miny, 
                                src_maxx, src_maxy);
  else
    return rubthru_targ_alpha(im, src, tx, ty, src_minx, src_miny,
                              src_maxx, src_maxy);
}
Commit	Line	Data
fe415ad2 TC	1	#include "imager.h"
	2
	3	static int
	4	rubthru_targ_noalpha(i_img im, i_img src,
	5	int tx, int ty,
	6	int src_minx, int src_miny,
	7	int src_maxx, int src_maxy) {
	8	int x, y, ttx, tty;
fe415ad2 TC	9	int alphachan;
fe415ad2 TC	10	int ch;
9b1ec2b8 TC	11	int width = src_maxx - src_minx;
9b1ec2b8 TC	12	int want_channels;
fe415ad2 TC	13
	14	i_clear_error();
	15
9b1ec2b8 TC	16	if (im->channels == 3 && (src->channels == 4 \|\| src->channels == 2)) {
9b1ec2b8 TC	17	want_channels = 4;
fe415ad2 TC	18	alphachan = 3;
fe415ad2 TC	19	}
9b1ec2b8 TC	20	else if (im->channels == 1 && (src->channels == 4 \|\| src->channels == 2)) {
9b1ec2b8 TC	21	want_channels = 2;
fe415ad2 TC	22	alphachan = 1;
	23	}
	24	else {
9b1ec2b8 TC	25	i_copyto(im, src, src_minx, src_miny, src_maxx, src_maxy, tx, ty);
9b1ec2b8 TC	26	return 1;
fe415ad2 TC	27	}
	28
	29	#code im->bits <= 8 && src->bits <= 8
	30	IM_WORK_T alpha;
9b1ec2b8 TC	31	IM_COLOR src_line, dest_line;
	32
	33	src_line = mymalloc(sizeof(IM_COLOR) * width);
	34	dest_line = mymalloc(sizeof(IM_COLOR) * width);
fe415ad2 TC	35
	36	tty = ty;
	37	for(y = src_miny; y < src_maxy; y++) {
9b1ec2b8 TC	38	IM_COLOR *srcp = src_line;
9b1ec2b8 TC	39	IM_COLOR *destp = dest_line;
fe415ad2	40	ttx = tx;
9b1ec2b8 TC	41	IM_GLIN(src, src_minx, src_maxx, y, src_line);
	42	IM_GLIN(im, tx, tx + width, tty, dest_line);
	43	if (src->channels != want_channels)
	44	IM_ADAPT_COLORS(want_channels, src->channels, src_line, width);
	45
fe415ad2	46	for(x = src_minx; x < src_maxx; x++) {
9b1ec2b8 TC	47	alpha = srcp->channel[alphachan];
	48	for (ch = 0; ch < im->channels; ++ch) {
	49	IM_WORK_T samp = (alpha * srcp->channel[ch]
	50	+ (IM_SAMPLE_MAX - alpha) * destp->channel[ch])/IM_SAMPLE_MAX;
	51	destp->channel[ch] = IM_LIMIT(samp);
fe415ad2	52	}
9b1ec2b8 TC	53	++srcp;
	54	++destp;
	55	ttx;
fe415ad2	56	}
9b1ec2b8	57	IM_PLIN(im, tx, tx + width, tty, dest_line);
fe415ad2 TC	58	tty++;
fe415ad2 TC	59	}
9b1ec2b8 TC	60	myfree(src_line);
9b1ec2b8 TC	61	myfree(dest_line);
fe415ad2	62	#/code
9b1ec2b8	63
fe415ad2 TC	64	return 1;
	65	}
	66
	67	static int
	68	rubthru_targ_alpha(i_img im, i_img src, int tx, int ty,
	69	int src_minx, int src_miny,
	70	int src_maxx, int src_maxy) {
	71	int x, y, ttx, tty;
9b1ec2b8	72	int want_channels;
fe415ad2 TC	73	int alphachan;
	74	int ch;
	75	int targ_alpha_chan;
9b1ec2b8	76	int width = src_maxx - src_minx;
fe415ad2	77
9b1ec2b8	78	if (im->channels == 4 && (src->channels == 4 \|\| src->channels == 2)) {
fe415ad2	79	alphachan = 3;
9b1ec2b8	80	want_channels = 4;
fe415ad2	81	}
9b1ec2b8	82	else if (im->channels == 2 && (src->channels == 4 \|\| src->channels == 2)) {
fe415ad2	83	alphachan = 1;
9b1ec2b8	84	want_channels = 2;
fe415ad2 TC	85	}
fe415ad2 TC	86	else {
9b1ec2b8 TC	87	i_copyto(im, src, src_minx, src_miny, src_maxx, src_maxy, tx, ty);
9b1ec2b8 TC	88	return 1;
fe415ad2 TC	89	}
	90
	91	targ_alpha_chan = im->channels - 1;
	92
	93	#code im->bits <= 8 && src->bits <= 8
	94	IM_WORK_T src_alpha, orig_alpha, dest_alpha, remains;
9b1ec2b8 TC	95	IM_COLOR src_line, dest_line;
	96
	97	src_line = mymalloc(sizeof(IM_COLOR) * width);
	98	dest_line = mymalloc(sizeof(IM_COLOR) * width);
fe415ad2 TC	99
	100	tty = ty;
	101	for(y = src_miny; y < src_maxy; y++) {
9b1ec2b8 TC	102	int min_x, max_x;
	103	IM_COLOR *srcp = src_line;
	104	IM_COLOR *destp = dest_line;
	105	IM_GLIN(src, src_minx, src_maxx, y, src_line);
	106	if (src->channels != want_channels)
	107	IM_ADAPT_COLORS(want_channels, src->channels, src_line, width);
	108	min_x = src_minx;
	109	max_x = src_maxx;
	110
	111	while (min_x < max_x && srcp->channel[alphachan] == 0) {
	112	++min_x;
	113	++srcp;
	114	}
	115	while (max_x > min_x && src_line[max_x-1].channel[alphachan] == 0) {
	116	--max_x;
	117	}
	118
	119	if (max_x > min_x) {
	120	int work_left = tx + min_x - src_minx;
	121	int work_width = max_x - min_x;
	122	ttx = work_left;
	123	IM_GLIN(im, work_left, work_left + work_width, tty, dest_line);
	124
	125	for(x = src_minx; x < src_maxx; x++) {
	126	src_alpha = srcp->channel[alphachan];
	127	if (src_alpha) {
	128	remains = IM_SAMPLE_MAX - src_alpha;
	129	orig_alpha = destp->channel[targ_alpha_chan];
	130	dest_alpha = src_alpha + (remains * orig_alpha) / IM_SAMPLE_MAX;
	131
	132	for (ch = 0; ch < im->channels-1; ++ch) {
	133	IM_WORK_T samp =
	134	( src_alpha * srcp->channel[ch]
	135	+ remains * destp->channel[ch] * orig_alpha / IM_SAMPLE_MAX
	136	) / dest_alpha;
	137	destp->channel[ch] = IM_LIMIT(samp);
	138	}
	139	/* dest's alpha */
	140	destp->channel[targ_alpha_chan] = dest_alpha;
	141	}
	142	++srcp;
	143	++destp;
	144	ttx++;
fe415ad2	145	}
9b1ec2b8	146	IM_PLIN(im, work_left, work_left + work_width, tty, dest_line);
fe415ad2 TC	147	}
	148	tty++;
	149	}
9b1ec2b8 TC	150	myfree(dest_line);
9b1ec2b8 TC	151	myfree(src_line);
fe415ad2 TC	152	#/code
	153	return 1;
	154	}
	155
	156	/*
	157	=item i_rubthru(im, src, tx, ty, src_minx, src_miny, src_maxx, src_maxy )
	158
	159	=category Image
	160
	161	Takes the sub image I<src[src_minx, src_maxx)[src_miny, src_maxy)> and
	162	overlays it at (I<tx>,I<ty>) on the image object.
	163
	164	The alpha channel of each pixel in I<src> is used to control how much
	165	the existing colour in I<im> is replaced, if it is 255 then the colour
	166	is completely replaced, if it is 0 then the original colour is left
	167	unmodified.
	168
	169	=cut
	170	*/
	171
	172	int
	173	i_rubthru(i_img im, i_img src, int tx, int ty, int src_minx, int src_miny,
	174	int src_maxx, int src_maxy) {
9b1ec2b8 TC	175	if (src_minx < 0) {
	176	tx -= src_minx;
	177	src_minx = 0;
	178	}
	179	if (src_miny < 0) {
	180	ty -= src_miny;
	181	src_miny = 0;
	182	}
	183	if (tx < 0) {
	184	src_minx -= tx;
	185	tx = 0;
	186	}
	187	if (ty < 0) {
	188	src_miny -= ty;
	189	ty = 0;
	190	}
	191	if (src_maxx > src->xsize) {
	192	src_maxx = src->xsize;
	193	}
	194	if (src_maxy > src->ysize) {
	195	src_maxy = src->ysize;
	196	}
	197	if (tx >= im->xsize \|\| ty >= im->ysize
	198	\|\| src_minx >= src_maxx \|\| src_miny >= src_maxy) {
	199	i_clear_error();
	200	i_push_error(0, "rubthrough: nothing to do");
	201	return 0;
	202	}
	203
fe415ad2 TC	204	if (im->channels == 1 \|\| im->channels == 3)
	205	return rubthru_targ_noalpha(im, src, tx, ty, src_minx, src_miny,
	206	src_maxx, src_maxy);
	207	else
	208	return rubthru_targ_alpha(im, src, tx, ty, src_minx, src_miny,
	209	src_maxx, src_maxy);
	210	}