gimp/plug-ins/file-dds/ddswrite.c

/*
 * DDS GIMP plugin
 *
 * Copyright (C) 2004-2012 Shawn Kirst <skirst@gmail.com>,
 * with parts (C) 2003 Arne Reuter <homepage@arnereuter.de> where specified.
 *
 * This program is free software; you can redistribute it and/or
 * modify it under the terms of the GNU General Public
 * License as published by the Free Software Foundation; either
 * version 2 of the License, or (at your option) any later version.
 *
 * This program is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
 * General Public License for more details.
 *
 * You should have received a copy of the GNU General Public License
 * along with this program; see the file COPYING.  If not, write to
 * the Free Software Foundation, 51 Franklin Street, Fifth Floor
 * Boston, MA 02110-1301, USA.
 */

#include "config.h"

#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <math.h>

#include <gtk/gtk.h>
#include <glib/gstdio.h>

#include <libgimp/gimp.h>
#include <libgimp/gimpui.h>

#include <libgimp/stdplugins-intl.h>

#include "ddsplugin.h"
#include "dds.h"
#include "dxt.h"
#include "mipmap.h"
#include "endian_rw.h"
#include "imath.h"
#include "color.h"


enum
{
  COMBO_VALUE,
  COMBO_STRING,
  COMBO_SENSITIVE
};


static gint       save_dialog          (gint32     image_id,
                                        gint32     drawable);
static void       save_dialog_response (GtkWidget *widget,
                                        gint       response_id,
                                        gpointer   data);
static gboolean   write_image          (FILE      *fp,
                                        gint32     image_id,
                                        gint32     drawable_id);


static gboolean runme = FALSE;

static const char *cubemap_face_names[4][6] =
{
  {
    "positive x", "negative x",
    "positive y", "negative y",
    "positive z", "negative z"
  },
  {
    "pos x", "neg x",
    "pos y", "neg y",
    "pos z", "neg z",
  },
  {
    "+x", "-x",
    "+y", "-y",
    "+z", "-z"
  },
  {
    "right", "left",
    "top", "bottom",
    "back", "front"
  }
};

static gint     cubemap_faces[6];
static gboolean is_cubemap            = FALSE;
static gboolean is_volume             = FALSE;
static gboolean is_array              = FALSE;
static gboolean is_mipmap_chain_valid = FALSE;

static GtkWidget *compress_opt;
static GtkWidget *format_opt;
static GtkWidget *mipmap_opt;
static GtkWidget *mipmap_filter_opt;
static GtkWidget *mipmap_wrap_opt;
static GtkWidget *srgb_chk;
static GtkWidget *gamma_chk;
static GtkWidget *gamma_spin;
static GtkWidget *pm_chk;
static GtkWidget *alpha_coverage_chk;
static GtkWidget *alpha_test_threshold_spin;

typedef struct string_value_s
{
  gint   value;
  gchar *string;
} string_value_t;

static string_value_t compression_strings[] =
{
  { DDS_COMPRESS_NONE,   "None" },
  { DDS_COMPRESS_BC1,    "BC1 / DXT1" },
  { DDS_COMPRESS_BC2,    "BC2 / DXT3" },
  { DDS_COMPRESS_BC3,    "BC3 / DXT5" },
  { DDS_COMPRESS_BC3N,   "BC3nm / DXT5nm" },
  { DDS_COMPRESS_BC4,    "BC4 / ATI1 (3Dc+)" },
  { DDS_COMPRESS_BC5,    "BC5 / ATI2 (3Dc)" },
  { DDS_COMPRESS_RXGB,   "RXGB (DXT5)" },
  { DDS_COMPRESS_AEXP,   "Alpha Exponent (DXT5)" },
  { DDS_COMPRESS_YCOCG,  "YCoCg (DXT5)" },
  { DDS_COMPRESS_YCOCGS, "YCoCg scaled (DXT5)" },
  { -1, 0}
};

static string_value_t format_strings[] =
{
  { DDS_FORMAT_DEFAULT, "Default" },
  { DDS_FORMAT_RGB8,    "RGB8" },
  { DDS_FORMAT_RGBA8,   "RGBA8" },
  { DDS_FORMAT_BGR8,    "BGR8" },
  { DDS_FORMAT_ABGR8,   "ABGR8" },
  { DDS_FORMAT_R5G6B5,  "R5G6B5" },
  { DDS_FORMAT_RGBA4,   "RGBA4" },
  { DDS_FORMAT_RGB5A1,  "RGB5A1" },
  { DDS_FORMAT_RGB10A2, "RGB10A2" },
  { DDS_FORMAT_R3G3B2,  "R3G3B2" },
  { DDS_FORMAT_A8,      "A8" },
  { DDS_FORMAT_L8,      "L8" },
  { DDS_FORMAT_L8A8,    "L8A8" },
  { DDS_FORMAT_AEXP,    "AExp" },
  { DDS_FORMAT_YCOCG,   "YCoCg" },
  { -1, 0}
};

static string_value_t mipmap_strings[] =
{
  { DDS_MIPMAP_NONE,     "No mipmaps" },
  { DDS_MIPMAP_GENERATE, "Generate mipmaps" },
  { DDS_MIPMAP_EXISTING, "Use existing mipmaps" },
  { -1, 0}
};

static string_value_t mipmap_filter_strings[] =
{
  { DDS_MIPMAP_FILTER_DEFAULT,   "Default" },
  { DDS_MIPMAP_FILTER_NEAREST,   "Nearest" },
  { DDS_MIPMAP_FILTER_BOX,       "Box" },
  { DDS_MIPMAP_FILTER_TRIANGLE,  "Triangle" },
  { DDS_MIPMAP_FILTER_QUADRATIC, "Quadratic" },
  { DDS_MIPMAP_FILTER_BSPLINE,   "B-Spline" },
  { DDS_MIPMAP_FILTER_MITCHELL,  "Mitchell" },
  { DDS_MIPMAP_FILTER_LANCZOS,   "Lanczos" },
  { DDS_MIPMAP_FILTER_KAISER,    "Kaiser" },
  { -1, 0}
};

static string_value_t mipmap_wrap_strings[] =
{
  { DDS_MIPMAP_WRAP_DEFAULT, "Default" },
  { DDS_MIPMAP_WRAP_MIRROR,  "Mirror" },
  { DDS_MIPMAP_WRAP_REPEAT,  "Repeat" },
  { DDS_MIPMAP_WRAP_CLAMP,   "Clamp" },
  { -1, 0}
};

static string_value_t save_type_strings[] =
{
  { DDS_SAVE_SELECTED_LAYER, "Image / Selected layer" },
  { DDS_SAVE_CUBEMAP,        "As cube map" },
  { DDS_SAVE_VOLUMEMAP,      "As volume map" },
  { DDS_SAVE_ARRAY,          "As texture array" },
  { -1, 0}
};

static struct
{
  int          format;
  DXGI_FORMAT  dxgi_format;
  int          bpp;
  int          alpha;
  unsigned int rmask;
  unsigned int gmask;
  unsigned int bmask;
  unsigned int amask;
} format_info[] =
{
  { DDS_FORMAT_RGB8,    DXGI_FORMAT_UNKNOWN,           3, 0, 0x00ff0000, 0x0000ff00, 0x000000ff, 0x00000000},
  { DDS_FORMAT_RGBA8,   DXGI_FORMAT_B8G8R8A8_UNORM,    4, 1, 0x00ff0000, 0x0000ff00, 0x000000ff, 0xff000000},
  { DDS_FORMAT_BGR8,    DXGI_FORMAT_UNKNOWN,           3, 0, 0x000000ff, 0x0000ff00, 0x00ff0000, 0x00000000},
  { DDS_FORMAT_ABGR8,   DXGI_FORMAT_R8G8B8A8_UNORM,    4, 1, 0x000000ff, 0x0000ff00, 0x00ff0000, 0xff000000},
  { DDS_FORMAT_R5G6B5,  DXGI_FORMAT_B5G6R5_UNORM,      2, 0, 0x0000f800, 0x000007e0, 0x0000001f, 0x00000000},
  { DDS_FORMAT_RGBA4,   DXGI_FORMAT_B4G4R4A4_UNORM,    2, 1, 0x00000f00, 0x000000f0, 0x0000000f, 0x0000f000},
  { DDS_FORMAT_RGB5A1,  DXGI_FORMAT_B5G5R5A1_UNORM,    2, 1, 0x00007c00, 0x000003e0, 0x0000001f, 0x00008000},
  { DDS_FORMAT_RGB10A2, DXGI_FORMAT_R10G10B10A2_UNORM, 4, 1, 0x000003ff, 0x000ffc00, 0x3ff00000, 0xc0000000},
  { DDS_FORMAT_R3G3B2,  DXGI_FORMAT_UNKNOWN,           1, 0, 0x000000e0, 0x0000001c, 0x00000003, 0x00000000},
  { DDS_FORMAT_A8,      DXGI_FORMAT_A8_UNORM,          1, 0, 0x00000000, 0x00000000, 0x00000000, 0x000000ff},
  { DDS_FORMAT_L8,      DXGI_FORMAT_R8_UNORM,          1, 0, 0x000000ff, 0x000000ff, 0x000000ff, 0x00000000},
  { DDS_FORMAT_L8A8,    DXGI_FORMAT_UNKNOWN,           2, 1, 0x000000ff, 0x000000ff, 0x000000ff, 0x0000ff00},
  { DDS_FORMAT_AEXP,    DXGI_FORMAT_B8G8R8A8_UNORM,    4, 1, 0x00ff0000, 0x0000ff00, 0x000000ff, 0xff000000},
  { DDS_FORMAT_YCOCG,   DXGI_FORMAT_B8G8R8A8_UNORM,    4, 1, 0x00ff0000, 0x0000ff00, 0x000000ff, 0xff000000}
};


static gboolean
check_mipmaps (gint32 image_id,
               gint   savetype)
{
  gint *layers;
  gint  num_layers;
  gint  i, j, w, h, mipw, miph;
  gint  num_mipmaps;
  gint  num_surfaces = 0;
  gint  min_surfaces = 1;
  gint  max_surfaces = 1;
  gboolean valid = TRUE;
  GimpImageType type;

  /* not handling volume maps for the moment... */
  if (savetype == DDS_SAVE_VOLUMEMAP)
    return 0;

  if (savetype == DDS_SAVE_CUBEMAP)
    {
      min_surfaces = 6;
      max_surfaces = 6;
    }
  else if (savetype == DDS_SAVE_ARRAY)
    {
      min_surfaces = 2;
      max_surfaces = INT_MAX;
    }

  layers = gimp_image_get_layers (image_id, &num_layers);

  w = gimp_image_width (image_id);
  h = gimp_image_height (image_id);

  num_mipmaps = get_num_mipmaps (w, h);

  type = gimp_drawable_type (layers[0]);

  for (i = 0; i < num_layers; ++i)
    {
      if (type != gimp_drawable_type (layers[i]))
        return 0;

      if ((gimp_drawable_width (layers[i])  == w) &&
          (gimp_drawable_height (layers[i]) == h))
        ++num_surfaces;
    }

  if ((num_surfaces < min_surfaces) ||
      (num_surfaces > max_surfaces) ||
      (num_layers != (num_surfaces * num_mipmaps)))
    return 0;

  for (i = 0; valid && i < num_layers; i += num_mipmaps)
    {
      if ((gimp_drawable_width (layers[i])  != w) ||
          (gimp_drawable_height (layers[i]) != h))
        {
          valid = FALSE;
          break;
        }

      for (j = 1; j < num_mipmaps; ++j)
        {
          mipw = w >> j;
          miph = h >> j;
          if (mipw < 1) mipw = 1;
          if (miph < 1) miph = 1;
          if ((gimp_drawable_width (layers[i + j])  != mipw) ||
              (gimp_drawable_height (layers[i + j]) != miph))
            {
              valid = FALSE;
              break;
            }
        }
    }

  return valid;
}

static gboolean
check_cubemap (gint32 image_id)
{
  gint *layers;
  gint  num_layers;
  gboolean cubemap = TRUE;
  gint i, j, k, w, h;
  gchar *layer_name;
  GimpImageType type;

  layers = gimp_image_get_layers (image_id, &num_layers);

  if (num_layers < 6)
    return FALSE;

  /* check for a valid cubemap with mipmap layers */
  if (num_layers > 6)
    {
      /* check that mipmap layers are in order for a cubemap */
      if (! check_mipmaps (image_id, DDS_SAVE_CUBEMAP))
        return FALSE;

      /* invalidate cubemap faces */
      for (i = 0; i < 6; ++i)
        cubemap_faces[i] = -1;

      /* find the mipmap level 0 layers */
      w = gimp_image_width (image_id);
      h = gimp_image_height (image_id);

      for (i = 0; i < num_layers; ++i)
        {
          if ((gimp_drawable_width (layers[i])  != w) ||
              (gimp_drawable_height (layers[i]) != h))
            continue;

          layer_name = (char*)gimp_item_get_name (layers[i]);
          for (j = 0; j < 6; ++j)
            {
              for (k = 0; k < 4; ++k)
                {
                  if (strstr (layer_name, cubemap_face_names[k][j]))
                    {
                      if (cubemap_faces[j] == -1)
                        {
                          cubemap_faces[j] = layers[i];
                          break;
                        }
                    }
                }
            }
        }

      /* check for 6 valid faces */
      for (i = 0; i < 6; ++i)
        {
          if (cubemap_faces[i] == -1)
            {
              cubemap = FALSE;
              break;
            }
        }

      /* make sure they are all the same type */
      if (cubemap)
        {
          type = gimp_drawable_type (cubemap_faces[0]);
          for (i = 1; i < 6 && cubemap; ++i)
            {
              if (gimp_drawable_type (cubemap_faces[i]) != type)
                cubemap = FALSE;
            }
        }
    }

  if (num_layers == 6)
    {
      /* invalidate cubemap faces */
      for (i = 0; i < 6; ++i)
        cubemap_faces[i] = -1;

      for (i = 0; i < 6; ++i)
        {
          layer_name = (char*)gimp_item_get_name (layers[i]);
          for (j = 0; j < 6; ++j)
            {
              for (k = 0; k < 4; ++k)
                {
                  if (strstr (layer_name, cubemap_face_names[k][j]))
                    {
                      if (cubemap_faces[j] == -1)
                        {
                          cubemap_faces[j] = layers[i];
                          break;
                        }
                    }
                }
            }
        }

      /* check for 6 valid faces */
      for (i = 0; i < 6; ++i)
        {
          if (cubemap_faces[i] == -1)
            {
              cubemap = FALSE;
              break;
            }
        }

      /* make sure they are all the same size */
      if (cubemap)
        {
          w = gimp_drawable_width (cubemap_faces[0]);
          h = gimp_drawable_height (cubemap_faces[0]);

          for (i = 1; i < 6 && cubemap; ++i)
            {
              if ((gimp_drawable_width (cubemap_faces[i])  != w) ||
                  (gimp_drawable_height (cubemap_faces[i]) != h))
                cubemap = FALSE;
            }
        }

      /* make sure they are all the same type */
      if (cubemap)
        {
          type = gimp_drawable_type (cubemap_faces[0]);
          for (i = 1; i < 6 && cubemap; ++i)
            {
              if (gimp_drawable_type (cubemap_faces[i]) != type)
                cubemap = FALSE;
            }
        }
    }

  return FALSE;
}

static gboolean
check_volume (gint32 image_id)
{
  gint *layers;
  gint  num_layers;
  gboolean volume = FALSE;
  gint i, w, h;
  GimpImageType type;

  layers = gimp_image_get_layers (image_id, &num_layers);

  if (num_layers > 1)
    {
      volume = TRUE;

      /* make sure all layers are the same size */
      w = gimp_drawable_width (layers[0]);
      h = gimp_drawable_height (layers[0]);

      for (i = 1; i < num_layers && volume; ++i)
        {
          if ((gimp_drawable_width (layers[i])  != w) ||
              (gimp_drawable_height (layers[i]) != h))
            volume = FALSE;
        }

      if (volume)
        {
          /* make sure all layers are the same type */
          type = gimp_drawable_type (layers[0]);
          for (i = 1; i < num_layers && volume; ++i)
            {
              if (gimp_drawable_type (layers[i]) != type)
                volume = FALSE;
            }
        }
    }

  return volume;
}

static gboolean
check_array (gint32 image_id)
{
  gint *layers;
  gint  num_layers;
  gboolean array = FALSE;
  gint i, w, h;
  GimpImageType type;

  if (check_mipmaps (image_id, DDS_SAVE_ARRAY))
    return 1;

  layers = gimp_image_get_layers (image_id, &num_layers);

  if (num_layers > 1)
    {
      array = TRUE;

      /* make sure all layers are the same size */
      w = gimp_drawable_width (layers[0]);
      h = gimp_drawable_height (layers[0]);

      for (i = 1; i < num_layers && array; ++i)
        {
          if ((gimp_drawable_width (layers[i])  != w) ||
              (gimp_drawable_height (layers[i]) != h))
            array = FALSE;
        }

      if (array)
        {
          /* make sure all layers are the same type */
          type = gimp_drawable_type (layers[0]);
          for (i = 1; i < num_layers; ++i)
            {
              if (gimp_drawable_type (layers[i]) != type)
                {
                  array = FALSE;
                  break;
                }
            }
        }
    }

  return array;
}

static int
get_array_size (gint32 image_id)
{
  gint *layers;
  gint  num_layers;
  gint i, w, h;
  gint elements = 0;

  layers = gimp_image_get_layers (image_id, &num_layers);

  w = gimp_image_width (image_id);
  h = gimp_image_height (image_id);

  for (i = 0; i < num_layers; ++i)
    {
      if ((gimp_drawable_width  (layers[i]) == w) &&
          (gimp_drawable_height (layers[i]) == h))
        {
          elements++;
        }
    }

  return elements;
}

GimpPDBStatusType
write_dds (gchar    *filename,
           gint32    image_id,
           gint32    drawable_id,
           gboolean  interactive_dds)
{
  FILE  *fp;
  gchar *tmp;
  int    rc = 0;

  is_mipmap_chain_valid = check_mipmaps (image_id, dds_write_vals.savetype);

  is_cubemap = check_cubemap (image_id);
  is_volume  = check_volume (image_id);
  is_array   = check_array (image_id);

  if (interactive_dds)
    {
      if (! is_mipmap_chain_valid &&
          dds_write_vals.mipmaps == DDS_MIPMAP_EXISTING)
        dds_write_vals.mipmaps = DDS_MIPMAP_NONE;

      if (! save_dialog (image_id, drawable_id))
        return GIMP_PDB_CANCEL;
    }
  else
    {
      if (dds_write_vals.savetype == DDS_SAVE_CUBEMAP && ! is_cubemap)
        {
          g_message ("DDS: Cannot save image as cube map");
          return GIMP_PDB_EXECUTION_ERROR;
        }

      if (dds_write_vals.savetype == DDS_SAVE_VOLUMEMAP && ! is_volume)
        {
          g_message ("DDS: Cannot save image as volume map");
          return GIMP_PDB_EXECUTION_ERROR;
        }

      if (dds_write_vals.savetype == DDS_SAVE_VOLUMEMAP &&
          dds_write_vals.compression != DDS_COMPRESS_NONE)
        {
          g_message ("DDS: Cannot save volume map with compression");
          return GIMP_PDB_EXECUTION_ERROR;
        }

      if (dds_write_vals.mipmaps == DDS_MIPMAP_EXISTING &&
          ! is_mipmap_chain_valid)
        {
          g_message ("DDS: Cannot save with existing mipmaps as the mipmap chain is incomplete");
          return GIMP_PDB_EXECUTION_ERROR;
        }
    }

  fp = g_fopen (filename, "wb");
  if (fp == 0)
    {
      g_message ("Error opening %s", filename);
      return GIMP_PDB_EXECUTION_ERROR;
    }

  if (strrchr (filename, '/'))
    tmp = g_strdup_printf ("Saving %s:", strrchr (filename, '/') + 1);
  else
    tmp = g_strdup_printf ("Saving %s:", filename);
  gimp_progress_init (tmp);
  g_free (tmp);

  rc = write_image (fp, image_id, drawable_id);

  fclose (fp);

  return rc ? GIMP_PDB_SUCCESS : GIMP_PDB_EXECUTION_ERROR;
}

static void
swap_rb (unsigned char *pixels,
         unsigned int   n,
         int            bpp)
{
  unsigned int i;
  unsigned char t;

  for (i = 0; i < n; ++i)
    {
      t = pixels[bpp * i + 0];
      pixels[bpp * i + 0] = pixels[bpp * i + 2];
      pixels[bpp * i + 2] = t;
    }
}

static void
alpha_exp (unsigned char *dst,
           int            r,
           int            g,
           int            b,
           int            a)
{
  float ar, ag, ab, aa;

  ar = (float)r / 255.0f;
  ag = (float)g / 255.0f;
  ab = (float)b / 255.0f;

  aa = MAX (ar, MAX (ag, ab));

  if (aa < 1e-04f)
    {
      dst[0] = b;
      dst[1] = g;
      dst[2] = r;
      dst[3] = 255;
      return;
    }

  ar /= aa;
  ag /= aa;
  ab /= aa;

  r = (int)floorf (255.0f * ar + 0.5f);
  g = (int)floorf (255.0f * ag + 0.5f);
  b = (int)floorf (255.0f * ab + 0.5f);
  a = (int)floorf (255.0f * aa + 0.5f);

  dst[0] = MAX (0, MIN (255, b));
  dst[1] = MAX (0, MIN (255, g));
  dst[2] = MAX (0, MIN (255, r));
  dst[3] = MAX (0, MIN (255, a));
}

static void
convert_pixels (unsigned char *dst,
                unsigned char *src,
                int            format,
                int            w,
                int            h,
                int            d,
                int            bpp,
                unsigned char *palette,
                int            mipmaps)
{
  unsigned int i, num_pixels;
  unsigned char r, g, b, a;

  if (d > 0)
    num_pixels = get_volume_mipmapped_size (w, h, d, 1, 0, mipmaps, DDS_COMPRESS_NONE);
  else
    num_pixels = get_mipmapped_size (w, h, 1, 0, mipmaps, DDS_COMPRESS_NONE);

  for (i = 0; i < num_pixels; ++i)
    {
      if (bpp == 1)
        {
          if (palette)
            {
              r = palette[3 * src[i] + 0];
              g = palette[3 * src[i] + 1];
              b = palette[3 * src[i] + 2];
            }
          else
            r = g = b = src[i];

          if (format == DDS_FORMAT_A8)
            a = src[i];
          else
            a = 255;
        }
      else if (bpp == 2)
        {
          r = g = b = src[2 * i];
          a = src[2 * i + 1];
        }
      else if (bpp == 3)
        {
          b = src[3 * i + 0];
          g = src[3 * i + 1];
          r = src[3 * i + 2];
          a = 255;
        }
      else
        {
          b = src[4 * i + 0];
          g = src[4 * i + 1];
          r = src[4 * i + 2];
          a = src[4 * i + 3];
        }

      switch (format)
        {
        case DDS_FORMAT_RGB8:
          dst[3 * i + 0] = b;
          dst[3 * i + 1] = g;
          dst[3 * i + 2] = r;
          break;
        case DDS_FORMAT_RGBA8:
          dst[4 * i + 0] = b;
          dst[4 * i + 1] = g;
          dst[4 * i + 2] = r;
          dst[4 * i + 3] = a;
          break;
        case DDS_FORMAT_BGR8:
          dst[3 * i + 0] = r;
          dst[3 * i + 1] = g;
          dst[3 * i + 2] = b;
          break;
        case DDS_FORMAT_ABGR8:
          dst[4 * i + 0] = r;
          dst[4 * i + 1] = g;
          dst[4 * i + 2] = b;
          dst[4 * i + 3] = a;
          break;
        case DDS_FORMAT_R5G6B5:
          PUTL16(&dst[2 * i], pack_r5g6b5(r, g, b));
          break;
        case DDS_FORMAT_RGBA4:
          PUTL16(&dst[2 * i], pack_rgba4(r, g, b, a));
          break;
        case DDS_FORMAT_RGB5A1:
          PUTL16(&dst[2 * i], pack_rgb5a1(r, g, b, a));
          break;
        case DDS_FORMAT_RGB10A2:
          PUTL32(&dst[4 * i], pack_rgb10a2(r, g, b, a));
          break;
        case DDS_FORMAT_R3G3B2:
          dst[i] = pack_r3g3b2(r, g, b);
          break;
        case DDS_FORMAT_A8:
          dst[i] = a;
          break;
        case DDS_FORMAT_L8:
          dst[i] = rgb_to_luminance (r, g, b);
          break;
        case DDS_FORMAT_L8A8:
          dst[2 * i + 0] = rgb_to_luminance (r, g, b);
          dst[2 * i + 1] = a;
          break;
        case DDS_FORMAT_YCOCG:
          dst[4 * i] = a;
          RGB_to_YCoCg (&dst[4 * i], r, g, b);
          break;
        case DDS_FORMAT_AEXP:
          alpha_exp (&dst[4 * i], r, g, b, a);
          break;
        default:
          break;
        }
    }
}

static void
get_mipmap_chain (unsigned char *dst,
                  int            w,
                  int            h,
                  int            bpp,
                  gint32         image_id,
                  gint           drawable_id)
{
  gint *layers, num_layers;
  GeglBuffer *buffer;
  const Babl *format = 0;
  int i, idx = 0, offset, mipw, miph;

  if (bpp == 1)
    format = babl_format ("Y' u8");
  else if (bpp == 2)
    format = babl_format ("Y'A u8");
  else if (bpp == 3)
    format = babl_format ("R'G'B' u8");
  else
    format = babl_format ("R'G'B'A u8");

  layers = gimp_image_get_layers (image_id, &num_layers);

  for (i = 0; i < num_layers; ++i)
    {
      if (layers[i] == drawable_id)
        {
          idx = i;
          break;
        }
    }

  if (i == num_layers) return;

  offset = 0;

  while (get_next_mipmap_dimensions (&mipw, &miph, w, h))
    {
      buffer = gimp_drawable_get_buffer (layers[++idx]);

      if ((gegl_buffer_get_width (buffer)  != mipw) ||
          (gegl_buffer_get_height (buffer) != miph))
        {
          g_object_unref (buffer);
          return;
        }

      gegl_buffer_get (buffer, GEGL_RECTANGLE (0, 0, mipw, miph), 1.0, format,
                       dst + offset, GEGL_AUTO_ROWSTRIDE, GEGL_ABYSS_NONE);
      g_object_unref (buffer);

      /* we need BGRX or BGRA */
      if (bpp >= 3)
        swap_rb (dst + offset, mipw * miph, bpp);

      offset += (mipw * miph * bpp);
      w = mipw;
      h = miph;
    }
}

static void
write_layer (FILE   *fp,
             gint32  image_id,
             gint32  drawable_id,
             int     w,
             int     h,
             int     bpp,
             int     fmtbpp,
             int     mipmaps)
{
  GeglBuffer *buffer;
  const Babl *format = 0;
  GimpImageBaseType basetype;
  GimpImageType type;
  unsigned char *src, *dst, *fmtdst, *tmp;
  unsigned char *palette = NULL;
  int i, c, x, y, size, fmtsize, offset, colors;
  int compression = dds_write_vals.compression;
  int flags = 0;

  basetype = gimp_image_base_type (image_id);
  type = gimp_drawable_type (drawable_id);

  buffer = gimp_drawable_get_buffer (drawable_id);

  src = g_malloc (w * h * bpp);

  if (bpp == 1)
    format = babl_format ("Y' u8");
  else if (bpp == 2)
    format = babl_format ("Y'A u8");
  else if (bpp == 3)
    format = babl_format ("R'G'B' u8");
  else
    format = babl_format ("R'G'B'A u8");

  gegl_buffer_get (buffer, GEGL_RECTANGLE (0, 0, w, h), 1.0, format, src,
                   GEGL_AUTO_ROWSTRIDE, GEGL_ABYSS_NONE);

  if (basetype == GIMP_INDEXED)
    {
      palette = gimp_image_get_colormap (image_id, &colors);

      if (type == GIMP_INDEXEDA_IMAGE)
        {
          tmp = g_malloc (w * h);
          for (i = 0; i < w * h; ++i)
            tmp[i] = src[2 * i];
          g_free (src);
          src = tmp;
          bpp = 1;
        }
    }

  /* we want and assume BGRA ordered pixels for bpp >= 3 from here and
     onwards */
  if (bpp >= 3)
    swap_rb (src, w * h, bpp);

  if (compression == DDS_COMPRESS_BC3N)
    {
      if (bpp != 4)
        {
          fmtsize = w * h * 4;
          fmtdst = g_malloc (fmtsize);
          convert_pixels (fmtdst, src, DDS_FORMAT_RGBA8, w, h, 0, bpp,
                          palette, 1);
          g_free (src);
          src = fmtdst;
          bpp = 4;
        }

      for (y = 0; y < h; ++y)
        {
          for (x = 0; x < w; ++x)
            {
              /* set alpha to red (x) */
              src[y * (w * 4) + (x * 4) + 3] =
                src[y * (w * 4) + (x * 4) + 2];
              /* set red to 1 */
              src[y * (w * 4) + (x * 4) + 2] = 255;
            }
        }
    }

  /* RXGB (Doom3) */
  if (compression == DDS_COMPRESS_RXGB)
    {
      if (bpp != 4)
        {
          fmtsize = w * h * 4;
          fmtdst = g_malloc (fmtsize);
          convert_pixels (fmtdst, src, DDS_FORMAT_RGBA8, w, h, 0, bpp,
                          palette, 1);
          g_free (src);
          src = fmtdst;
          bpp = 4;
        }

      for (y = 0; y < h; ++y)
        {
          for (x = 0; x < w; ++x)
            {
              /* swap red and alpha */
              c = src[y * (w * 4) + (x * 4) + 3];
              src[y * (w * 4) + (x * 4) + 3] =
                src[y * (w * 4) + (x * 4) + 2];
              src[y * (w * 4) + (x * 4) + 2] = c;
            }
        }
    }

  if (compression == DDS_COMPRESS_YCOCG ||
      compression == DDS_COMPRESS_YCOCGS) /* convert to YCoCG */
    {
      fmtsize = w * h * 4;
      fmtdst = g_malloc (fmtsize);
      convert_pixels (fmtdst, src, DDS_FORMAT_YCOCG, w, h, 0, bpp,
                      palette, 1);
      g_free (src);
      src = fmtdst;
      bpp = 4;
    }

  if (compression == DDS_COMPRESS_AEXP)
    {
      fmtsize = w * h * 4;
      fmtdst = g_malloc (fmtsize);
      convert_pixels (fmtdst, src, DDS_FORMAT_AEXP, w, h, 0, bpp,
                      palette, 1);
      g_free (src);
      src = fmtdst;
      bpp = 4;
    }

  if (compression == DDS_COMPRESS_NONE)
    {
      if (mipmaps > 1)
        {
          /* pre-convert indexed images to RGB for better quality mipmaps
             if a pixel format conversion is requested */
          if (dds_write_vals.format > DDS_FORMAT_DEFAULT && basetype == GIMP_INDEXED)
            {
              fmtsize = get_mipmapped_size (w, h, 3, 0, mipmaps, DDS_COMPRESS_NONE);
              fmtdst = g_malloc (fmtsize);
              convert_pixels (fmtdst, src, DDS_FORMAT_RGB8, w, h, 0, bpp,
                              palette, 1);
              g_free (src);
              src = fmtdst;
              bpp = 3;
              palette = NULL;
            }

          size = get_mipmapped_size (w, h, bpp, 0, mipmaps, DDS_COMPRESS_NONE);
          dst = g_malloc (size);
          if (dds_write_vals.mipmaps == DDS_MIPMAP_GENERATE)
            {
              generate_mipmaps (dst, src, w, h, bpp, palette != NULL,
                                mipmaps,
                                dds_write_vals.mipmap_filter,
                                dds_write_vals.mipmap_wrap,
                                dds_write_vals.gamma_correct + dds_write_vals.srgb,
                                dds_write_vals.gamma,
                                dds_write_vals.preserve_alpha_coverage,
                                dds_write_vals.alpha_test_threshold);
            }
          else
            {
              memcpy (dst, src, w * h * bpp);
              get_mipmap_chain (dst + (w * h * bpp), w, h, bpp, image_id, drawable_id);
            }

          if (dds_write_vals.format > DDS_FORMAT_DEFAULT)
            {
              fmtsize = get_mipmapped_size (w, h, fmtbpp, 0, mipmaps,
                                            DDS_COMPRESS_NONE);
              fmtdst = g_malloc (fmtsize);

              convert_pixels (fmtdst, dst, dds_write_vals.format, w, h, 0, bpp,
                              palette, mipmaps);

              g_free (dst);
              dst = fmtdst;
              bpp = fmtbpp;
            }

          offset = 0;

          for (i = 0; i < mipmaps; ++i)
            {
              size = get_mipmapped_size (w, h, bpp, i, 1, DDS_COMPRESS_NONE);
              fwrite (dst + offset, 1, size, fp);
              offset += size;
            }

          g_free (dst);
        }
      else
        {
          if (dds_write_vals.format > DDS_FORMAT_DEFAULT)
            {
              fmtdst = g_malloc (h * w * fmtbpp);
              convert_pixels (fmtdst, src, dds_write_vals.format, w, h, 0, bpp,
                              palette, 1);
              g_free (src);
              src = fmtdst;
              bpp = fmtbpp;
            }

          fwrite (src, 1, h * w * bpp, fp);
        }
    }
  else
    {
      size = get_mipmapped_size (w, h, bpp, 0, mipmaps, compression);

      dst = g_malloc (size);

      if (basetype == GIMP_INDEXED)
        {
          fmtsize = get_mipmapped_size (w, h, 3, 0, mipmaps,
                                        DDS_COMPRESS_NONE);
          fmtdst = g_malloc (fmtsize);
          convert_pixels (fmtdst, src, DDS_FORMAT_RGB8, w, h, 0, bpp,
                          palette, mipmaps);
          g_free (src);
          src = fmtdst;
          bpp = 3;
        }

      if (mipmaps > 1)
        {
          fmtsize = get_mipmapped_size (w, h, bpp, 0, mipmaps,
                                        DDS_COMPRESS_NONE);
          fmtdst = g_malloc (fmtsize);
          if (dds_write_vals.mipmaps == DDS_MIPMAP_GENERATE)
            {
              generate_mipmaps (fmtdst, src, w, h, bpp, 0, mipmaps,
                                dds_write_vals.mipmap_filter,
                                dds_write_vals.mipmap_wrap,
                                dds_write_vals.gamma_correct + dds_write_vals.srgb,
                                dds_write_vals.gamma,
                                dds_write_vals.preserve_alpha_coverage,
                                dds_write_vals.alpha_test_threshold);
            }
          else
            {
              memcpy (fmtdst, src, w * h * bpp);
              get_mipmap_chain (fmtdst + (w * h * bpp), w, h, bpp, image_id, drawable_id);
            }

          g_free (src);
          src = fmtdst;
        }

      flags = 0;
      if (dds_write_vals.perceptual_metric) flags |= DXT_PERCEPTUAL;

      dxt_compress (dst, src, compression, w, h, bpp, mipmaps, flags);

      fwrite (dst, 1, size, fp);

      g_free (dst);
    }

  g_free (src);

  g_object_unref (buffer);
}

static void
write_volume_mipmaps (FILE   *fp,
                      gint32  image_id,
                      gint32 *layers,
                      int     w,
                      int     h,
                      int     d,
                      int     bpp,
                      int     fmtbpp,
                      int     mipmaps)
{
  int i, size, offset, colors;
  unsigned char *src, *dst, *tmp, *fmtdst;
  unsigned char *palette = 0;
  GeglBuffer *buffer;
  const Babl *format;
  GimpImageBaseType type;

  type = gimp_image_base_type (image_id);

  if (dds_write_vals.compression != DDS_COMPRESS_NONE) return;

  src = g_malloc (w * h * bpp * d);

  if (bpp == 1)
    format = babl_format ("Y' u8");
  else if (bpp == 2)
    format = babl_format ("Y'A u8");
  else if (bpp == 3)
    format = babl_format ("R'G'B' u8");
  else
    format = babl_format ("R'G'B'A u8");

  if (gimp_image_base_type (image_id) == GIMP_INDEXED)
    palette = gimp_image_get_colormap (image_id, &colors);

  offset = 0;
  for (i = 0; i < d; ++i)
    {
      buffer = gimp_drawable_get_buffer (layers[i]);
      gegl_buffer_get (buffer, GEGL_RECTANGLE (0, 0, w, h), 1.0, format,
                       src + offset, GEGL_AUTO_ROWSTRIDE, GEGL_ABYSS_NONE);
      offset += (w * h * bpp);
      g_object_unref (buffer);
    }

  if (gimp_drawable_type (layers[0]) == GIMP_INDEXEDA_IMAGE)
    {
      tmp = g_malloc (w * h * d);
      for (i = 0; i < w * h * d; ++i)
        tmp[i] = src[2 * i];
      g_free (src);
      src = tmp;
      bpp = 1;
    }

  /* we want and assume BGRA ordered pixels for bpp >= 3 from here and
     onwards */
  if (bpp >= 3)
    swap_rb (src, w * h * d, bpp);

  /* pre-convert indexed images to RGB for better mipmaps if a
     pixel format conversion is requested */
  if (dds_write_vals.format > DDS_FORMAT_DEFAULT && type == GIMP_INDEXED)
    {
      size = get_volume_mipmapped_size (w, h, d, 3, 0, mipmaps,
                                        DDS_COMPRESS_NONE);
      dst = g_malloc (size);
      convert_pixels (dst, src, DDS_FORMAT_RGB8, w, h, d, bpp, palette, 1);
      g_free (src);
      src = dst;
      bpp = 3;
      palette = NULL;
    }

  size = get_volume_mipmapped_size (w, h, d, bpp, 0, mipmaps,
                                    dds_write_vals.compression);

  dst = g_malloc (size);

  offset = get_volume_mipmapped_size (w, h, d, bpp, 0, 1,
                                      dds_write_vals.compression);

  generate_volume_mipmaps (dst, src, w, h, d, bpp,
                           palette != NULL, mipmaps,
                           dds_write_vals.mipmap_filter,
                           dds_write_vals.mipmap_wrap,
                           dds_write_vals.gamma_correct + dds_write_vals.srgb,
                           dds_write_vals.gamma);

  if (dds_write_vals.format > DDS_FORMAT_DEFAULT)
    {
      size = get_volume_mipmapped_size (w, h, d, fmtbpp, 0, mipmaps,
                                        dds_write_vals.compression);
      offset = get_volume_mipmapped_size (w, h, d, fmtbpp, 0, 1,
                                          dds_write_vals.compression);
      fmtdst = g_malloc (size);

      convert_pixels (fmtdst, dst, dds_write_vals.format, w, h, d, bpp,
                      palette, mipmaps);
      g_free (dst);
      dst = fmtdst;
    }

  fwrite (dst + offset, 1, size, fp);

  g_free (src);
  g_free (dst);
}

static gboolean
write_image (FILE   *fp,
             gint32  image_id,
             gint32  drawable_id)
{
  GimpImageType drawable_type;
  GimpImageBaseType basetype;
  gint i, w, h;
  gint bpp = 0;
  gint fmtbpp = 0;
  gint has_alpha = 0;
  gint num_mipmaps;
  guchar hdr[DDS_HEADERSIZE];
  guchar hdr10[DDS_HEADERSIZE_DX10];
  guint flags = 0, pflags = 0, caps = 0, caps2 = 0, size = 0;
  guint rmask = 0, gmask = 0, bmask = 0, amask = 0;
  guint fourcc = 0;
  DXGI_FORMAT dxgi_format = DXGI_FORMAT_UNKNOWN;
  gint32  num_layers;
  gint32 *layers;
  guchar *cmap;
  gint    colors;
  guchar zero[4] = {0, 0, 0, 0};
  gint is_dx10 = 0;
  gint array_size = 1;

  layers = gimp_image_get_layers (image_id, &num_layers);

  if (dds_write_vals.mipmaps == DDS_MIPMAP_EXISTING)
    drawable_id = layers[0];

  if (dds_write_vals.savetype == DDS_SAVE_SELECTED_LAYER)
    {
      w = gimp_drawable_width (drawable_id);
      h = gimp_drawable_height (drawable_id);
    }
  else
    {
      w = gimp_image_width (image_id);
      h = gimp_image_height (image_id);
    }

  basetype = gimp_image_base_type (image_id);
  drawable_type = gimp_drawable_type (drawable_id);

  switch (drawable_type)
    {
    case GIMP_RGB_IMAGE:      bpp = 3; break;
    case GIMP_RGBA_IMAGE:     bpp = 4; break;
    case GIMP_GRAY_IMAGE:     bpp = 1; break;
    case GIMP_GRAYA_IMAGE:    bpp = 2; break;
    case GIMP_INDEXED_IMAGE:  bpp = 1; break;
    case GIMP_INDEXEDA_IMAGE: bpp = 2; break;
    default:
                              break;
    }

  if (dds_write_vals.format > DDS_FORMAT_DEFAULT)
    {
      for (i = 0; ; ++i)
        {
          if (format_info[i].format == dds_write_vals.format)
            {
              fmtbpp = format_info[i].bpp;
              has_alpha = format_info[i].alpha;
              rmask = format_info[i].rmask;
              gmask = format_info[i].gmask;
              bmask = format_info[i].bmask;
              amask = format_info[i].amask;
              dxgi_format = format_info[i].dxgi_format;
              break;
            }
        }
    }
  else if (bpp == 1)
    {
      if (basetype == GIMP_INDEXED)
        {
          fmtbpp = 1;
          has_alpha = 0;
          rmask = bmask = gmask = amask = 0;
        }
      else
        {
          fmtbpp = 1;
          has_alpha = 0;
          rmask = 0x000000ff;
          gmask = bmask = amask = 0;
          dxgi_format = DXGI_FORMAT_R8_UNORM;
        }
    }
  else if (bpp == 2)
    {
      if (basetype == GIMP_INDEXED)
        {
          fmtbpp = 1;
          has_alpha = 0;
          rmask = gmask = bmask = amask = 0;
        }
      else
        {
          fmtbpp = 2;
          has_alpha = 1;
          rmask = 0x000000ff;
          gmask = 0x000000ff;
          bmask = 0x000000ff;
          amask = 0x0000ff00;
        }
    }
  else if (bpp == 3)
    {
      fmtbpp = 3;
      rmask = 0x00ff0000;
      gmask = 0x0000ff00;
      bmask = 0x000000ff;
      amask = 0x00000000;
    }
  else
    {
      fmtbpp = 4;
      has_alpha = 1;
      rmask = 0x00ff0000;
      gmask = 0x0000ff00;
      bmask = 0x000000ff;
      amask = 0xff000000;
      dxgi_format = DXGI_FORMAT_B8G8R8A8_UNORM;
    }

  memset (hdr, 0, DDS_HEADERSIZE);

  PUTL32(hdr,       FOURCC ('D','D','S',' '));
  PUTL32(hdr + 4,   124);
  PUTL32(hdr + 12,  h);
  PUTL32(hdr + 16,  w);
  PUTL32(hdr + 76,  32);

  if (dds_write_vals.compression == DDS_COMPRESS_NONE)
    {
      PUTL32(hdr + 88,  fmtbpp << 3);
      PUTL32(hdr + 92,  rmask);
      PUTL32(hdr + 96,  gmask);
      PUTL32(hdr + 100, bmask);
      PUTL32(hdr + 104, amask);
    }

  /*
     put some information in the reserved area to identify the origin
     of the image
     */
  PUTL32(hdr + 32, FOURCC ('G','I','M','P'));
  PUTL32(hdr + 36, FOURCC ('-','D','D','S'));
  PUTL32(hdr + 40, DDS_PLUGIN_VERSION);

  flags = DDSD_CAPS | DDSD_PIXELFORMAT | DDSD_WIDTH | DDSD_HEIGHT;

  caps = DDSCAPS_TEXTURE;
  if (dds_write_vals.mipmaps)
    {
      flags |= DDSD_MIPMAPCOUNT;
      caps |= (DDSCAPS_COMPLEX | DDSCAPS_MIPMAP);
      num_mipmaps = get_num_mipmaps (w, h);
    }
  else
    {
      num_mipmaps = 1;
    }

  if ((dds_write_vals.savetype == DDS_SAVE_CUBEMAP) && is_cubemap)
    {
      caps |= DDSCAPS_COMPLEX;
      caps2 |= (DDSCAPS2_CUBEMAP | DDSCAPS2_CUBEMAP_ALL_FACES);
    }
  else if ((dds_write_vals.savetype == DDS_SAVE_VOLUMEMAP) && is_volume)
    {
      PUTL32(hdr + 24, num_layers); /* depth */
      flags |= DDSD_DEPTH;
      caps |= DDSCAPS_COMPLEX;
      caps2 |= DDSCAPS2_VOLUME;
    }

  PUTL32(hdr + 28,  num_mipmaps);
  PUTL32(hdr + 108, caps);
  PUTL32(hdr + 112, caps2);

  if (dds_write_vals.compression == DDS_COMPRESS_NONE)
    {
      flags |= DDSD_PITCH;

      if (dds_write_vals.format > DDS_FORMAT_DEFAULT)
        {
          if (dds_write_vals.format == DDS_FORMAT_A8)
            pflags |= DDPF_ALPHA;
          else
            {
              if (((fmtbpp == 1) || (dds_write_vals.format == DDS_FORMAT_L8A8)) &&
                  (dds_write_vals.format != DDS_FORMAT_R3G3B2))
                pflags |= DDPF_LUMINANCE;
              else
                pflags |= DDPF_RGB;
            }
        }
      else
        {
          if (bpp == 1)
            {
              if (basetype == GIMP_INDEXED)
                pflags |= DDPF_PALETTEINDEXED8;
              else
                pflags |= DDPF_LUMINANCE;
            }
          else if ((bpp == 2) && (basetype == GIMP_INDEXED))
            {
              pflags |= DDPF_PALETTEINDEXED8;
            }
          else
            {
              pflags |= DDPF_RGB;
            }
        }

      if (has_alpha)
        pflags |= DDPF_ALPHAPIXELS;

      PUTL32 (hdr + 8,  flags);
      PUTL32 (hdr + 20, w * fmtbpp); /* pitch */
      PUTL32 (hdr + 80, pflags);

      /*
       * write extra fourcc info - this is special to GIMP DDS. When the image
       * is read by the plugin, we can detect the added information to decode
       * the pixels
       */
      if (dds_write_vals.format == DDS_FORMAT_AEXP)
        {
          PUTL32 (hdr + 44, FOURCC ('A','E','X','P'));
        }
      else if (dds_write_vals.format == DDS_FORMAT_YCOCG)
        {
          PUTL32 (hdr + 44, FOURCC ('Y','C','G','1'));
        }
    }
  else
    {
      flags |= DDSD_LINEARSIZE;
      pflags = DDPF_FOURCC;

      switch (dds_write_vals.compression)
        {
        case DDS_COMPRESS_BC1:
          fourcc = FOURCC ('D','X','T','1');
          dxgi_format = DXGI_FORMAT_BC1_UNORM;
          break;

        case DDS_COMPRESS_BC2:
          fourcc = FOURCC ('D','X','T','3');
          dxgi_format = DXGI_FORMAT_BC2_UNORM;
          break;

        case DDS_COMPRESS_BC3:
        case DDS_COMPRESS_BC3N:
        case DDS_COMPRESS_YCOCG:
        case DDS_COMPRESS_YCOCGS:
        case DDS_COMPRESS_AEXP:
          fourcc = FOURCC ('D','X','T','5');
          dxgi_format = DXGI_FORMAT_BC3_UNORM;
          break;

        case DDS_COMPRESS_RXGB:
          fourcc = FOURCC ('R','X','G','B');
          dxgi_format = DXGI_FORMAT_BC3_UNORM;
          break;

        case DDS_COMPRESS_BC4:
          fourcc = FOURCC ('A','T','I','1');
          dxgi_format = DXGI_FORMAT_BC4_UNORM;
          //is_dx10 = 1;
          break;

        case DDS_COMPRESS_BC5:
          fourcc = FOURCC ('A','T','I','2');
          dxgi_format = DXGI_FORMAT_BC5_UNORM;
          //is_dx10 = 1;
          break;
        }

      if ((dds_write_vals.compression == DDS_COMPRESS_BC3N) ||
          (dds_write_vals.compression == DDS_COMPRESS_RXGB))
        {
          pflags |= DDPF_NORMAL;
        }

      PUTL32 (hdr + 8,  flags);
      PUTL32 (hdr + 80, pflags);
      PUTL32 (hdr + 84, fourcc);

      size = ((w + 3) >> 2) * ((h + 3) >> 2);
      if ((dds_write_vals.compression == DDS_COMPRESS_BC1) ||
          (dds_write_vals.compression == DDS_COMPRESS_BC4))
        size *= 8;
      else
        size *= 16;

      PUTL32 (hdr + 20, size); /* linear size */

      /*
       * write extra fourcc info - this is special to GIMP DDS. When the image
       * is read by the plugin, we can detect the added information to decode
       * the pixels
       */
      if (dds_write_vals.compression == DDS_COMPRESS_AEXP)
        {
          PUTL32 (hdr + 44, FOURCC ('A','E','X','P'));
        }
      else if (dds_write_vals.compression == DDS_COMPRESS_YCOCG)
        {
          PUTL32 (hdr + 44, FOURCC ('Y','C','G','1'));
        }
      else if (dds_write_vals.compression == DDS_COMPRESS_YCOCGS)
        {
          PUTL32 (hdr + 44, FOURCC ('Y','C','G','2'));
        }
    }

  /* texture arrays require a DX10 header */
  if (dds_write_vals.savetype == DDS_SAVE_ARRAY)
    is_dx10 = 1;

  if (is_dx10)
    {
      array_size = (dds_write_vals.savetype == DDS_SAVE_SELECTED_LAYER) ? 1 : get_array_size (image_id);

      PUTL32 (hdr10 +  0, dxgi_format);
      PUTL32 (hdr10 +  4, D3D10_RESOURCE_DIMENSION_TEXTURE2D);
      PUTL32 (hdr10 +  8, 0);
      PUTL32 (hdr10 + 12, array_size);
      PUTL32 (hdr10 + 16, 0);

      /* update main header accordingly */
      PUTL32 (hdr + 80, pflags | DDPF_FOURCC);
      PUTL32 (hdr + 84, FOURCC ('D','X','1','0'));
    }

  fwrite (hdr, DDS_HEADERSIZE, 1, fp);

  if (is_dx10)
    fwrite (hdr10, DDS_HEADERSIZE_DX10, 1, fp);

  /* write palette for indexed images */
  if ((basetype == GIMP_INDEXED) &&
      (dds_write_vals.format == DDS_FORMAT_DEFAULT) &&
      (dds_write_vals.compression == DDS_COMPRESS_NONE))
    {
      cmap = gimp_image_get_colormap (image_id, &colors);

      for (i = 0; i < colors; ++i)
        {
          fwrite (&cmap[3 * i], 1, 3, fp);
          if (i == dds_write_vals.transindex)
            fputc (0, fp);
          else
            fputc (255, fp);
        }

      for (; i < 256; ++i)
        fwrite (zero, 1, 4, fp);
    }

  if (dds_write_vals.savetype == DDS_SAVE_CUBEMAP)
    {
      for (i = 0; i < 6; ++i)
        {
          write_layer (fp, image_id, cubemap_faces[i], w, h, bpp, fmtbpp,
                       num_mipmaps);
          gimp_progress_update ((float)(i + 1) / 6.0);
        }
    }
  else if (dds_write_vals.savetype == DDS_SAVE_VOLUMEMAP)
    {
      for (i = 0; i < num_layers; ++i)
        {
          write_layer (fp, image_id, layers[i], w, h, bpp, fmtbpp, 1);
          gimp_progress_update ((float)i / (float)num_layers);
        }

      if (num_mipmaps > 1)
        write_volume_mipmaps (fp, image_id, layers, w, h, num_layers,
                              bpp, fmtbpp, num_mipmaps);
    }
  else if (dds_write_vals.savetype == DDS_SAVE_ARRAY)
    {
      for (i = 0; i < num_layers; ++i)
        {
          if ((gimp_drawable_width  (layers[i]) == w) &&
              (gimp_drawable_height (layers[i]) == h))
            {
              write_layer (fp, image_id, layers[i],
                           w, h, bpp, fmtbpp, num_mipmaps);
            }

          gimp_progress_update ((float)i / (float)num_layers);
        }
    }
  else
    {
      write_layer (fp, image_id, drawable_id, w, h, bpp, fmtbpp, num_mipmaps);
    }

  gimp_progress_update (1.0);

  return TRUE;
}

static GtkWidget *
string_value_combo_new (string_value_t *strings,
                        int             active_value)
{
  GtkWidget *opt;
  GtkCellRenderer *renderer;
  GtkListStore *store;
  GtkTreeIter iter;
  gint i;
  gint active = 0;

  store = gtk_list_store_new (3, G_TYPE_INT, G_TYPE_STRING, G_TYPE_BOOLEAN);
  for (i = 0; strings[i].string; ++i)
    {
      if (strings[i].value == active_value) active = i;
      gtk_list_store_append (store, &iter);
      gtk_list_store_set (store, &iter,
                          0, strings[i].value,
                          1, strings[i].string,
                          2, 1,
                          -1);
    }

  renderer = gtk_cell_renderer_text_new ();

  opt = gtk_combo_box_new_with_model (GTK_TREE_MODEL (store));
  gtk_cell_layout_pack_start (GTK_CELL_LAYOUT (opt), renderer, 1);
  gtk_cell_layout_set_attributes (GTK_CELL_LAYOUT (opt), renderer,
                                  "text", COMBO_STRING,
                                  "sensitive", COMBO_SENSITIVE,
                                  NULL);

  gtk_combo_box_set_active (GTK_COMBO_BOX (opt), active);

  g_object_unref (store);

  return opt;
}

static void
string_value_combo_selected (GtkWidget *widget,
                             gpointer   data)
{
  gint value;
  GtkTreeIter iter;
  GtkTreeModel *model;

  model = gtk_combo_box_get_model (GTK_COMBO_BOX (widget));
  gtk_combo_box_get_active_iter (GTK_COMBO_BOX (widget), &iter);
  gtk_tree_model_get (model, &iter, COMBO_VALUE, &value, -1);

  *((int *)data) = value;
}

static void
string_value_combo_set_item_sensitive (GtkWidget *widget,
                                       gint       value,
                                       gboolean   sensitive)
{
  GtkTreeIter iter;
  GtkTreeModel *model;
  gint val;

  model = gtk_combo_box_get_model (GTK_COMBO_BOX (widget));
  gtk_tree_model_get_iter_first (model, &iter);
  do
    {
      gtk_tree_model_get (model, &iter, COMBO_VALUE, &val, -1);
      if (val == value)
        {
          gtk_list_store_set (GTK_LIST_STORE (model), &iter,
                              COMBO_SENSITIVE, sensitive, -1);
          break;
        }
    } while (gtk_tree_model_iter_next (model, &iter));
}

static void
string_value_combo_set_active (GtkWidget *widget,
                               gint       value)
{
  GtkTreeIter iter;
  GtkTreeModel *model;
  int val;

  model = gtk_combo_box_get_model (GTK_COMBO_BOX (widget));
  gtk_tree_model_get_iter_first (model, &iter);
  do
    {
      gtk_tree_model_get (model, &iter, COMBO_VALUE, &val, -1);
      if (val == value)
        {
          gtk_combo_box_set_active_iter (GTK_COMBO_BOX (widget), &iter);
          break;
        }
    } while (gtk_tree_model_iter_next (model, &iter));
}

static void
save_dialog_response (GtkWidget *widget,
                      gint       response_id,
                      gpointer   data)
{
  switch (response_id)
    {
    case GTK_RESPONSE_OK:
      runme = TRUE;

    default:
      gtk_widget_destroy (widget);
      break;
    }
}

static void
compression_selected (GtkWidget *widget,
                      gpointer   data)
{
  GtkTreeIter iter;
  GtkTreeModel *model;

  model = gtk_combo_box_get_model (GTK_COMBO_BOX (widget));
  gtk_combo_box_get_active_iter (GTK_COMBO_BOX (widget), &iter);
  gtk_tree_model_get (model, &iter, COMBO_VALUE,
                      &dds_write_vals.compression,
                      -1);

  gtk_widget_set_sensitive (format_opt,
                            dds_write_vals.compression == DDS_COMPRESS_NONE);
  gtk_widget_set_sensitive (pm_chk,
                            dds_write_vals.compression != DDS_COMPRESS_NONE);
}

static void
savetype_selected (GtkWidget *widget,
                   gpointer   data)
{
  gint32 image_id = *((gint32 *)data);

  dds_write_vals.savetype = gtk_combo_box_get_active (GTK_COMBO_BOX (widget));

  switch (dds_write_vals.savetype)
    {
    case DDS_SAVE_SELECTED_LAYER:
    case DDS_SAVE_CUBEMAP:
    case DDS_SAVE_ARRAY:
      gtk_widget_set_sensitive (compress_opt, TRUE);
      break;

    case DDS_SAVE_VOLUMEMAP:
      dds_write_vals.compression = DDS_COMPRESS_NONE;
      gtk_combo_box_set_active (GTK_COMBO_BOX (compress_opt),
                                DDS_COMPRESS_NONE);
      gtk_widget_set_sensitive (compress_opt, FALSE);
      break;
    }

  string_value_combo_set_item_sensitive (mipmap_opt, DDS_MIPMAP_EXISTING,
                                         check_mipmaps (image_id, dds_write_vals.savetype));
}

static void
mipmaps_selected (GtkWidget *widget,
                  gpointer   data)
{
  GtkTreeModel *model;
  GtkTreeIter   iter;

  model = gtk_combo_box_get_model (GTK_COMBO_BOX (widget));
  gtk_combo_box_get_active_iter (GTK_COMBO_BOX (widget), &iter);
  gtk_tree_model_get (model, &iter, COMBO_VALUE,
                      &dds_write_vals.mipmaps, -1);

  gtk_widget_set_sensitive (mipmap_filter_opt,
                            dds_write_vals.mipmaps == DDS_MIPMAP_GENERATE);
  gtk_widget_set_sensitive (mipmap_wrap_opt,
                            dds_write_vals.mipmaps == DDS_MIPMAP_GENERATE);
  gtk_widget_set_sensitive (gamma_chk,
                            dds_write_vals.mipmaps == DDS_MIPMAP_GENERATE);
  gtk_widget_set_sensitive (srgb_chk,
                            (dds_write_vals.mipmaps == DDS_MIPMAP_GENERATE) &&
                            dds_write_vals.gamma_correct);
  gtk_widget_set_sensitive (gamma_spin,
                            (dds_write_vals.mipmaps == DDS_MIPMAP_GENERATE) &&
                            dds_write_vals.gamma_correct &&
                            !dds_write_vals.srgb);
  gtk_widget_set_sensitive (alpha_coverage_chk,
                            dds_write_vals.mipmaps == DDS_MIPMAP_GENERATE);
  gtk_widget_set_sensitive (alpha_test_threshold_spin,
                            (dds_write_vals.mipmaps == DDS_MIPMAP_GENERATE) &&
                            dds_write_vals.preserve_alpha_coverage);
}

static void
toggle_clicked (GtkWidget *widget,
                gpointer   data)
{
  gint *flag = (int *)data;

  (*flag) = !(*flag);
}

static void
transindex_clicked (GtkWidget *widget,
                    gpointer   data)
{
  GtkWidget *spin = GTK_WIDGET (g_object_get_data (G_OBJECT (widget), "spin"));

  if (gtk_toggle_button_get_active (GTK_TOGGLE_BUTTON (widget)))
    {
      dds_write_vals.transindex = 0;
      gtk_widget_set_sensitive (spin, TRUE);
      gtk_spin_button_set_value (GTK_SPIN_BUTTON (spin), 0);
    }
  else
    {
      gtk_widget_set_sensitive (spin, FALSE);
      dds_write_vals.transindex = -1;
    }
}

static void
transindex_changed (GtkWidget *widget,
                    gpointer   data)
{
  dds_write_vals.transindex =
    gtk_spin_button_get_value_as_int (GTK_SPIN_BUTTON (widget));
}

static void
gamma_correct_clicked (GtkWidget *widget,
                       gpointer   data)
{
  dds_write_vals.gamma_correct =
    gtk_toggle_button_get_active (GTK_TOGGLE_BUTTON (widget));

  gtk_widget_set_sensitive (srgb_chk,
                            dds_write_vals.gamma_correct);
  gtk_widget_set_sensitive (gamma_spin,
                            dds_write_vals.gamma_correct &&
                            ! dds_write_vals.srgb);
}

static void
srgb_clicked (GtkWidget *widget,
              gpointer   data)
{
  dds_write_vals.srgb =
    gtk_toggle_button_get_active (GTK_TOGGLE_BUTTON (widget));

  gtk_widget_set_sensitive (gamma_spin, !dds_write_vals.srgb);
}

static void
gamma_changed (GtkWidget *widget,
               gpointer   data)
{
  dds_write_vals.gamma =
    gtk_spin_button_get_value (GTK_SPIN_BUTTON (widget));
}

static void
alpha_coverage_clicked (GtkWidget *widget,
                        gpointer   data)
{
  dds_write_vals.preserve_alpha_coverage =
    gtk_toggle_button_get_active (GTK_TOGGLE_BUTTON (widget));

  gtk_widget_set_sensitive (alpha_test_threshold_spin,
                            dds_write_vals.preserve_alpha_coverage);
}

static void
alpha_test_threshold_changed (GtkWidget *widget,
                              gpointer   data)
{
  dds_write_vals.alpha_test_threshold =
    gtk_spin_button_get_value (GTK_SPIN_BUTTON (widget));
}

static gint
save_dialog (gint32 image_id,
             gint32 drawable_id)
{
  GtkWidget *dlg;
  GtkWidget *vbox;
  GtkWidget *hbox;
  GtkWidget *table;
  GtkWidget *opt;
  GtkWidget *check;
  GtkWidget *spin;
  GtkWidget *frame;
  GimpImageBaseType basetype;

  if (is_cubemap || is_volume || is_array)
    dds_write_vals.savetype = DDS_SAVE_SELECTED_LAYER;

  basetype = gimp_image_base_type (image_id);

  dlg = gimp_dialog_new (_("Export as DDS"), "dds", NULL, GTK_WIN_POS_MOUSE,
                         gimp_standard_help_func, SAVE_PROC,
                         _("_Cancel"), GTK_RESPONSE_CANCEL,
                         _("_Export"), GTK_RESPONSE_OK,
                         NULL);

  g_signal_connect (dlg, "response",
                    G_CALLBACK (save_dialog_response),
                    NULL);
  g_signal_connect (dlg, "destroy",
                    G_CALLBACK (gtk_main_quit),
                    NULL);

  gtk_window_set_resizable (GTK_WINDOW (dlg), FALSE);

  vbox = gtk_box_new (GTK_ORIENTATION_VERTICAL, 6);
  gtk_container_set_border_width (GTK_CONTAINER (vbox), 12);
  gtk_box_pack_start (GTK_BOX (gtk_dialog_get_content_area (GTK_DIALOG (dlg))),
                      vbox, TRUE, TRUE, 0);
  gtk_widget_show (vbox);

  table = gtk_table_new (6, 2, 0);
  gtk_widget_show (table);
  gtk_box_pack_start (GTK_BOX (vbox), table, FALSE, FALSE, 0);
  gtk_table_set_row_spacings (GTK_TABLE (table), 6);
  gtk_table_set_col_spacings (GTK_TABLE (table), 8);

  opt = string_value_combo_new (compression_strings,
                                dds_write_vals.compression);
  gimp_table_attach_aligned (GTK_TABLE (table), 0, 0,
                             _("_Compression:"),
                             0.0, 0.5,
                             opt, 1, FALSE);

  g_signal_connect (opt, "changed",
                    G_CALLBACK (compression_selected),
                    NULL);

  compress_opt = opt;

  check = gtk_check_button_new_with_label (_("Use perceptual error metric"));
  gtk_toggle_button_set_active (GTK_TOGGLE_BUTTON (check),
                                dds_write_vals.perceptual_metric);
  gtk_table_attach (GTK_TABLE (table), check, 1, 2, 1, 2,
                    GTK_FILL, 0, 0, 0);
  gtk_widget_show (check);

  g_signal_connect (check, "clicked",
                    G_CALLBACK (toggle_clicked),
                    &dds_write_vals.perceptual_metric);

  pm_chk = check;

  opt = string_value_combo_new (format_strings, dds_write_vals.format);
  gimp_table_attach_aligned (GTK_TABLE (table), 0, 2,
                             _("_Format:"),
                             0.0, 0.5,
                             opt, 1, FALSE);

  g_signal_connect (opt, "changed",
                    G_CALLBACK (string_value_combo_selected),
                    &dds_write_vals.format);

  gtk_widget_set_sensitive (opt, dds_write_vals.compression == DDS_COMPRESS_NONE);

  format_opt = opt;

  opt = string_value_combo_new (save_type_strings, dds_write_vals.savetype);
  gimp_table_attach_aligned (GTK_TABLE (table), 0, 3,
                             _("_Save:"),
                             0.0, 0.5,
                             opt, 1, FALSE);

  g_signal_connect (opt, "changed",
                    G_CALLBACK (savetype_selected),
                    &image_id);

  string_value_combo_set_item_sensitive (opt, DDS_SAVE_CUBEMAP, is_cubemap);
  string_value_combo_set_item_sensitive (opt, DDS_SAVE_VOLUMEMAP, is_volume);
  string_value_combo_set_item_sensitive (opt, DDS_SAVE_ARRAY, is_array);

  opt = string_value_combo_new (mipmap_strings, dds_write_vals.mipmaps);
  gimp_table_attach_aligned (GTK_TABLE (table), 0, 4,
                             _("_Mipmaps:"),
                             0.0, 0.5,
                             opt, 1, FALSE);

  g_signal_connect (opt, "changed",
                    G_CALLBACK (mipmaps_selected),
                    &image_id);

  string_value_combo_set_item_sensitive (opt, DDS_MIPMAP_EXISTING,
                                         check_mipmaps (image_id,
                                                        dds_write_vals.savetype));

  mipmap_opt = opt;

  string_value_combo_set_item_sensitive (opt, DDS_MIPMAP_EXISTING,
                                         ! (is_volume || is_cubemap) &&
                                         is_mipmap_chain_valid);


  hbox = gtk_box_new (GTK_ORIENTATION_HORIZONTAL, 8);
  gtk_box_pack_start (GTK_BOX (vbox), hbox, FALSE, FALSE, 0);
  gtk_widget_show (hbox);

  check = gtk_check_button_new_with_label (_("Transparent index:"));
  gtk_box_pack_start (GTK_BOX (hbox), check, FALSE, FALSE, 0);
  gtk_widget_show (check);

  g_signal_connect (check, "clicked",
                    G_CALLBACK (transindex_clicked),
                    NULL);

  spin = gimp_spin_button_new
    (GTK_ADJUSTMENT (gtk_adjustment_new (0, 0, 255, 1, 1, 0)), 1, 0);
  gtk_box_pack_start (GTK_BOX (hbox), spin, TRUE, TRUE, 0);
  gtk_spin_button_set_update_policy (GTK_SPIN_BUTTON (spin),
                                     GTK_UPDATE_IF_VALID);
  gtk_widget_show (spin);

  g_signal_connect (spin, "value-changed",
                    G_CALLBACK (transindex_changed),
                    NULL);

  g_object_set_data (G_OBJECT (check), "spin", spin);

  if (basetype != GIMP_INDEXED)
    {
      gtk_widget_set_sensitive (check, FALSE);
      gtk_widget_set_sensitive (spin, FALSE);
    }
  else if (dds_write_vals.transindex < 0)
    {
      gtk_widget_set_sensitive (spin, FALSE);
    }
  else if (dds_write_vals.transindex >= 0)
    {
      gtk_toggle_button_set_active (GTK_TOGGLE_BUTTON (check), TRUE);
      gtk_spin_button_set_value (GTK_SPIN_BUTTON (spin),
                                 dds_write_vals.transindex);
    }

  if (is_volume && dds_write_vals.savetype == DDS_SAVE_VOLUMEMAP)
    {
      dds_write_vals.compression = DDS_COMPRESS_NONE;
      string_value_combo_set_active (compress_opt, DDS_COMPRESS_NONE);
      gtk_widget_set_sensitive (compress_opt, FALSE);
    }

  frame = gimp_frame_new (_("Mipmap Options"));
  gtk_box_pack_start (GTK_BOX (vbox), frame, FALSE, FALSE, 0);
  gtk_widget_show (frame);

  table = gtk_table_new (7, 2, 0);
  gtk_table_set_row_spacings (GTK_TABLE (table), 6);
  gtk_table_set_col_spacings (GTK_TABLE (table), 8);
  gtk_container_add (GTK_CONTAINER (frame), table);
  gtk_widget_show (table);

  opt = string_value_combo_new (mipmap_filter_strings,
                                dds_write_vals.mipmap_filter);
  gimp_table_attach_aligned (GTK_TABLE (table), 0, 0,
                             _("_F_ilter:"),
                             0.0, 0.5,
                             opt, 1, FALSE);

  g_signal_connect (opt, "changed",
                    G_CALLBACK (string_value_combo_selected),
                    &dds_write_vals.mipmap_filter);

  mipmap_filter_opt = opt;

  opt = string_value_combo_new (mipmap_wrap_strings,
                                dds_write_vals.mipmap_wrap);
  gimp_table_attach_aligned (GTK_TABLE (table), 0, 1,
                             _("_Wrap mode:"),
                             0.0, 0.5,
                             opt, 1, FALSE);

  g_signal_connect (opt, "changed",
                    G_CALLBACK (string_value_combo_selected),
                    &dds_write_vals.mipmap_wrap);

  mipmap_wrap_opt = opt;

  check = gtk_check_button_new_with_label (_("Apply gamma correction"));
  gtk_toggle_button_set_active (GTK_TOGGLE_BUTTON (check),
                                dds_write_vals.gamma_correct &&
                                dds_write_vals.mipmaps);
  gtk_table_attach (GTK_TABLE (table), check, 1, 2, 2, 3,
                    GTK_FILL, 0, 0, 0);
  gtk_widget_show (check);

  g_signal_connect (check, "clicked",
                    G_CALLBACK (gamma_correct_clicked),
                    NULL);

  gamma_chk = check;

  check = gtk_check_button_new_with_label (_("Use sRGB colorspace"));
  gtk_toggle_button_set_active (GTK_TOGGLE_BUTTON (check),
                                dds_write_vals.gamma_correct &&
                                dds_write_vals.srgb);
  gtk_table_attach (GTK_TABLE (table), check, 1, 2, 3, 4,
                    GTK_FILL, 0, 0, 0);
  gtk_widget_show (check);

  g_signal_connect (check, "clicked",
                    G_CALLBACK (srgb_clicked),
                    NULL);

  srgb_chk = check;

  spin = gimp_spin_button_new
    (GTK_ADJUSTMENT (gtk_adjustment_new (dds_write_vals.gamma,
                                         1e-05, 100, 0.1, 0.5, 0)), 1, 1);
  gtk_spin_button_set_update_policy (GTK_SPIN_BUTTON (spin), GTK_UPDATE_IF_VALID);
  gimp_table_attach_aligned (GTK_TABLE (table), 0, 4,
                             _("_Gamma:"),
                             0.0, 0.5,
                             spin, 1, FALSE);

  g_signal_connect (spin, "value_changed",
                    G_CALLBACK (gamma_changed),
                    NULL);

  gamma_spin = spin;

  check = gtk_check_button_new_with_label (_("Preserve alpha test coverage"));
  gtk_toggle_button_set_active (GTK_TOGGLE_BUTTON (check),
                                dds_write_vals.preserve_alpha_coverage &&
                                dds_write_vals.mipmaps);
  gtk_table_attach (GTK_TABLE (table), check, 1, 2, 5, 6,
                    GTK_FILL, 0, 0, 0);
  gtk_widget_show (check);

  g_signal_connect (check, "clicked",
                    G_CALLBACK (alpha_coverage_clicked),
                    NULL);

  alpha_coverage_chk = check;

  spin = gimp_spin_button_new
    (GTK_ADJUSTMENT (gtk_adjustment_new (dds_write_vals.alpha_test_threshold,
                                         0, 1, 0.01, 0.1, 0)), 1, 2);
  gtk_spin_button_set_update_policy (GTK_SPIN_BUTTON (spin), GTK_UPDATE_IF_VALID);
  gimp_table_attach_aligned (GTK_TABLE (table), 0, 6,
                             _("_Alpha test threshold:"),
                             0.0, 0.5,
                             spin, 1, FALSE);

  g_signal_connect (spin, "value_changed",
                    G_CALLBACK (alpha_test_threshold_changed),
                    NULL);

  alpha_test_threshold_spin = spin;

  gtk_widget_set_sensitive (mipmap_filter_opt,
                            dds_write_vals.mipmaps == DDS_MIPMAP_GENERATE);
  gtk_widget_set_sensitive (mipmap_wrap_opt,
                            dds_write_vals.mipmaps == DDS_MIPMAP_GENERATE);
  gtk_widget_set_sensitive (gamma_chk
                            , dds_write_vals.mipmaps == DDS_MIPMAP_GENERATE);
  gtk_widget_set_sensitive (srgb_chk,
                            (dds_write_vals.mipmaps == DDS_MIPMAP_GENERATE) &&
                            dds_write_vals.gamma_correct);
  gtk_widget_set_sensitive (gamma_spin,
                            (dds_write_vals.mipmaps == DDS_MIPMAP_GENERATE) &&
                            dds_write_vals.gamma_correct &&
                            !dds_write_vals.srgb);
  gtk_widget_set_sensitive (pm_chk,
                            dds_write_vals.compression != DDS_COMPRESS_NONE);
  gtk_widget_set_sensitive (alpha_coverage_chk,
                            dds_write_vals.mipmaps == DDS_MIPMAP_GENERATE);
  gtk_widget_set_sensitive (alpha_test_threshold_spin,
                            (dds_write_vals.mipmaps == DDS_MIPMAP_GENERATE) &&
                            dds_write_vals.preserve_alpha_coverage);

  gtk_widget_show (dlg);

  runme = FALSE;

  gtk_main ();

  return runme;
}