C++ (Cpp) gegl_node Exemples

Exemple #1

Fichier : bcontrast.c Projet : ChristianBusch/gegl

gint
main (gint    argc,
      gchar **argv)
{
  GeglBuffer *buffer, *buffer2;
  GeglNode   *gegl, *sink;
  gint i;

  gegl_init (&argc, &argv);

  buffer = test_buffer (1024, 1024, babl_format ("RGBA float"));

#define ITERATIONS 8
  test_start ();
  for (i=0;i< ITERATIONS;i++)
    {
      gegl = gegl_graph (sink = gegl_node ("gegl:buffer-sink", "buffer", &buffer2, NULL,
                                gegl_node ("gegl:brightness-contrast", "contrast", 0.2, NULL,
                                gegl_node ("gegl:buffer-source", "buffer", buffer, NULL))));

      gegl_node_process (sink);
      g_object_unref (gegl);
      g_object_unref (buffer2);
    }
  test_end ("bcontrast", gegl_buffer_get_pixel_count (buffer) * 16 * ITERATIONS);

  return 0;
}

Exemple #2

Fichier : magick-load.c Projet : don-mccomb/gegl

static void
load_cache (GeglProperties *op_magick_load)
{
  if (!op_magick_load->user_data)
    {
      gchar    *filename;
      gchar    *cmd;
      GeglNode *graph, *sink;
      GeglBuffer *newbuf = NULL;

      /* ImageMagick backed fallback FIXME: make this robust.
       * maybe use pipes in a manner similar to the raw loader,
       * or at least use a properly unique filename  */

      filename = g_build_filename (g_get_tmp_dir (), "gegl-magick.png", NULL);
      cmd = g_strdup_printf ("convert \"%s\"'[0]' \"%s\"",
                             op_magick_load->path, filename);
      if (system (cmd) == -1)
        g_warning ("Error executing ImageMagick convert program");

      graph = gegl_graph (sink=gegl_node ("gegl:buffer-sink", "buffer", &newbuf, NULL,
                                          gegl_node ("gegl:png-load", "path", filename, NULL)));
      gegl_node_process (sink);
      op_magick_load->user_data = (gpointer) newbuf;
      g_object_unref (graph);
      g_free (cmd);
      g_free (filename);
    }
}

Exemple #3

Fichier : gegl-gtk-view.c Projet : karanchahal/gnome-photos

GeglGtkView *
gegl_gtk_view_new_for_buffer(GeglBuffer *buffer)
{
    GeglNode *node = gegl_node("gegl:buffer-source",
                     "buffer", buffer, NULL);
    return gegl_gtk_view_new_for_node(node);
}

Exemple #4

Fichier : csugar.c Projet : AjayRamanathan/gegl

gint
main (gint argc,
      gchar **argv)
{
  GeglNode *gegl, *sink;

  if (argc != 4)
    {
      g_print ("Usage: %s <input image> \"string\" <output image>\n\n", argv[0]);
      return -1;
    }

  g_thread_init (NULL);
  gegl_init (&argc, &argv);

  gegl =
    gegl_graph (
    sink = gegl_node ("gegl:png-save", "path", argv[3], NULL,
    gegl_node   ("gegl:over", NULL,
      gegl_node ("gegl:scale",
                 "x", 0.4,
                 "y", 0.4,
                 NULL,
      gegl_node ("gegl:invert",
                 NULL,
      gegl_node ("gegl:load",
                 "path", argv[1],
                 NULL
    ))),
      gegl_node ("gegl:translate",
                 "x", 50.0,
                 "y", 50.0,
                 NULL,
      gegl_node ("gegl:dropshadow",
                 "opacity", 1.0,
                 "radius", 3.0,
                 "x", 3.0,
                 "y", 3.0,
                 NULL,
      gegl_node ("gegl:text",
                 "size", 40.0,
                 "font", "sans bold",
                 "string", argv[2],
                 "color", gegl_color_new("green"),
                 NULL
    ))))));

  gegl_node_process (sink);
  g_object_unref (gegl);
  gegl_exit ();
  return 0;
}

Exemple #5

Fichier : rotate.c Projet : ChristianBusch/gegl

gint
main (gint    argc,
      gchar **argv)
{
  GeglBuffer *buffer, *buffer2;
  GeglNode   *gegl, *sink;

  gegl_init (&argc, &argv);

  buffer = test_buffer (1024, 1024, babl_format ("RGBA float"));

  gegl = gegl_graph (sink = gegl_node ("gegl:buffer-sink", "buffer", &buffer2, NULL,
                            gegl_node ("gegl:rotate", "degrees", 4.0, NULL,
                            gegl_node ("gegl:buffer-source", "buffer", buffer, NULL))));

  test_start ();
  gegl_node_process (sink);
  test_end ("rotate",  gegl_buffer_get_pixel_count (buffer) * 16);

  g_object_unref (gegl);

  return 0;
}

Exemple #6

Fichier : img_cmp.c Projet : AjayRamanathan/gegl

gint
main (gint    argc,
      gchar **argv)
{
  GeglBuffer *bufferA = NULL;
  GeglBuffer *bufferB = NULL;
  GeglBuffer *debug_buf = NULL;

  g_thread_init (NULL);
  gegl_init (&argc, &argv);

  if (argc != 3)
    {
      g_print ("This is simple image difference detection tool for use in regression testing"
               "return message is non zero if images are different, if they are equal"
               "the output will contain the string identical.");
      g_print ("Usage: %s <imageA> <imageB>\n", argv[0]);
      return 1;
    }

  {
    GeglNode *graph, *sink;
    graph = gegl_graph (sink=gegl_node ("gegl:buffer-sink", "buffer", &bufferA, NULL,
                             gegl_node ("gegl:load", "path", argv[1], NULL)));
    gegl_node_process (sink);
    g_object_unref (graph);
    if (!bufferA)
      {
        g_printerr ("Failed to open %s\n", argv[1]);
        return 1;
      }

    graph = gegl_graph (sink=gegl_node ("gegl:buffer-sink", "buffer", &bufferB, NULL,
                             gegl_node ("gegl:load", "path", argv[2], NULL)));
    gegl_node_process (sink);
    g_object_unref (graph);
    if (!bufferB)
      {
        g_printerr ("Failed to open %s\n", argv[2]);
        return 1;
      }
  }

  if (gegl_buffer_get_width (bufferA) != gegl_buffer_get_width (bufferB) ||
      gegl_buffer_get_height (bufferA) != gegl_buffer_get_height (bufferB))
    {
      g_printerr ("%s and %s differ in size\n", argv[1], argv[2]);
      g_printerr ("  %ix%i vs %ix%i\n",
                  gegl_buffer_get_width (bufferA), gegl_buffer_get_height (bufferA),
                  gegl_buffer_get_width (bufferB), gegl_buffer_get_height (bufferB));
      return 1;
    }

  debug_buf = gegl_buffer_new (gegl_buffer_get_extent (bufferA), babl_format ("R'G'B' u8"));
  
   

  {
     gfloat *bufA, *bufB;
     gfloat *a, *b;
     guchar *debug, *d;
     gint   rowstrideA, rowstrideB, dRowstride;
     gint   pixels;
     gint   wrong_pixels=0;
     gint   i;
     gdouble diffsum = 0.0;
     gdouble max_diff = 0.0;

     pixels = gegl_buffer_get_pixel_count (bufferA);

     bufA = (void*)gegl_buffer_linear_open (bufferA, NULL, &rowstrideA,
                                            babl_format ("CIE Lab float"));
     bufB = (void*)gegl_buffer_linear_open (bufferB, NULL, &rowstrideB,
                                            babl_format ("CIE Lab float"));
     debug = (void*)gegl_buffer_linear_open (debug_buf, NULL, &dRowstride, babl_format ("R'G'B' u8"));

     a = bufA;
     b = bufB;
     d = debug;

     for (i=0;i<pixels;i++)
       {
         gdouble diff = sqrt ( SQR(a[0]-b[0])+
                               SQR(a[1]-b[1])+
                               SQR(a[2]-b[2])
                               /*+SQR(a[3]-b[3])*/);
         if (diff>=0.01)
           {
             wrong_pixels++;
             diffsum += diff;
             if (diff > max_diff)
               max_diff = diff;
             d[0]=(diff/100.0 * 255);
             d[1]=0;
             d[2]=a[0]/100.0*255;
           }
         else
           {
             d[0]=a[0]/100.0*255;
             d[1]=a[0]/100.0*255;
             d[2]=a[0]/100.0*255;
           }
         a+=3;
         b+=3;
         d+=3;
       }

     a = bufA;
     b = bufB;
     d = debug;

     if (wrong_pixels)
       for (i=0;i<pixels;i++)
         {
           gdouble diff = sqrt ( SQR(a[0]-b[0])+
                                 SQR(a[1]-b[1])+
                                 SQR(a[2]-b[2])
                                 /*+SQR(a[3]-b[3])*/);
           if (diff>=0.01)
             {
               d[0]=(100-a[0])/100.0*64+32;
               d[1]=(diff/max_diff * 255);
               d[2]=0;
             }
           else
             {
               d[0]=a[0]/100.0*255;
               d[1]=a[0]/100.0*255;
               d[2]=a[0]/100.0*255;
             }
           a+=3;
           b+=3;
           d+=3;
         }

     gegl_buffer_linear_close (bufferA, bufA);
     gegl_buffer_linear_close (bufferB, bufB);
     gegl_buffer_linear_close (debug_buf, debug);

     if (max_diff >= 0.1)
       {
         g_printerr ("%s and %s differ\n"
                     "  wrong pixels   : %i/%i (%2.2f%%)\n"
                     "  max Δe         : %2.3f\n"
                     "  avg Δe (wrong) : %2.3f(wrong) %2.3f(total)\n",
                     argv[1], argv[2],
                     wrong_pixels, pixels, (wrong_pixels*100.0/pixels),
                     max_diff,
                     diffsum/wrong_pixels,
                     diffsum/pixels);
         if (max_diff > 1.5 &&
             !strstr (argv[2], "broken"))
           {
             GeglNode *sink;
             gchar *debug_path = g_malloc (strlen (argv[2])+16);
             memcpy (debug_path, argv[2], strlen (argv[2])+1);
             memcpy (debug_path + strlen(argv[2])-4, "-diff.png", 11);
             gegl_graph (sink=gegl_node ("gegl:png-save",
                                 "path", debug_path, NULL,
                                 gegl_node ("gegl:buffer-source", "buffer", debug_buf, NULL)));
             gegl_node_process (sink);
             return 1;
           }
         if (strstr (argv[2], "broken"))
           g_print ("because the test is expected to fail ");
         else
           g_print ("because the error is small ");
         g_print ("we'll say ");
       }

  }

  g_print ("%s and %s are identical\n", argv[1], argv[2]);
  g_object_unref (debug_buf); 
  g_object_unref (bufferA); 
  g_object_unref (bufferB); 
  gegl_exit ();
  return 0;
}