gimp/plug-ins/common/animoptimize.c

/*
 * Animation Optimizer plug-in version 1.0.0
 *
 * by Adam D. Moss, 1997-98
 *     adam@gimp.org
 *     adam@foxbox.org
 *
 * This is part of the GIMP package and falls under the GPL.
 */

/*
 * REVISION HISTORY:
 *
 * 98.05.17 : version 1.0.0
 *            Finally preserves frame timings / layer names.  Has
 *            a progress bar now.  No longer beta, I suppose.
 *
 * 98.04.19 : version 0.70.0
 *            Plug-in doubles up as Animation UnOptimize too!  (This
 *            is somewhat more useful than it sounds.)
 *
 * 98.03.16 : version 0.61.0
 *            Support more rare opaque/transparent combinations.
 *
 * 97.12.09 : version 0.60.0
 *            Added support for INDEXED* and GRAY* images.
 *
 * 97.12.09 : version 0.52.0
 *            Fixed some bugs.
 *
 * 97.12.08 : version 0.51.0
 *            Relaxed bounding box on optimized layers marked
 *            'replace'.
 *
 * 97.12.07 : version 0.50.0
 *            Initial release.
 */

/*
 * BUGS:
 *  ?
 */

/*
 * TODO:
 *   User interface
 *   PDB interface
 */

#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <ctype.h>
#include "config.h"
#include "libgimp/gimp.h"
#include "libgimp/stdplugins-intl.h"



typedef enum
{
  DISPOSE_UNDEFINED = 0x00,
  DISPOSE_COMBINE   = 0x01,
  DISPOSE_REPLACE   = 0x02
} DisposeType;



/* Declare local functions. */
static void query(void);
static void run(char *name,
		int nparams,
		GParam * param,
		int *nreturn_vals,
		GParam ** return_vals);

static      gint32 do_optimizations   (GRunModeType run_mode);
/*static         int parse_ms_tag       (char *str);*/
static DisposeType parse_disposal_tag (char *str);

static DisposeType  get_frame_disposal  (guint whichframe);


GPlugInInfo PLUG_IN_INFO =
{
  NULL,  /* init_proc */
  NULL,  /* quit_proc */
  query, /* query_proc */
  run,   /* run_proc */
};




/* Global widgets'n'stuff */
guint      width,height;
gint32     image_id;
gint32     new_image_id;
gint32     total_frames;
guint      frame_number;
gint32*    layers;
GDrawable* drawable;
gboolean   playing = FALSE;
GImageType imagetype;
GDrawableType drawabletype_alpha;
guchar     pixelstep;
guchar*    palette;
gint       ncolours;
gboolean   optimize;



MAIN()

static void query()
{
  static GParamDef args[] =
  {
    {PARAM_INT32, "run_mode", "Interactive, non-interactive"},
    {PARAM_IMAGE, "image", "Input image"},
    {PARAM_DRAWABLE, "drawable", "Input drawable (unused)"},
  };
  static GParamDef return_args[] =
  {
    {PARAM_IMAGE, "result", "Resulting image"},
  };
  static int nargs = sizeof(args) / sizeof(args[0]);
  static int nreturn_args = sizeof(return_args) / sizeof(return_args[0]);

  INIT_I18N();

  gimp_install_procedure("plug_in_animationoptimize",
			 _("This plugin applies various optimizations to"
			 " a GIMP layer-based animation."),
			 "",
			 "Adam D. Moss <adam@gimp.org>",
			 "Adam D. Moss <adam@gimp.org>",
			 "1997-98",
			 N_("<Image>/Filters/Animation/Animation Optimize"),
			 "RGB*, INDEXED*, GRAY*",
			 PROC_PLUG_IN,
			 nargs, nreturn_args,
			 args, return_args);

  gimp_install_procedure("plug_in_animationunoptimize",
			 _("This plugin 'simplifies' a GIMP layer-based"
			 " animation that has been AnimationOptimized.  This"
			 " makes the animation much easier to work with if,"
			 " for example, the optimized version is all you"
			 " have."),
			 "",
			 "Adam D. Moss <adam@gimp.org>",
			 "Adam D. Moss <adam@gimp.org>",
			 "1997-98",
			 N_("<Image>/Filters/Animation/Animation UnOptimize"),
			 "RGB*, INDEXED*, GRAY*",
			 PROC_PLUG_IN,
			 nargs, nreturn_args,
			 args, return_args);
}

static void run(char *name, int n_params, GParam * param, int *nreturn_vals,
		GParam ** return_vals)
{
  static GParam values[2];
  GRunModeType run_mode;
  GStatusType status = STATUS_SUCCESS;

  *nreturn_vals = 2;
  *return_vals = values;

  run_mode = param[0].data.d_int32;
  
  if (run_mode == RUN_NONINTERACTIVE)
    {
      if (n_params != 3)
	{
	  status = STATUS_CALLING_ERROR;
	}
    }
    INIT_I18N();

  /* Check the procedure name we were called with, to decide
     what needs to be done. */
  if (strcmp(name,"plug_in_animationoptimize")==0)
    optimize = TRUE;
  else
    optimize = FALSE; /* UnOptimize */

  if (status == STATUS_SUCCESS)
    {
      image_id = param[1].data.d_image;
      
      new_image_id = do_optimizations(run_mode);
      
      if (run_mode != RUN_NONINTERACTIVE)
	gimp_displays_flush();
    }
  
  values[0].type = PARAM_STATUS;
  values[0].data.d_status = status;

  values[1].type = PARAM_IMAGE;
  values[1].data.d_image = new_image_id;
}



static DisposeType
parse_disposal_tag (gchar *str)
{
  gint offset = 0;
  gint length;

  length = strlen(str);

  while ((offset+9)<=length)
    {
      if (strncmp(&str[offset],"(combine)",9)==0) 
	return(DISPOSE_COMBINE);
      if (strncmp(&str[offset],"(replace)",9)==0) 
	return(DISPOSE_REPLACE);
      offset++;
    }

  return (DISPOSE_UNDEFINED); /* FIXME */
}



static gchar*
remove_disposal_tag (gchar* str)
{
  gchar* dest;
  gint offset = 0;
  gint destoffset = 0;
  gint length;

  length = strlen(str);
  dest = g_malloc(length+11);
  memset(dest, 0, length+11);

  strcpy(dest, str);

  while ((offset+9)<=length)
    {
      if (strncmp(&str[offset],"(combine)",9)==0) 
	{
	  offset+=9;
	}
      if (strncmp(&str[offset],"(replace)",9)==0) 
	{
	  offset+=9;
	}
      dest[destoffset] = str[offset];
      destoffset++;
      offset++;
    }

  return dest;
}



/* Rendering Functions */

static void
total_alpha(guchar* imdata, guint32 numpix, guchar bytespp)
{
  /* Set image to total-transparency w/black
   */

  memset(imdata, 0, numpix*bytespp);
}

static gint32
do_optimizations(GRunModeType run_mode)
{
  GPixelRgn pixel_rgn;
  static guchar* rawframe = NULL;
  static gint rawwidth=0, rawheight=0, rawbpp=0;
  gint rawx=0, rawy=0;
  guchar* srcptr;
  guchar* destptr;
  gint i,j,this_frame_num;
  guint32 frame_sizebytes;
  gint32 new_layer_id;
  DisposeType dispose;
  guchar* this_frame = NULL;
  guchar* last_frame = NULL;
  guchar* opti_frame = NULL;

  gchar* oldlayer_name;
  gchar* newlayer_name;
  
  gboolean can_combine;

  gint32 bbox_top, bbox_bottom, bbox_left, bbox_right;
  gint32 rbox_top, rbox_bottom, rbox_left, rbox_right;

  if (optimize)
    gimp_progress_init (_("Optimizing Animation..."));
  else
    gimp_progress_init (_("UnOptimizing Animation..."));

  width     = gimp_image_width(image_id);
  height    = gimp_image_height(image_id);
  layers    = gimp_image_get_layers (image_id, &total_frames);
  imagetype = gimp_image_base_type(image_id);
  pixelstep = (imagetype == RGB) ? 4 : 2;

  drawabletype_alpha = (imagetype == RGB) ? RGBA_IMAGE :
    ((imagetype == INDEXED) ? INDEXEDA_IMAGE : GRAYA_IMAGE);

  frame_sizebytes = width * height * pixelstep;

  this_frame = g_malloc(frame_sizebytes);
  last_frame = g_malloc(frame_sizebytes);
  opti_frame = g_malloc(frame_sizebytes);

  total_alpha(this_frame, width*height, pixelstep);
  total_alpha(last_frame, width*height, pixelstep);

  new_image_id = gimp_image_new(width, height, imagetype);

  if (imagetype == INDEXED)
    {
      palette = gimp_image_get_cmap(image_id, &ncolours);
      gimp_image_set_cmap(new_image_id, palette, ncolours);
    }

  if ( (this_frame == NULL) || (last_frame == NULL) || (opti_frame == NULL) )
    g_error(_("Not enough memory to allocate buffers for optimization.\n"));

  for (this_frame_num=0; this_frame_num<total_frames; this_frame_num++)
    {
      /*
       * We actually unoptimize the animation before re-optimizing it,
       *  otherwise the logic can get a bit too hard... for me.
       */

      /*
       *
       * BUILD THIS FRAME
       *
       */

      drawable = gimp_drawable_get (layers[total_frames-(this_frame_num+1)]);

      /* Image has been closed/etc since we got the layer list? */
      /* FIXME - How do we tell if a gimp_drawable_get() fails? */
      if (gimp_drawable_width(drawable->id)==0)
	{
	  gimp_quit();
	}

      dispose = get_frame_disposal(this_frame_num);

      if (dispose==DISPOSE_REPLACE)
	{
	  total_alpha(this_frame, width*height, pixelstep);
	}

      /* only get a new 'raw' drawable-data buffer if this and
	 the previous raw buffer were different sizes*/

      if ((rawwidth*rawheight*rawbpp)
	  !=
	  ((gimp_drawable_width(drawable->id)*
	    gimp_drawable_height(drawable->id)*
	    gimp_drawable_bpp(drawable->id))))
	{
	  if (rawframe != NULL) g_free(rawframe);
	  rawframe = g_malloc((gimp_drawable_width(drawable->id)) *
			      (gimp_drawable_height(drawable->id)) *
			      (gimp_drawable_bpp(drawable->id)));
	}
	
      rawwidth = gimp_drawable_width(drawable->id);
      rawheight = gimp_drawable_height(drawable->id);
      rawbpp = gimp_drawable_bpp(drawable->id);


      /* Initialise and fetch the whole raw new frame */

      gimp_pixel_rgn_init (&pixel_rgn,
			   drawable,
			   0, 0,
			   drawable->width, drawable->height,
			   FALSE,
			   FALSE);
      gimp_pixel_rgn_get_rect (&pixel_rgn,
			       rawframe,
			       0, 0,
			       drawable->width, drawable->height);
      /*  gimp_pixel_rgns_register (1, &pixel_rgn);*/

      gimp_drawable_offsets (drawable->id,
			     &rawx,
			     &rawy);


      /* render... */

      switch (imagetype)
	{
	case RGB:
	  if ((rawwidth==width) &&
	      (rawheight==height) &&
	      (rawx==0) &&
	      (rawy==0))
	    {
	      /* --- These cases are for the best cases,  in        --- */
	      /* --- which this frame is the same size and position --- */
	      /* --- as the preview buffer itself                   --- */
	  
	      if (gimp_drawable_has_alpha (drawable->id))
		{ /* alpha RGB, same size */
		  destptr = this_frame;
		  srcptr  = rawframe;
	      
		  i = rawwidth*rawheight;
		  while (--i)
		    {
		      if (!((*(srcptr+3))&128))
			{
			  srcptr  += 4;
			  destptr += 4;
			  continue;
			}
		      *(destptr++) = *(srcptr++);
			  *(destptr++) = *(srcptr++);
			  *(destptr++) = *(srcptr++);
			  *(destptr++) = 255;
			  srcptr++;
		    }
		}
	      else /* RGB no alpha, same size */
		{
		  destptr = this_frame;
		  srcptr  = rawframe;
	      
		  i = rawwidth*rawheight;
		  while (--i)
		    {
		      *(destptr++) = *(srcptr++);
		      *(destptr++) = *(srcptr++);
		      *(destptr++) = *(srcptr++);
		      *(destptr++) = 255;
		    }		  
		}
	    }
	  else
	    {
	      /* --- These are suboptimal catch-all cases for when  --- */
	      /* --- this frame is bigger/smaller than the preview  --- */
	      /* --- buffer, and/or offset within it.               --- */
	  
	      /* FIXME: FINISH ME! */
	  
	      if (gimp_drawable_has_alpha (drawable->id))
		{ /* RGB alpha, diff size */
	      
		  destptr = this_frame;
		  srcptr = rawframe;
	      
		  for (j=rawy; j<rawheight+rawy; j++)
		    {
		      for (i=rawx; i<rawwidth+rawx; i++)
			{
			  if ((i>=0 && i<width) &&
			      (j>=0 && j<height))
			    {
			      if ((*(srcptr+3))&128)
				{
				  this_frame[(j*width+i)*4   ] = *(srcptr);
				  this_frame[(j*width+i)*4 +1] = *(srcptr+1);
				  this_frame[(j*width+i)*4 +2] = *(srcptr+2);
				  this_frame[(j*width+i)*4 +3] = 255;
				}
			    }
		      
			  srcptr += 4;
			}
		    }
		}
	      else
		{
		  /* RGB no alpha, diff size */
	      
		  destptr = this_frame;
		  srcptr = rawframe;
	      
		  for (j=rawy; j<rawheight+rawy; j++)
		    {
		      for (i=rawx; i<rawwidth+rawx; i++)
			{
			  if ((i>=0 && i<width) &&
			      (j>=0 && j<height))
			    {
			      this_frame[(j*width+i)*4   ] = *(srcptr);
			      this_frame[(j*width+i)*4 +1] = *(srcptr+1);
			      this_frame[(j*width+i)*4 +2] = *(srcptr+2);
			      this_frame[(j*width+i)*4 +3] = 255;
			    }
		      
			  srcptr += 3;
			}
		    }
		}
	    }
	  break; /* case RGB */

	case GRAY:
	case INDEXED:
	  if ((rawwidth==width) &&
	      (rawheight==height) &&
	      (rawx==0) &&
	      (rawy==0))
	    {
	      /* --- These cases are for the best cases,  in        --- */
	      /* --- which this frame is the same size and position --- */
	      /* --- as the preview buffer itself                   --- */
	  
	      if (gimp_drawable_has_alpha (drawable->id))
		{ /* I alpha, same size */
		  destptr = this_frame;
		  srcptr  = rawframe;
	      
		  i = rawwidth*rawheight;
		  while (--i)
		    {
		      if (!(*(srcptr+1)))
			{
			  srcptr  += 2;
			  destptr += 2;
			  continue;
			}
		      *(destptr++) = *(srcptr);
			  *(destptr++) = 255;
			  srcptr+=2;
		    }
		}
	      else /* I, no alpha, same size */
		{
		  destptr = this_frame;
		  srcptr  = rawframe;
	      
		  i = rawwidth*rawheight;
		  while (--i)
		    {
		      *(destptr++) = *(srcptr);
		      *(destptr++) = 255;
		      srcptr++;
		    }
		}
	    }
	  else
	    {
	      /* --- These are suboptimal catch-all cases for when  --- */
	      /* --- this frame is bigger/smaller than the preview  --- */
	      /* --- buffer, and/or offset within it.               --- */
	  
	      /* FIXME: FINISH ME! */
	  
	      if (gimp_drawable_has_alpha (drawable->id))
		{ /* I alpha, diff size */
	      
		  srcptr = rawframe;
	      
		  for (j=rawy; j<rawheight+rawy; j++)
		    {
		      for (i=rawx; i<rawwidth+rawx; i++)
			{
			  if ((i>=0 && i<width) &&
			      (j>=0 && j<height))
			    {
			      if (*(srcptr+1))
				{
				  this_frame[(j*width+i)*pixelstep] =
				    *srcptr;
				  this_frame[(j*width+i)*pixelstep
					    + pixelstep - 1] =
				    255;
				}
			    }
		      
			  srcptr += 2;
			}
		    }
		}
	      else
		{
		  /* I, no alpha, diff size */
	      
		  srcptr = rawframe;
	      
		  for (j=rawy; j<rawheight+rawy; j++)
		    {
		      for (i=rawx; i<rawwidth+rawx; i++)
			{
			  if ((i>=0 && i<width) &&
			      (j>=0 && j<height))
			    {
			      this_frame[(j*width+i)*pixelstep]
				= *srcptr;
			      this_frame[(j*width+i)*pixelstep
					+ pixelstep - 1] = 255;
			    }
		      
			  srcptr ++;
			}
		    }
		}
	    }
	  break; /* case INDEXED/GRAY */

	}
  
      /* clean up */
      gimp_drawable_detach(drawable);



      can_combine = FALSE;
      bbox_left = 0;
      bbox_top = 0;
      bbox_right = width;
      bbox_bottom = height;
      rbox_left = 0;
      rbox_top = 0;
      rbox_right = width;
      rbox_bottom = height;
      /* copy 'this' frame into a buffer which we can safely molest */
      memcpy(opti_frame, this_frame, frame_sizebytes);
      /*
       *
       * OPTIMIZE HERE!
       *
       */
      if (
	  (this_frame_num != 0) /* Can't delta bottom frame! */
	  && (optimize)
	  )
	{
	  int xit, yit, byteit;

	  can_combine = TRUE;

	  /*
	   * SEARCH FOR BOUNDING BOX
	   */
	  bbox_left = width;
	  bbox_top = height;
	  bbox_right = 0;
	  bbox_bottom = 0;
	  rbox_left = width;
	  rbox_top = height;
	  rbox_right = 0;
	  rbox_bottom = 0;
	  
	  for (yit=0; yit<height; yit++)
	    {
	      for (xit=0; xit<width; xit++)
		{
		  gboolean keep_pix;
		  gboolean opaq_pix;
		  /* Check if 'this' and 'last' are transparent */
		  if (!(this_frame[yit*width*pixelstep + xit*pixelstep
				  + pixelstep-1]&128)
		      &&
		      !(last_frame[yit*width*pixelstep + xit*pixelstep
				  + pixelstep-1]&128))
		    {
		      keep_pix = FALSE;
		      opaq_pix = FALSE;
		      goto decided;
		    }
		  /* Check if just 'this' is transparent */
		  if ((last_frame[yit*width*pixelstep + xit*pixelstep
				 + pixelstep-1]&128)
		      &&
		      !(this_frame[yit*width*pixelstep + xit*pixelstep
				  + pixelstep-1]&128))
		    {
		      keep_pix = TRUE;
		      opaq_pix = FALSE;
		      can_combine = FALSE;
		      goto decided;
		    }
		  /* Check if just 'last' is transparent */
		  if (!(last_frame[yit*width*pixelstep + xit*pixelstep
				  + pixelstep-1]&128)
		      &&
		      (this_frame[yit*width*pixelstep + xit*pixelstep
				 + pixelstep-1]&128))
		    {
		      keep_pix = TRUE;
		      opaq_pix = TRUE;
		      goto decided;
		    }
		  /* If 'last' and 'this' are opaque, we have
		   *  to check if they're the same colour - we
		   *  only have to keep the pixel if 'last' or
		   *  'this' are opaque and different.
		   */
		  keep_pix = FALSE;
		  opaq_pix = TRUE;
		  for (byteit=0; byteit<pixelstep-1; byteit++)
		    {
		      if (last_frame[yit*width*pixelstep + xit*pixelstep
				    + byteit]
			  !=
			  this_frame[yit*width*pixelstep + xit*pixelstep
				    + byteit])
			{
			  keep_pix = TRUE;
			  goto decided;
			}			    
		    }
		decided:
		  if (opaq_pix)
		    {
		      if (xit<rbox_left) rbox_left=xit;
		      if (xit>rbox_right) rbox_right=xit;
		      if (yit<rbox_top) rbox_top=yit;
		      if (yit>rbox_bottom) rbox_bottom=yit;
		    }
		  if (keep_pix)
		    {
		      if (xit<bbox_left) bbox_left=xit;
		      if (xit>bbox_right) bbox_right=xit;
		      if (yit<bbox_top) bbox_top=yit;
		      if (yit>bbox_bottom) bbox_bottom=yit;
		    }
		  else
		    {
		      /* pixel didn't change this frame - make
		       *  it transparent in our optimized buffer!
		       */
		      opti_frame[yit*width*pixelstep + xit*pixelstep
				+ pixelstep-1] = 0;
		    }
		} /* xit */
	    } /* yit */

	  if (!can_combine)
	    {
	      bbox_left = rbox_left;
	      bbox_top = rbox_top;
	      bbox_right = rbox_right;
	      bbox_bottom = rbox_bottom;
	    }

	  bbox_right++;
	  bbox_bottom++;

	  /*
	   * Collapse opti_frame data down such that the data
	   *  which occupies the bounding box sits at the start
	   *  of the data (for convenience with ..set_rect()).
	   */
	  destptr = opti_frame;
	  /*
	   * If can_combine, then it's safe to use our optimized
	   *  alpha information.  Otherwise, an opaque pixel became
	   *  transparent this frame, and we'll have to use the
	   *  actual true frame's alpha.
	   */
	  if (can_combine)
	    srcptr = opti_frame;
	  else
	    srcptr = this_frame;
	  for (yit=bbox_top; yit<bbox_bottom; yit++)
	    {
	      for (xit=bbox_left; xit<bbox_right; xit++)
		{
		  for (byteit=0; byteit<pixelstep; byteit++)
		    {
		      *(destptr++) = srcptr[yit*pixelstep*width +
					   pixelstep*xit + byteit];
		    }
		}
	    }
	} /* !bot frame? */
      else
	{
	  memcpy(opti_frame, this_frame, frame_sizebytes);
	}

      /*
       *
       * REMEMBER THE ANIMATION STATUS TO DELTA AGAINST NEXT TIME
       *
       */
      memcpy(last_frame, this_frame, frame_sizebytes);

      
      /*
       *
       * PUT THIS FRAME INTO A NEW LAYER IN THE NEW IMAGE
       *
       */

      oldlayer_name =
	gimp_layer_get_name(layers[total_frames-(this_frame_num+1)]);
      newlayer_name = remove_disposal_tag(oldlayer_name);
      g_free(oldlayer_name);

      if (this_frame_num > 0)
	strcat(newlayer_name, can_combine?"(combine)":"(replace)");
  
      new_layer_id = gimp_layer_new(new_image_id,
				    newlayer_name,
				    bbox_right-bbox_left,
				    bbox_bottom-bbox_top,
				    drawabletype_alpha,
				    100.0,
				    NORMAL_MODE);
      g_free(newlayer_name);

      gimp_image_add_layer (new_image_id, new_layer_id, 0);

      drawable = gimp_drawable_get (new_layer_id);

      gimp_pixel_rgn_init (&pixel_rgn, drawable, 0, 0,
			   bbox_right-bbox_left,
			   bbox_bottom-bbox_top,
			   TRUE, FALSE);
      gimp_pixel_rgn_set_rect (&pixel_rgn, opti_frame, 0, 0,
			       bbox_right-bbox_left,
			       bbox_bottom-bbox_top);
      gimp_drawable_flush (drawable);
      gimp_drawable_detach (drawable);     
      gimp_layer_translate (new_layer_id, (gint)bbox_left, (gint)bbox_top);

      gimp_progress_update (((double)this_frame_num+1.0) /
			    ((double)total_frames));
    }

    if (run_mode != RUN_NONINTERACTIVE)
       gimp_display_new (new_image_id);

  g_free(rawframe);
  rawframe = NULL;
  g_free(last_frame);
  last_frame = NULL;
  g_free(this_frame);
  this_frame = NULL;
  g_free(opti_frame);
  opti_frame = NULL;

  return new_image_id;
}




/* Util. */

static DisposeType
get_frame_disposal (guint whichframe)
{
  gchar* layer_name;
  DisposeType disposal;
  
  layer_name = gimp_layer_get_name(layers[total_frames-(whichframe+1)]);
  disposal = parse_disposal_tag(layer_name);
  g_free(layer_name);

  return(disposal);
}