/* Raw data image loader (and saver) plugin 3.4 * * by tim copperfield [timecop@japan.co.jp] * http://www.ne.jp/asahi/linux/timecop * * Updated for Gimp 2.1 by pg@futureware.at and mitch@gimp.org * * This plugin is not based on any other plugin. * * 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 3 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. If not, see . */ #include "config.h" #include #include #include #include #include #ifdef HAVE_UNISTD_H #include #endif #include #ifdef G_OS_WIN32 #include #endif #include "libgimp/gimp.h" #include "libgimp/gimpui.h" #include "libgimp/stdplugins-intl.h" #define LOAD_PROC "file-raw-load" #define LOAD_HGT_PROC "file-hgt-load" #define SAVE_PROC "file-raw-save" #define SAVE_PROC2 "file-raw-save2" #define GET_DEFAULTS_PROC "file-raw-get-defaults" #define SET_DEFAULTS_PROC "file-raw-set-defaults" #define PLUG_IN_BINARY "file-raw-data" #define PLUG_IN_ROLE "gimp-file-raw-data" #define PREVIEW_SIZE 350 #define RAW_DEFAULTS_PARASITE "raw-save-defaults" #define GIMP_PLUGIN_HGT_LOAD_ERROR gimp_plugin_hgt_load_error_quark () typedef enum { GIMP_PLUGIN_HGT_LOAD_ARGUMENT_ERROR } GimpPluginHGTError; static GQuark gimp_plugin_hgt_load_error_quark (void) { return g_quark_from_static_string ("gimp-plugin-hgt-load-error-quark"); } typedef enum { RAW_RGB, /* RGB Image */ RAW_RGBA, /* RGB Image with an Alpha channel */ RAW_RGB565_BE, /* RGB Image 16bit, 5,6,5 bits per channel, big-endian */ RAW_RGB565_LE, /* RGB Image 16bit, 5,6,5 bits per channel, little-endian */ RAW_BGR565_BE, /* RGB Image 16bit, 5,6,5 bits per channel, big-endian, red and blue swapped */ RAW_BGR565_LE, /* RGB Image 16bit, 5,6,5 bits per channel, little-endian, red and blue swapped */ RAW_PLANAR, /* Planar RGB */ RAW_GRAY_1BPP, RAW_GRAY_2BPP, RAW_GRAY_4BPP, RAW_GRAY_8BPP, RAW_INDEXED, /* Indexed image */ RAW_INDEXEDA, /* Indexed image with an Alpha channel */ RAW_GRAY_16BPP_BE, RAW_GRAY_16BPP_LE, RAW_GRAY_16BPP_SBE, RAW_GRAY_16BPP_SLE, } RawType; typedef enum { RAW_PALETTE_RGB, /* standard RGB */ RAW_PALETTE_BGR /* Windows BGRX */ } RawPaletteType; typedef struct { RawType image_type; /* type of image (RGB, PLANAR) */ RawPaletteType palette_type; /* type of palette (RGB/BGR) */ } RawSaveVals; typedef struct { gboolean run; GtkWidget *image_type_standard; GtkWidget *image_type_planar; GtkWidget *palette_type_normal; GtkWidget *palette_type_bmp; } RawSaveGui; typedef struct { gint32 file_offset; /* offset to beginning of image in raw data */ gint32 image_width; /* width of the raw image */ gint32 image_height; /* height of the raw image */ RawType image_type; /* type of image (RGB, INDEXED, etc) */ gint32 palette_offset; /* offset inside the palette file, if any */ RawPaletteType palette_type; /* type of palette (RGB/BGR) */ } RawConfig; typedef struct { FILE *fp; /* pointer to the already open file */ GeglBuffer *buffer; /* gimp drawable buffer */ gint32 image_id; /* gimp image id */ guchar cmap[768]; /* color map for indexed images */ } RawGimpData; static void query (void); static void run (const gchar *name, gint nparams, const GimpParam *param, gint *nreturn_vals, GimpParam **return_vals); /* prototypes for the new load functions */ static gboolean raw_load_standard (RawGimpData *data, gint bpp); static gboolean raw_load_gray (RawGimpData *data, gint bpp, gint bitspp); static gboolean raw_load_rgb565 (RawGimpData *data, RawType type); static gboolean raw_load_planar (RawGimpData *data); static gboolean raw_load_palette (RawGimpData *data, const gchar *palette_filename); /* support functions */ static goffset get_file_info (const gchar *filename); static void raw_read_row (FILE *fp, guchar *buf, gint32 offset, gint32 size); static int mmap_read (gint fd, gpointer buf, gint32 len, gint32 pos, gint rowstride); static void rgb_565_to_888 (guint16 *in, guchar *out, gint32 num_pixels, RawType type); static gint32 load_image (const gchar *filename, GError **error); static gboolean save_image (const gchar *filename, gint32 image_id, gint32 drawable_id, GError **error); /* gui functions */ static void preview_update_size (GimpPreviewArea *preview); static void preview_update (GimpPreviewArea *preview); static void palette_update (GimpPreviewArea *preview); static gboolean load_dialog (const gchar *filename, gboolean is_hgt); static gboolean save_dialog (gint32 image_id); static void save_dialog_response (GtkWidget *widget, gint response_id, gpointer data); static void palette_callback (GtkFileChooser *button, GimpPreviewArea *preview); static void load_defaults (void); static void save_defaults (void); static void load_gui_defaults (RawSaveGui *rg); static RawConfig *runtime = NULL; static gchar *palfile = NULL; static gint preview_fd = -1; static guchar preview_cmap[1024]; static gboolean preview_cmap_update = TRUE; const GimpPlugInInfo PLUG_IN_INFO = { NULL, /* init_proc */ NULL, /* quit_proc */ query, /* query_proc */ run, /* run_proc */ }; static const RawSaveVals defaults = { RAW_RGB, RAW_PALETTE_RGB }; static RawSaveVals rawvals; MAIN() static void query (void) { static const GimpParamDef load_args[] = { { GIMP_PDB_INT32, "run-mode", "The run mode { RUN-INTERACTIVE (0) }" }, { GIMP_PDB_STRING, "filename", "The name of the file to load" }, { GIMP_PDB_STRING, "raw-filename", "The name entered" } }; static const GimpParamDef load_hgt_args[] = { { GIMP_PDB_INT32, "run-mode", "The run mode { RUN-INTERACTIVE (0) }" }, { GIMP_PDB_STRING, "filename", "The name of the file to load" }, { GIMP_PDB_STRING, "raw-filename", "The name entered" }, { GIMP_PDB_INT32, "samplespacing", "The sample spacing of the data. " "Only supported values are 0, 1 and 3 " "(respectively auto-detect, SRTM-1 " "and SRTM-3 data)" }, }; static const GimpParamDef load_return_vals[] = { { GIMP_PDB_IMAGE, "image", "Output image" } }; #define COMMON_SAVE_ARGS \ { GIMP_PDB_INT32, "run-mode", "The run mode { RUN-INTERACTIVE (0), RUN-NONINTERACTIVE (1) }" }, \ { GIMP_PDB_IMAGE, "image", "Input image" }, \ { GIMP_PDB_DRAWABLE, "drawable", "Drawable to save" }, \ { GIMP_PDB_STRING, "filename", "The name of the file to save the image in" }, \ { GIMP_PDB_STRING, "raw-filename", "The name entered" } #define CONFIG_ARGS \ { GIMP_PDB_INT32, "image-type", "The image type { RAW_RGB (0), RAW_PLANAR (3) }" }, \ { GIMP_PDB_INT32, "palette-type", "The palette type { RAW_PALETTE_RGB (0), RAW_PALETTE_BGR (1) }" } static const GimpParamDef save_args[] = { COMMON_SAVE_ARGS }; static const GimpParamDef save_args2[] = { COMMON_SAVE_ARGS, CONFIG_ARGS }; static const GimpParamDef save_get_defaults_return_vals[] = { CONFIG_ARGS }; static const GimpParamDef save_args_set_defaults[] = { CONFIG_ARGS }; gimp_install_procedure (LOAD_PROC, "Load raw images, specifying image information", "Load raw images, specifying image information", "timecop, pg@futureware.at", "timecop, pg@futureware.at", "Aug 2004", N_("Raw image data"), NULL, GIMP_PLUGIN, G_N_ELEMENTS (load_args), G_N_ELEMENTS (load_return_vals), load_args, load_return_vals); gimp_register_load_handler (LOAD_PROC, "data", ""); gimp_install_procedure (LOAD_HGT_PROC, "Load HGT data as images", "Load Digital Elevation Model data in HGT format " "from the Shuttle Radar Topography Mission as " "images. Though the output image will be RGB, all " "colors are grayscale by default and the contrast " "will be quite low on most earth relief. Therefore " "You will likely want to remap elevation to colors " "as a second step, for instance with the \"Gradient " "Map\" plug-in.", "", "", "2017-12-09", N_("Digital Elevation Model data"), NULL, GIMP_PLUGIN, G_N_ELEMENTS (load_hgt_args), G_N_ELEMENTS (load_return_vals), load_hgt_args, load_return_vals); gimp_register_load_handler (LOAD_HGT_PROC, "hgt", ""); gimp_install_procedure (SAVE_PROC, "Dump images to disk in raw format", "This plug-in dumps images to disk in raw format, " "using the default settings stored as a parasite.", "timecop, pg@futureware.at", "timecop, pg@futureware.at", "Aug 2004", N_("Raw image data"), "INDEXED, GRAY, RGB, RGBA", GIMP_PLUGIN, G_N_ELEMENTS (save_args), 0, save_args, NULL); gimp_install_procedure (SAVE_PROC2, "Dump images to disk in raw format", "Dump images to disk in raw format", "Björn Kautler, Bjoern@Kautler.net", "Björn Kautler, Bjoern@Kautler.net", "April 2014", N_("Raw image data"), "INDEXED, GRAY, RGB, RGBA", GIMP_PLUGIN, G_N_ELEMENTS (save_args2), 0, save_args2, NULL); gimp_register_save_handler (SAVE_PROC2, "data,raw", ""); gimp_install_procedure (GET_DEFAULTS_PROC, "Get the current set of defaults used by the " "raw image data dump plug-in", "This procedure returns the current set of " "defaults stored as a parasite for the raw " "image data dump plug-in. " "These defaults are used to seed the UI, by the " "file_raw_save_defaults procedure, and by " "gimp_file_save when it detects to use RAW.", "Björn Kautler, Bjoern@Kautler.net", "Björn Kautler, Bjoern@Kautler.net", "April 2014", NULL, NULL, GIMP_PLUGIN, 0, G_N_ELEMENTS (save_get_defaults_return_vals), NULL, save_get_defaults_return_vals); gimp_install_procedure (SET_DEFAULTS_PROC, "Set the current set of defaults used by the " "raw image dump plug-in", "This procedure sets the current set of defaults " "stored as a parasite for the raw image data dump plug-in. " "These defaults are used to seed the UI, by the " "file_raw_save_defaults procedure, and by " "gimp_file_save when it detects to use RAW.", "Björn Kautler, Bjoern@Kautler.net", "Björn Kautler, Bjoern@Kautler.net", "April 2014", NULL, NULL, GIMP_PLUGIN, G_N_ELEMENTS (save_args_set_defaults), 0, save_args_set_defaults, NULL); } static void run (const gchar *name, gint nparams, const GimpParam *param, gint *nreturn_vals, GimpParam **return_vals) { static GimpParam values[3]; GimpRunMode run_mode; GimpPDBStatusType status = GIMP_PDB_SUCCESS; GError *error = NULL; gint32 image_id; gint32 drawable_id; GimpExportReturn export = GIMP_EXPORT_CANCEL; INIT_I18N (); gegl_init (NULL, NULL); *nreturn_vals = 1; *return_vals = values; values[0].type = GIMP_PDB_STATUS; values[0].data.d_status = GIMP_PDB_EXECUTION_ERROR; if (strcmp (name, LOAD_PROC) == 0 || strcmp (name, LOAD_HGT_PROC) == 0) { gboolean is_hgt = (strcmp (name, LOAD_HGT_PROC) == 0); run_mode = param[0].data.d_int32; /* allocate config structure and fill with defaults */ runtime = g_new0 (RawConfig, 1); runtime->file_offset = 0; runtime->palette_offset = 0; runtime->palette_type = RAW_PALETTE_RGB; if (is_hgt) { FILE *fp; glong pos; gint hgt_size; runtime->image_type = RAW_GRAY_16BPP_SBE; fp = g_fopen (param[1].data.d_string, "rb"); if (! fp) { g_set_error (&error, G_FILE_ERROR, g_file_error_from_errno (errno), _("Could not open '%s' for size verification: %s"), gimp_filename_to_utf8 (param[1].data.d_string), g_strerror (errno)); status = GIMP_PDB_EXECUTION_ERROR; } else { fseek (fp, 0, SEEK_END); pos = ftell (fp); /* HGT files have always the same size, either 1201*1201 * or 3601*3601 of 16-bit values. */ if (pos == 1201*1201*2) { hgt_size = 1201; } else if (pos == 3601*3601*2) { hgt_size = 3601; } else { /* As a special exception, if the file looks like an HGT * format from extension, yet it doesn't have the right * size, we will degrade a bit the experience by * adding sample spacing choice. */ hgt_size = 0; } runtime->image_width = hgt_size; runtime->image_height = hgt_size; fclose (fp); } } else { runtime->image_width = PREVIEW_SIZE; runtime->image_height = PREVIEW_SIZE; runtime->image_type = RAW_RGB; } if (run_mode == GIMP_RUN_INTERACTIVE) { if (! is_hgt) gimp_get_data (LOAD_PROC, runtime); preview_fd = g_open (param[1].data.d_string, O_RDONLY, 0); if (preview_fd < 0) { g_set_error (&error, G_FILE_ERROR, g_file_error_from_errno (errno), _("Could not open '%s' for reading: %s"), gimp_filename_to_utf8 (param[1].data.d_string), g_strerror (errno)); status = GIMP_PDB_EXECUTION_ERROR; } else { if (! load_dialog (param[1].data.d_string, is_hgt)) status = GIMP_PDB_CANCEL; close (preview_fd); } } else if (is_hgt) /* HGT file in non-interactive mode. */ { gint32 sample_spacing = param[3].data.d_int32; if (sample_spacing != 0 && sample_spacing != 1 && sample_spacing != 3) { status = GIMP_PDB_CALLING_ERROR; g_set_error (&error, GIMP_PLUGIN_HGT_LOAD_ERROR, GIMP_PLUGIN_HGT_LOAD_ARGUMENT_ERROR, _("%d is not a valid sample spacing. " "Valid values are: 0 (auto-detect), 1 and 3."), sample_spacing); } else { switch (sample_spacing) { case 0: /* Auto-detection already occurred. Let's just check if *it was successful. */ if (runtime->image_width != 1201 && runtime->image_width != 3601) { status = GIMP_PDB_CALLING_ERROR; g_set_error (&error, G_FILE_ERROR, G_FILE_ERROR_INVAL, _("Auto-detection of sample spacing failed. " "\"%s\" does not appear to be a valid HGT file " "or its variant is not supported yet. " "Supported HGT files are: SRTM-1 and SRTM-3. " "If you know the variant, run with argument 1 or 3."), gimp_filename_to_utf8 (param[1].data.d_string)); } break; case 1: runtime->image_width = 3601; runtime->image_height = 3601; break; default: /* 3 */ runtime->image_width = 1201; runtime->image_height = 1201; break; } status = GIMP_PDB_SUCCESS; } } else { /* we only run interactively due to the nature of this plugin. * things like generate preview etc like to call us non- * interactively. here we stop that. */ status = GIMP_PDB_CALLING_ERROR; } /* we are okay, and the user clicked OK in the load dialog */ if (status == GIMP_PDB_SUCCESS) { image_id = load_image (param[1].data.d_string, &error); if (image_id != -1) { if (! is_hgt) gimp_set_data (LOAD_PROC, runtime, sizeof (RawConfig)); *nreturn_vals = 2; values[1].type = GIMP_PDB_IMAGE; values[1].data.d_image = image_id; } else { status = GIMP_PDB_EXECUTION_ERROR; } } if (status != GIMP_PDB_SUCCESS && error) { g_warning ("Loading \"%s\" failed with error: %s", param[1].data.d_string, error->message); } g_free (runtime); } else if (strcmp (name, SAVE_PROC) == 0 || strcmp (name, SAVE_PROC2) == 0) { run_mode = param[0].data.d_int32; image_id = param[1].data.d_int32; drawable_id = param[2].data.d_int32; load_defaults (); /* export the image */ export = gimp_export_image (&image_id, &drawable_id, "RAW", GIMP_EXPORT_CAN_HANDLE_RGB | GIMP_EXPORT_CAN_HANDLE_GRAY | GIMP_EXPORT_CAN_HANDLE_INDEXED | GIMP_EXPORT_CAN_HANDLE_ALPHA); if (export == GIMP_EXPORT_CANCEL) { *nreturn_vals = 1; values[0].data.d_status = GIMP_PDB_CANCEL; return; } switch (run_mode) { case GIMP_RUN_INTERACTIVE: /* * Possibly retrieve data... */ gimp_get_data (SAVE_PROC, &rawvals); /* * Then acquire information with a dialog... */ if (! save_dialog (image_id)) status = GIMP_PDB_CANCEL; break; case GIMP_RUN_NONINTERACTIVE: /* * Make sure all the arguments are there! */ if (nparams != 5) { if (nparams != 7) { status = GIMP_PDB_CALLING_ERROR; } else { rawvals.image_type = param[5].data.d_int32; rawvals.palette_type = param[6].data.d_int32; if (((rawvals.image_type != RAW_RGB) && (rawvals.image_type != RAW_PLANAR)) || ((rawvals.palette_type != RAW_PALETTE_RGB) && (rawvals.palette_type != RAW_PALETTE_BGR))) { status = GIMP_PDB_CALLING_ERROR; } } } break; case GIMP_RUN_WITH_LAST_VALS: /* * Possibly retrieve data... */ gimp_get_data (SAVE_PROC, &rawvals); break; default: break; } if (status == GIMP_PDB_SUCCESS) { if (save_image (param[3].data.d_string, image_id, drawable_id, &error)) { gimp_set_data (SAVE_PROC, &rawvals, sizeof (rawvals)); } else { status = GIMP_PDB_EXECUTION_ERROR; } } if (export == GIMP_EXPORT_EXPORT) gimp_image_delete (image_id); } else if (strcmp (name, GET_DEFAULTS_PROC) == 0) { load_defaults (); *nreturn_vals = 3; #define SET_VALUE(index, field) G_STMT_START { \ values[(index)].type = GIMP_PDB_INT32; \ values[(index)].data.d_int32 = rawvals.field; \ } G_STMT_END SET_VALUE (1, image_type); SET_VALUE (2, palette_type); #undef SET_VALUE } else if (strcmp (name, SET_DEFAULTS_PROC) == 0) { if (nparams == 2) { load_defaults (); rawvals.image_type = param[0].data.d_int32; rawvals.palette_type = param[1].data.d_int32; save_defaults (); } else { status = GIMP_PDB_CALLING_ERROR; } } else { status = GIMP_PDB_CALLING_ERROR; } if (status != GIMP_PDB_SUCCESS && error) { *nreturn_vals = 2; values[1].type = GIMP_PDB_STRING; values[1].data.d_string = error->message; } values[0].data.d_status = status; } /* get file size from a filename */ static goffset get_file_info (const gchar *filename) { GFile *file = g_file_new_for_path (filename); GFileInfo *info; goffset size = 0; info = g_file_query_info (file, G_FILE_ATTRIBUTE_STANDARD_SIZE, G_FILE_QUERY_INFO_NONE, NULL, NULL); if (info) { size = g_file_info_get_size (info); g_object_unref (info); } g_object_unref (file); return size; } /* new image handle functions */ static void raw_read_row (FILE *fp, guchar *buf, gint32 offset, gint32 size) { fseek (fp, offset, SEEK_SET); if (! fread (buf, size, 1, fp)) { g_printerr ("fread failed\n"); memset (buf, 0xFF, size); } } /* similar to the above function but memset is done differently. has nothing * to do with mmap, by the way */ static gint mmap_read (gint fd, void *buf, gint32 len, gint32 pos, gint rowstride) { lseek (fd, pos, SEEK_SET); if (! read (fd, buf, len)) memset (buf, 0xFF, rowstride); return 0; } /* this handles 1, 2, 3, 4 bpp "standard" images */ static gboolean raw_load_standard (RawGimpData *data, gint bpp) { guchar *row = NULL; row = g_try_malloc (runtime->image_width * runtime->image_height * bpp); if (! row) return FALSE; raw_read_row (data->fp, row, runtime->file_offset, runtime->image_width * runtime->image_height * bpp); gegl_buffer_set (data->buffer, GEGL_RECTANGLE (0, 0, runtime->image_width, runtime->image_height), 0, NULL, row, GEGL_AUTO_ROWSTRIDE); g_free (row); return TRUE; } static gboolean raw_load_gray16 (RawGimpData *data, RawType type) { guint16 *in_raw = NULL; guint16 *out_raw = NULL; gsize in_size; gsize out_size; gsize i; in_size = runtime->image_width * runtime->image_height; out_size = runtime->image_width * runtime->image_height * 3 * sizeof (*out_raw); in_raw = g_try_malloc (in_size * sizeof (*in_raw)); if (! in_raw) return FALSE; out_raw = g_try_malloc0 (out_size); if (! out_raw) { g_free (in_raw); return FALSE; } raw_read_row (data->fp, (guchar*) in_raw, runtime->file_offset, in_size * sizeof (*in_raw)); for (i = 0; i < in_size; i++) { gint pixel_val; if (type == RAW_GRAY_16BPP_BE) pixel_val = GUINT16_FROM_BE (in_raw[i]); else if (type == RAW_GRAY_16BPP_LE) pixel_val = GUINT16_FROM_LE (in_raw[i]); else if (type == RAW_GRAY_16BPP_SBE) pixel_val = GINT16_FROM_BE (in_raw[i]) - G_MININT16; else /* if (type == RAW_GRAY_16BPP_SLE)*/ pixel_val = GINT16_FROM_LE (in_raw[i]) - G_MININT16; out_raw[3 * i + 0] = pixel_val; out_raw[3 * i + 1] = pixel_val; out_raw[3 * i + 2] = pixel_val; } gegl_buffer_set (data->buffer, GEGL_RECTANGLE (0, 0, runtime->image_width, runtime->image_height), 0, NULL, out_raw, GEGL_AUTO_ROWSTRIDE); g_free (in_raw); g_free (out_raw); return TRUE; } /* this handles black and white, gray with 1, 2, 4, and 8 _bits_ per * pixel images - hopefully lots of binaries too */ static gboolean raw_load_gray (RawGimpData *data, gint bpp, gint bitspp) { guchar *in_raw = NULL; guchar *out_raw = NULL; gint in_size; gint out_size; guchar pixel_mask_hi; guchar pixel_mask_lo; guint x; gint i; in_size = runtime->image_width * runtime->image_height / (8 / bitspp); out_size = runtime->image_width * runtime->image_height * 3; in_raw = g_try_malloc (in_size); if (! in_raw) return FALSE; out_raw = g_try_malloc (out_size); if (! out_raw) return FALSE; memset (out_raw, 0, out_size); /* calculate a pixel_mask_hi 0x80 for 1 bitspp 0xc0 for 2 bitspp 0xf0 for 4 bitspp 0xff for 8 bitspp and a pixel_mask_lo 0x01 for 1 bitspp 0x03 for 2 bitspp 0x0f for 4 bitspp 0xff for 8 bitspp */ pixel_mask_hi = 0x80; pixel_mask_lo = 0x01; for (i = 1; i < bitspp; i++) { pixel_mask_hi |= pixel_mask_hi >> 1; pixel_mask_lo |= pixel_mask_lo << 1; } raw_read_row (data->fp, in_raw, runtime->file_offset, in_size); x = 0; /* walks though all output pixels */ for (i = 0; i < in_size; i++) { guchar bit; for (bit = 0; bit < 8 / bitspp; bit++) { guchar pixel_val; pixel_val = in_raw[i] & (pixel_mask_hi >> (bit * bitspp)); pixel_val >>= 8 - bitspp - bit * bitspp; pixel_val *= 0xff / pixel_mask_lo; out_raw[3 * x + 0] = pixel_val; out_raw[3 * x + 1] = pixel_val; out_raw[3 * x + 2] = pixel_val; x++; } } gegl_buffer_set (data->buffer, GEGL_RECTANGLE (0, 0, runtime->image_width, runtime->image_height), 0, NULL, out_raw, GEGL_AUTO_ROWSTRIDE); g_free (in_raw); g_free (out_raw); return TRUE; } /* this handles RGB565 images */ static gboolean raw_load_rgb565 (RawGimpData *data, RawType type) { gint32 num_pixels = runtime->image_width * runtime->image_height; guint16 *in = g_malloc (num_pixels * 2); guchar *row = g_malloc (num_pixels * 3); raw_read_row (data->fp, (guchar *)in, runtime->file_offset, num_pixels * 2); rgb_565_to_888 (in, row, num_pixels, type); gegl_buffer_set (data->buffer, GEGL_RECTANGLE (0, 0, runtime->image_width, runtime->image_height), 0, NULL, row, GEGL_AUTO_ROWSTRIDE); g_free (in); g_free (row); return TRUE; } /* this converts a 2bpp buffer to a 3bpp buffer in is a buffer of * 16bit pixels, out is a buffer of 24bit pixels */ static void rgb_565_to_888 (guint16 *in, guchar *out, gint32 num_pixels, RawType type) { guint32 i, j; guint16 input; gboolean swap_endian; if (G_BYTE_ORDER == G_LITTLE_ENDIAN || G_BYTE_ORDER == G_PDP_ENDIAN) { swap_endian = (type == RAW_RGB565_BE || type == RAW_BGR565_BE); } else if (G_BYTE_ORDER == G_BIG_ENDIAN) { swap_endian = (type == RAW_RGB565_LE || type == RAW_BGR565_LE); } switch (type) { case RAW_RGB565_LE: case RAW_RGB565_BE: for (i = 0, j = 0; i < num_pixels; i++) { input = in[i]; if (swap_endian) input = GUINT16_SWAP_LE_BE (input); out[j++] = ((((input >> 11) & 0x1f) * 0x21) >> 2); out[j++] = ((((input >> 5) & 0x3f) * 0x41) >> 4); out[j++] = ((((input >> 0) & 0x1f) * 0x21) >> 2); } break; case RAW_BGR565_BE: case RAW_BGR565_LE: for (i = 0, j = 0; i < num_pixels; i++) { input = in[i]; if (swap_endian) input = GUINT16_SWAP_LE_BE (input); out[j++] = ((((input >> 0) & 0x1f) * 0x21) >> 2); out[j++] = ((((input >> 5) & 0x3f) * 0x41) >> 4); out[j++] = ((((input >> 11) & 0x1f) * 0x21) >> 2); } break; default: /*This conversion function does not handle the passed in image-type*/ g_assert_not_reached (); } } /* this handles 3 bpp "planar" images */ static gboolean raw_load_planar (RawGimpData *data) { gint32 r_offset, g_offset, b_offset, i, j, k; guchar *r_row, *b_row, *g_row, *row; gint bpp = 3; /* adding support for alpha channel should be easy */ /* red, green, blue rows temporary data */ r_row = g_malloc (runtime->image_width); g_row = g_malloc (runtime->image_width); b_row = g_malloc (runtime->image_width); /* row for the pixel region, after combining RGB together */ row = g_malloc (runtime->image_width * bpp); r_offset = runtime->file_offset; g_offset = r_offset + runtime->image_width * runtime->image_height; b_offset = g_offset + runtime->image_width * runtime->image_height; for (i = 0; i < runtime->image_height; i++) { /* Read R, G, B rows */ raw_read_row (data->fp, r_row, r_offset + (runtime->image_width * i), runtime->image_width); raw_read_row (data->fp, g_row, g_offset + (runtime->image_width * i), runtime->image_width); raw_read_row (data->fp, b_row, b_offset + (runtime->image_width * i), runtime->image_width); /* Combine separate R, G and B rows into RGB triples */ for (j = 0, k = 0; j < runtime->image_width; j++) { row[k++] = r_row[j]; row[k++] = g_row[j]; row[k++] = b_row[j]; } gegl_buffer_set (data->buffer, GEGL_RECTANGLE (0, i, runtime->image_width, 1), 0, NULL, row, GEGL_AUTO_ROWSTRIDE); gimp_progress_update ((gfloat) i / (gfloat) runtime->image_height); } gimp_progress_update (1.0); g_free (row); g_free (r_row); g_free (g_row); g_free (b_row); return TRUE; } static gboolean raw_load_palette (RawGimpData *data, const gchar *palette_file) { guchar temp[1024]; gint fd, i, j; if (palette_file) { fd = g_open (palette_file, O_RDONLY, 0); if (! fd) return FALSE; lseek (fd, runtime->palette_offset, SEEK_SET); switch (runtime->palette_type) { case RAW_PALETTE_RGB: read (fd, data->cmap, 768); break; case RAW_PALETTE_BGR: read (fd, temp, 1024); for (i = 0, j = 0; i < 256; i++) { data->cmap[j++] = temp[i * 4 + 2]; data->cmap[j++] = temp[i * 4 + 1]; data->cmap[j++] = temp[i * 4 + 0]; } break; } close (fd); } else { /* make a fake grayscale color map */ for (i = 0, j = 0; i < 256; i++) { data->cmap[j++] = i; data->cmap[j++] = i; data->cmap[j++] = i; } } gimp_image_set_colormap (data->image_id, data->cmap, 256); return TRUE; } /* end new image handle functions */ static gboolean save_image (const gchar *filename, gint32 image_id, gint32 drawable_id, GError **error) { GeglBuffer *buffer; const Babl *format = NULL; guchar *cmap = NULL; /* colormap for indexed images */ guchar *buf; guchar *components[4] = { 0, }; gint n_components; gint32 width, height, bpp; FILE *fp; gint i, j, c; gint palsize = 0; gboolean ret = FALSE; /* get info about the current image */ buffer = gimp_drawable_get_buffer (drawable_id); switch (gimp_drawable_type (drawable_id)) { case GIMP_RGB_IMAGE: format = babl_format ("R'G'B' u8"); break; case GIMP_RGBA_IMAGE: format = babl_format ("R'G'B'A u8"); break; case GIMP_GRAY_IMAGE: format = babl_format ("Y' u8"); break; case GIMP_GRAYA_IMAGE: format = babl_format ("Y'A u8"); break; case GIMP_INDEXED_IMAGE: case GIMP_INDEXEDA_IMAGE: format = gimp_drawable_get_format (drawable_id); break; } n_components = babl_format_get_n_components (format); bpp = babl_format_get_bytes_per_pixel (format); if (gimp_drawable_is_indexed (drawable_id)) cmap = gimp_image_get_colormap (image_id, &palsize); width = gegl_buffer_get_width (buffer); height = gegl_buffer_get_height (buffer); buf = g_new (guchar, width * height * bpp); gegl_buffer_get (buffer, GEGL_RECTANGLE (0, 0, width, height), 1.0, format, buf, GEGL_AUTO_ROWSTRIDE, GEGL_ABYSS_NONE); g_object_unref (buffer); fp = g_fopen (filename, "wb"); if (! fp) { g_set_error (error, G_FILE_ERROR, g_file_error_from_errno (errno), _("Could not open '%s' for writing: %s"), gimp_filename_to_utf8 (filename), g_strerror (errno)); return FALSE; } ret = TRUE; switch (rawvals.image_type) { case RAW_RGB: if (! fwrite (buf, width * height * bpp, 1, fp)) { fclose (fp); return FALSE; } fclose (fp); if (cmap) { /* we have colormap, too.write it into filename+pal */ gchar *newfile = g_strconcat (filename, ".pal", NULL); gchar *temp; fp = g_fopen (newfile, "wb"); if (! fp) { g_set_error (error, G_FILE_ERROR, g_file_error_from_errno (errno), _("Could not open '%s' for writing: %s"), gimp_filename_to_utf8 (newfile), g_strerror (errno)); return FALSE; } switch (rawvals.palette_type) { case RAW_PALETTE_RGB: if (!fwrite (cmap, palsize * 3, 1, fp)) ret = FALSE; fclose (fp); break; case RAW_PALETTE_BGR: temp = g_malloc0 (palsize * 4); for (i = 0, j = 0; i < palsize * 3; i += 3) { temp[j++] = cmap[i + 2]; temp[j++] = cmap[i + 1]; temp[j++] = cmap[i + 0]; temp[j++] = 0; } if (!fwrite (temp, palsize * 4, 1, fp)) ret = FALSE; fclose (fp); g_free (temp); break; } } break; case RAW_PLANAR: for (c = 0; c < n_components; c++) components[c] = g_new (guchar, width * height); for (i = 0, j = 0; i < width * height * bpp; i += bpp, j++) { for (c = 0; c < n_components; c++) components[c][j] = buf[i + c]; } ret = TRUE; for (c = 0; c < n_components; c++) { if (! fwrite (components[c], width * height, 1, fp)) ret = FALSE; g_free (components[c]); } fclose (fp); break; default: fclose (fp); break; } return ret; } static gint32 load_image (const gchar *filename, GError **error) { RawGimpData *data; gint32 layer_id = -1; GimpImageType ltype = GIMP_RGB_IMAGE; GimpImageBaseType itype = GIMP_RGB; goffset size; gint bpp = 0; gint bitspp = 8; data = g_new0 (RawGimpData, 1); gimp_progress_init_printf (_("Opening '%s'"), gimp_filename_to_utf8 (filename)); data->fp = g_fopen (filename, "rb"); if (! data->fp) { g_set_error (error, G_FILE_ERROR, g_file_error_from_errno (errno), _("Could not open '%s' for reading: %s"), gimp_filename_to_utf8 (filename), g_strerror (errno)); return -1; } size = get_file_info (filename); switch (runtime->image_type) { case RAW_RGB: /* standard RGB */ case RAW_PLANAR: /* planar RGB */ bpp = 3; ltype = GIMP_RGB_IMAGE; itype = GIMP_RGB; break; case RAW_RGB565_BE: /* RGB565 big endian */ case RAW_RGB565_LE: /* RGB565 little endian */ case RAW_BGR565_BE: /* RGB565 big endian */ case RAW_BGR565_LE: /* RGB565 little endian */ bpp = 2; ltype = GIMP_RGB_IMAGE; itype = GIMP_RGB; break; case RAW_RGBA: /* RGB + alpha */ bpp = 4; ltype = GIMP_RGBA_IMAGE; itype = GIMP_RGB; break; case RAW_GRAY_1BPP: bpp = 1; bitspp = 1; ltype = GIMP_RGB_IMAGE; itype = GIMP_RGB; break; case RAW_GRAY_2BPP: bpp = 1; bitspp = 2; ltype = GIMP_RGB_IMAGE; itype = GIMP_RGB; break; case RAW_GRAY_4BPP: bpp = 1; bitspp = 4; ltype = GIMP_RGB_IMAGE; itype = GIMP_RGB; break; case RAW_GRAY_8BPP: bpp = 1; ltype = GIMP_RGB_IMAGE; itype = GIMP_RGB; break; case RAW_INDEXED: /* Indexed */ bpp = 1; ltype = GIMP_INDEXED_IMAGE; itype = GIMP_INDEXED; break; case RAW_INDEXEDA: /* Indexed + alpha */ bpp = 2; ltype = GIMP_INDEXEDA_IMAGE; itype = GIMP_INDEXED; break; case RAW_GRAY_16BPP_BE: case RAW_GRAY_16BPP_LE: case RAW_GRAY_16BPP_SBE: case RAW_GRAY_16BPP_SLE: bpp = 2; ltype = GIMP_RGB_IMAGE; itype = GIMP_RGB; break; } /* make sure we don't load image bigger than file size */ if (runtime->image_height > (size / runtime->image_width / bpp * 8 / bitspp)) runtime->image_height = size / runtime->image_width / bpp * 8 / bitspp; if (runtime->image_type >= RAW_GRAY_16BPP_BE) data->image_id = gimp_image_new_with_precision (runtime->image_width, runtime->image_height, itype, GIMP_PRECISION_U16_GAMMA); else data->image_id = gimp_image_new (runtime->image_width, runtime->image_height, itype); gimp_image_set_filename (data->image_id, filename); layer_id = gimp_layer_new (data->image_id, _("Background"), runtime->image_width, runtime->image_height, ltype, 100, gimp_image_get_default_new_layer_mode (data->image_id)); gimp_image_insert_layer (data->image_id, layer_id, -1, 0); data->buffer = gimp_drawable_get_buffer (layer_id); switch (runtime->image_type) { case RAW_RGB: case RAW_RGBA: raw_load_standard (data, bpp); break; case RAW_RGB565_BE: case RAW_RGB565_LE: case RAW_BGR565_BE: case RAW_BGR565_LE: raw_load_rgb565 (data, runtime->image_type); break; case RAW_PLANAR: raw_load_planar (data); break; case RAW_GRAY_1BPP: raw_load_gray (data, bpp, bitspp); break; case RAW_GRAY_2BPP: raw_load_gray (data, bpp, bitspp); break; case RAW_GRAY_4BPP: raw_load_gray (data, bpp, bitspp); break; case RAW_GRAY_8BPP: raw_load_gray (data, bpp, bitspp); break; case RAW_INDEXED: case RAW_INDEXEDA: raw_load_palette (data, palfile); raw_load_standard (data, bpp); break; case RAW_GRAY_16BPP_BE: case RAW_GRAY_16BPP_LE: case RAW_GRAY_16BPP_SBE: case RAW_GRAY_16BPP_SLE: raw_load_gray16 (data, runtime->image_type); break; } fclose (data->fp); g_object_unref (data->buffer); return data->image_id; } /* misc GUI stuff */ static void preview_update_size (GimpPreviewArea *preview) { gtk_widget_set_size_request (GTK_WIDGET (preview), runtime->image_width, runtime->image_height); } static void preview_update (GimpPreviewArea *preview) { gint width; gint height; gint32 pos; gint x, y; gint bitspp = 0; width = MIN (runtime->image_width, preview->width); height = MIN (runtime->image_height, preview->height); gimp_preview_area_fill (preview, 0, 0, preview->width, preview->height, 255, 255, 255); switch (runtime->image_type) { case RAW_RGB: /* standard RGB image */ { guchar *row = g_malloc0 (width * 3); for (y = 0; y < height; y++) { pos = runtime->file_offset + runtime->image_width * y * 3; mmap_read (preview_fd, row, width * 3, pos, width * 3); gimp_preview_area_draw (preview, 0, y, width, 1, GIMP_RGB_IMAGE, row, width * 3); } g_free (row); } break; case RAW_RGBA: /* RGB + alpha image */ { guchar *row = g_malloc0 (width * 4); for (y = 0; y < height; y++) { pos = runtime->file_offset + runtime->image_width * y * 4; mmap_read (preview_fd, row, width * 4, pos, width * 4); gimp_preview_area_draw (preview, 0, y, width, 1, GIMP_RGBA_IMAGE, row, width * 4); } g_free (row); } break; case RAW_RGB565_BE: case RAW_RGB565_LE: case RAW_BGR565_BE: case RAW_BGR565_LE: /* RGB565 image, big/little endian */ { guint16 *in = g_malloc0 (width * 2); guchar *row = g_malloc0 (width * 3); for (y = 0; y < height; y++) { pos = runtime->file_offset + runtime->image_width * y * 2; mmap_read (preview_fd, in, width * 2, pos, width * 2); rgb_565_to_888 (in, row, width, runtime->image_type); gimp_preview_area_draw (preview, 0, y, width, 1, GIMP_RGB_IMAGE, row, width * 3); } g_free (row); g_free (in); } break; case RAW_PLANAR: { guchar *r_row = g_malloc0 (width); guchar *g_row = g_malloc0 (width); guchar *b_row = g_malloc0 (width); guchar *row = g_malloc0 (width * 3); for (y = 0; y < height; y++) { gint j, k; pos = (runtime->file_offset + (y * runtime->image_width)); mmap_read (preview_fd, r_row, width, pos, width); pos = (runtime->file_offset + (runtime->image_width * (runtime->image_height + y))); mmap_read (preview_fd, g_row, width, pos, width); pos = (runtime->file_offset + (runtime->image_width * (runtime->image_height * 2 + y))); mmap_read (preview_fd, b_row, width, pos, width); for (j = 0, k = 0; j < width; j++) { row[k++] = r_row[j]; row[k++] = g_row[j]; row[k++] = b_row[j]; } gimp_preview_area_draw (preview, 0, y, width, 1, GIMP_RGB_IMAGE, row, width * 3); } g_free (b_row); g_free (g_row); g_free (r_row); g_free (row); } break; case RAW_GRAY_1BPP: if (! bitspp) bitspp = 1; case RAW_GRAY_2BPP: if (! bitspp) bitspp = 2; case RAW_GRAY_4BPP: if (! bitspp) bitspp = 4; case RAW_GRAY_8BPP: if (! bitspp) bitspp = 8; { guint in_size = height * width / (8 / bitspp); guint out_size = height * width * 3; guchar *in_raw = g_malloc0 (in_size); guchar *out_raw = g_malloc0 (out_size); guchar pixel_mask_hi; guchar pixel_mask_lo; gint i; /* calculate a pixel_mask_hi 0x80 for 1 bitspp 0xc0 for 2 bitspp 0xf0 for 4 bitspp 0xff for 8 bitspp and a pixel_mask_lo 0x01 for 1 bitspp 0x03 for 2 bitspp 0x0f for 4 bitspp 0xff for 8 bitspp */ pixel_mask_hi = 0x80; pixel_mask_lo = 0x01; for (i = 1; i < bitspp; i++) { pixel_mask_hi |= pixel_mask_hi >> 1; pixel_mask_lo |= pixel_mask_lo << 1; } mmap_read (preview_fd, in_raw, in_size, runtime->file_offset, in_size); x = 0; /* walks though all output pixels */ for (i = 0; i < in_size; i++) { guchar bit; for (bit = 0; bit < 8 / bitspp; bit++) { guchar pixel_val; pixel_val = in_raw[i] & (pixel_mask_hi >> (bit * bitspp)); pixel_val >>= 8 - bitspp - bit * bitspp; pixel_val *= 0xff / pixel_mask_lo; out_raw[3 * x + 0] = pixel_val; out_raw[3 * x + 1] = pixel_val; out_raw[3 * x + 2] = pixel_val; x++; } } gimp_preview_area_draw (preview, 0, 0, width, height, GIMP_RGB_IMAGE, out_raw, width * 3); g_free (in_raw); g_free (out_raw); } break; case RAW_INDEXED: case RAW_INDEXEDA: /* indexed image */ { gboolean alpha = (runtime->image_type == RAW_INDEXEDA); guchar *index = g_malloc0 (width * (alpha ? 2 : 1)); guchar *row = g_malloc0 (width * (alpha ? 4 : 3)); if (preview_cmap_update) { if (palfile) { gint fd; fd = g_open (palfile, O_RDONLY, 0); lseek (fd, runtime->palette_offset, SEEK_SET); read (fd, preview_cmap, (runtime->palette_type == RAW_PALETTE_RGB) ? 768 : 1024); close (fd); } else { /* make fake palette, maybe overwrite it later */ for (y = 0, x = 0; y < 256; y++) { preview_cmap[x++] = y; preview_cmap[x++] = y; if (runtime->palette_type == RAW_PALETTE_RGB) { preview_cmap[x++] = y; } else { preview_cmap[x++] = y; preview_cmap[x++] = 0; } } } preview_cmap_update = FALSE; } for (y = 0; y < height; y++) { guchar *p = row; if (alpha) { pos = runtime->file_offset + runtime->image_width * 2 * y; mmap_read (preview_fd, index, width * 2, pos, width); for (x = 0; x < width; x++) { switch (runtime->palette_type) { case RAW_PALETTE_RGB: *p++ = preview_cmap[index[2 * x] * 3 + 0]; *p++ = preview_cmap[index[2 * x] * 3 + 1]; *p++ = preview_cmap[index[2 * x] * 3 + 2]; *p++ = index[2 * x + 1]; break; case RAW_PALETTE_BGR: *p++ = preview_cmap[index[2 * x] * 4 + 2]; *p++ = preview_cmap[index[2 * x] * 4 + 1]; *p++ = preview_cmap[index[2 * x] * 4 + 0]; *p++ = index[2 * x + 1]; break; } } gimp_preview_area_draw (preview, 0, y, width, 1, GIMP_RGBA_IMAGE, row, width * 4); } else { pos = runtime->file_offset + runtime->image_width * y; mmap_read (preview_fd, index, width, pos, width); for (x = 0; x < width; x++) { switch (runtime->palette_type) { case RAW_PALETTE_RGB: *p++ = preview_cmap[index[x] * 3 + 0]; *p++ = preview_cmap[index[x] * 3 + 1]; *p++ = preview_cmap[index[x] * 3 + 2]; break; case RAW_PALETTE_BGR: *p++ = preview_cmap[index[x] * 4 + 2]; *p++ = preview_cmap[index[x] * 4 + 1]; *p++ = preview_cmap[index[x] * 4 + 0]; break; } } gimp_preview_area_draw (preview, 0, y, width, 1, GIMP_RGB_IMAGE, row, width * 3); } } g_free (row); g_free (index); } break; case RAW_GRAY_16BPP_BE: case RAW_GRAY_16BPP_LE: case RAW_GRAY_16BPP_SBE: case RAW_GRAY_16BPP_SLE: { guint16 *r_row = g_new (guint16, width); guchar *row = g_malloc (width); for (y = 0; y < height; y++) { gint j; pos = (runtime->file_offset + (y * runtime->image_width * 2)); mmap_read (preview_fd, (guchar*) r_row, 2 * width, pos, width); for (j = 0; j < width; j++) { gint pixel_val; if (runtime->image_type == RAW_GRAY_16BPP_BE) pixel_val = GUINT16_FROM_BE (r_row[j]); else if (runtime->image_type == RAW_GRAY_16BPP_LE) pixel_val = GUINT16_FROM_LE (r_row[j]); else if (runtime->image_type == RAW_GRAY_16BPP_SBE) pixel_val = GINT16_FROM_BE (r_row[j]) - G_MININT16; else /* if (runtime->image_type == RAW_GRAY_16BPP_SLE)*/ pixel_val = GINT16_FROM_LE (r_row[j]) - G_MININT16; row[j] = pixel_val / 257; } gimp_preview_area_draw (preview, 0, y, width, 1, GIMP_GRAY_IMAGE, row, width * 3); } g_free (r_row); g_free (row); } break; } } static void palette_update (GimpPreviewArea *preview) { preview_cmap_update = TRUE; preview_update (preview); } static gboolean load_dialog (const gchar *filename, gboolean is_hgt) { GtkWidget *dialog; GtkWidget *main_vbox; GtkWidget *preview; GtkWidget *sw; GtkWidget *viewport; GtkWidget *frame; GtkWidget *table; GtkWidget *combo; GtkWidget *button; GtkObject *adj; goffset file_size; gboolean run; file_size = get_file_info (filename); gimp_ui_init (PLUG_IN_BINARY, TRUE); dialog = gimp_dialog_new (_("Load Image from Raw Data"), PLUG_IN_ROLE, NULL, 0, gimp_standard_help_func, is_hgt ? LOAD_HGT_PROC : LOAD_PROC, _("_Cancel"), GTK_RESPONSE_CANCEL, _("_Open"), GTK_RESPONSE_OK, NULL); gtk_dialog_set_alternative_button_order (GTK_DIALOG (dialog), GTK_RESPONSE_OK, GTK_RESPONSE_CANCEL, -1); main_vbox = gtk_box_new (GTK_ORIENTATION_VERTICAL, 12); gtk_container_set_border_width (GTK_CONTAINER (main_vbox), 12); gtk_box_pack_start (GTK_BOX (gtk_dialog_get_content_area (GTK_DIALOG (dialog))), main_vbox, TRUE, TRUE, 0); gtk_widget_show (main_vbox); sw = gtk_scrolled_window_new (NULL, NULL); gtk_scrolled_window_set_policy (GTK_SCROLLED_WINDOW (sw), GTK_POLICY_AUTOMATIC, GTK_POLICY_AUTOMATIC); gtk_box_pack_start (GTK_BOX (main_vbox), sw, TRUE, TRUE, 0); gtk_widget_set_size_request (sw, PREVIEW_SIZE, PREVIEW_SIZE); gtk_widget_show (sw); viewport = gtk_viewport_new (NULL, NULL); gtk_container_add (GTK_CONTAINER (sw), viewport); gtk_widget_show (viewport); preview = gimp_preview_area_new (); gtk_widget_set_size_request (preview, runtime->image_width, runtime->image_height); gtk_container_add (GTK_CONTAINER (viewport), preview); gtk_widget_show (preview); g_signal_connect_after (preview, "size-allocate", G_CALLBACK (preview_update), NULL); if (is_hgt) { if (runtime->image_width == 1201) /* Translators: Digital Elevation Model (DEM) is a technical term * used for 3D surface modeling or relief maps; so it must be * translated by the proper technical term in your language. */ frame = gimp_frame_new (_("Digital Elevation Model data (1 arc-second)")); else if (runtime->image_width == 3601) frame = gimp_frame_new (_("Digital Elevation Model data (3 arc-seconds)")); else frame = gimp_frame_new (_("Digital Elevation Model data")); } else { frame = gimp_frame_new (_("Image")); } gtk_box_pack_start (GTK_BOX (main_vbox), frame, FALSE, FALSE, 0); gtk_widget_show (frame); table = gtk_table_new (4, 3, FALSE); gtk_table_set_col_spacings (GTK_TABLE (table), 6); gtk_table_set_row_spacings (GTK_TABLE (table), 4); gtk_container_add (GTK_CONTAINER (frame), table); gtk_widget_show (table); combo = NULL; if (is_hgt && runtime->image_width != 1201 && runtime->image_width != 3601) { /* When auto-detection of the HGT variant failed, let's just * default to SRTM-3 and show a dropdown list. */ runtime->image_width = 1201; runtime->image_height = 1201; /* 2 types of HGT files are possible: SRTM-1 and SRTM-3. * From the documentation: https://dds.cr.usgs.gov/srtm/version1/Documentation/SRTM_Topo.txt * "SRTM-1 data are sampled at one arc-second of latitude and longitude and * each file contains 3601 lines and 3601 samples. * [...] * SRTM-3 data are sampled at three arc-seconds and contain 1201 lines and * 1201 samples with similar overlapping rows and columns." */ combo = gimp_int_combo_box_new (_("SRTM-1 (1 arc-second)"), 3601, _("SRTM-3 (3 arc-seconds)"), 1201, NULL); gimp_table_attach_aligned (GTK_TABLE (table), 0, 0, _("_Sample Spacing:"), 0.0, 0.5, combo, 2, FALSE); g_signal_connect (combo, "changed", G_CALLBACK (gimp_int_combo_box_get_active), &runtime->image_width); g_signal_connect (combo, "changed", G_CALLBACK (gimp_int_combo_box_get_active), &runtime->image_height); /* By default, SRTM-3 is active. */ gimp_int_combo_box_set_active (GIMP_INT_COMBO_BOX (combo), 1201); } else if (! is_hgt) { /* Generic case for any data. Let's leave choice to select the * right type of raw data. */ combo = gimp_int_combo_box_new (_("RGB"), RAW_RGB, _("RGB Alpha"), RAW_RGBA, _("RGB565 Big Endian"), RAW_RGB565_BE, _("RGB565 Little Endian"), RAW_RGB565_LE, _("BGR565 Big Endian"), RAW_BGR565_BE, _("BGR565 Little Endian"), RAW_BGR565_LE, _("Planar RGB"), RAW_PLANAR, _("B&W 1 bit"), RAW_GRAY_1BPP, _("Gray 2 bit"), RAW_GRAY_2BPP, _("Gray 4 bit"), RAW_GRAY_4BPP, _("Gray 8 bit"), RAW_GRAY_8BPP, _("Indexed"), RAW_INDEXED, _("Indexed Alpha"), RAW_INDEXEDA, _("Gray unsigned 16 bit Big Endian"), RAW_GRAY_16BPP_BE, _("Gray unsigned 16 bit Little Endian"), RAW_GRAY_16BPP_LE, _("Gray 16 bit Big Endian"), RAW_GRAY_16BPP_SBE, _("Gray 16 bit Little Endian"), RAW_GRAY_16BPP_SLE, NULL); gimp_int_combo_box_set_active (GIMP_INT_COMBO_BOX (combo), runtime->image_type); gimp_table_attach_aligned (GTK_TABLE (table), 0, 0, _("Image _Type:"), 0.0, 0.5, combo, 2, FALSE); g_signal_connect (combo, "changed", G_CALLBACK (gimp_int_combo_box_get_active), &runtime->image_type); } if (combo) g_signal_connect_swapped (combo, "changed", G_CALLBACK (preview_update), preview); adj = gimp_scale_entry_new (GTK_TABLE (table), 0, 1, _("O_ffset:"), -1, 9, runtime->file_offset, 0, file_size, 1, 1000, 0, TRUE, 0.0, 0.0, NULL, NULL); g_signal_connect (adj, "value-changed", G_CALLBACK (gimp_int_adjustment_update), &runtime->file_offset); g_signal_connect_swapped (adj, "value-changed", G_CALLBACK (preview_update), preview); if (! is_hgt) { adj = gimp_scale_entry_new (GTK_TABLE (table), 0, 2, _("_Width:"), -1, 9, runtime->image_width, 1, file_size, 1, 10, 0, TRUE, 0.0, 0.0, NULL, NULL); g_signal_connect (adj, "value-changed", G_CALLBACK (gimp_int_adjustment_update), &runtime->image_width); g_signal_connect_swapped (adj, "value-changed", G_CALLBACK (preview_update_size), preview); g_signal_connect_swapped (adj, "value-changed", G_CALLBACK (preview_update), preview); adj = gimp_scale_entry_new (GTK_TABLE (table), 0, 3, _("_Height:"), -1, 9, runtime->image_height, 1, file_size, 1, 10, 0, TRUE, 0.0, 0.0, NULL, NULL); g_signal_connect (adj, "value-changed", G_CALLBACK (gimp_int_adjustment_update), &runtime->image_height); g_signal_connect_swapped (adj, "value-changed", G_CALLBACK (preview_update_size), preview); g_signal_connect_swapped (adj, "value-changed", G_CALLBACK (preview_update), preview); } frame = gimp_frame_new (_("Palette")); gtk_box_pack_start (GTK_BOX (main_vbox), frame, FALSE, FALSE, 0); gtk_widget_show (frame); table = gtk_table_new (3, 3, FALSE); gtk_table_set_col_spacings (GTK_TABLE (table), 6); gtk_table_set_row_spacings (GTK_TABLE (table), 4); gtk_container_add (GTK_CONTAINER (frame), table); gtk_widget_show (table); combo = gimp_int_combo_box_new (_("R, G, B (normal)"), RAW_PALETTE_RGB, _("B, G, R, X (BMP style)"), RAW_PALETTE_BGR, NULL); gimp_int_combo_box_set_active (GIMP_INT_COMBO_BOX (combo), runtime->palette_type); gimp_table_attach_aligned (GTK_TABLE (table), 0, 0, _("_Palette Type:"), 0.0, 0.5, combo, 2, FALSE); g_signal_connect (combo, "changed", G_CALLBACK (gimp_int_combo_box_get_active), &runtime->palette_type); g_signal_connect_swapped (combo, "changed", G_CALLBACK (palette_update), preview); adj = gimp_scale_entry_new (GTK_TABLE (table), 0, 1, _("Off_set:"), -1, 0, runtime->palette_offset, 0, 1 << 24, 1, 768, 0, TRUE, 0.0, 0.0, NULL, NULL); g_signal_connect (adj, "value-changed", G_CALLBACK (gimp_int_adjustment_update), &runtime->palette_offset); g_signal_connect_swapped (adj, "value-changed", G_CALLBACK (palette_update), preview); button = gtk_file_chooser_button_new (_("Select Palette File"), GTK_FILE_CHOOSER_ACTION_OPEN); if (palfile) gtk_file_chooser_set_filename (GTK_FILE_CHOOSER (button), palfile); gimp_table_attach_aligned (GTK_TABLE (table), 0, 2, _("Pal_ette File:"), 0.0, 0.5, button, 2, FALSE); g_signal_connect (button, "selection-changed", G_CALLBACK (palette_callback), preview); gtk_widget_show (dialog); run = (gimp_dialog_run (GIMP_DIALOG (dialog)) == GTK_RESPONSE_OK); gtk_widget_destroy (dialog); return run; } static GtkWidget * radio_button_init (GtkBuilder *builder, const gchar *name, gint item_data, gint initial_value, gpointer value_pointer) { GtkWidget *radio = NULL; radio = GTK_WIDGET (gtk_builder_get_object (builder, name)); if (item_data) g_object_set_data (G_OBJECT (radio), "gimp-item-data", GINT_TO_POINTER (item_data)); if (initial_value == item_data) gtk_toggle_button_set_active (GTK_TOGGLE_BUTTON (radio), TRUE); g_signal_connect (radio, "toggled", G_CALLBACK (gimp_radio_button_update), value_pointer); return radio; } static gboolean save_dialog (gint32 image_id) { RawSaveGui rg; GtkWidget *dialog; GtkBuilder *builder; gchar *ui_file; GError *error = NULL; gimp_ui_init (PLUG_IN_BINARY, TRUE); /* Dialog init */ dialog = gimp_export_dialog_new (_("Raw Image"), PLUG_IN_BINARY, SAVE_PROC); g_signal_connect (dialog, "response", G_CALLBACK (save_dialog_response), &rg); g_signal_connect (dialog, "destroy", G_CALLBACK (gtk_main_quit), NULL); /* GtkBuilder init */ builder = gtk_builder_new (); ui_file = g_build_filename (gimp_data_directory (), "ui/plug-ins/plug-in-file-raw.ui", NULL); if (! gtk_builder_add_from_file (builder, ui_file, &error)) { gchar *display_name = g_filename_display_name (ui_file); g_printerr (_("Error loading UI file '%s': %s"), display_name, error ? error->message : _("Unknown error")); g_free (display_name); } g_free (ui_file); /* VBox */ gtk_box_pack_start (GTK_BOX (gimp_export_dialog_get_content_area (dialog)), GTK_WIDGET (gtk_builder_get_object (builder, "vbox")), FALSE, FALSE, 0); /* Radios */ rg.image_type_standard = radio_button_init (builder, "image-type-standard", RAW_RGB, rawvals.image_type, &rawvals.image_type); rg.image_type_planar = radio_button_init (builder, "image-type-planar", RAW_PLANAR, rawvals.image_type, &rawvals.image_type); rg.palette_type_normal = radio_button_init (builder, "palette-type-normal", RAW_PALETTE_RGB, rawvals.palette_type, &rawvals.palette_type); rg.palette_type_bmp = radio_button_init (builder, "palette-type-bmp", RAW_PALETTE_BGR, rawvals.palette_type, &rawvals.palette_type); /* Load/save defaults buttons */ g_signal_connect_swapped (gtk_builder_get_object (builder, "load-defaults"), "clicked", G_CALLBACK (load_gui_defaults), &rg); g_signal_connect_swapped (gtk_builder_get_object (builder, "save-defaults"), "clicked", G_CALLBACK (save_defaults), &rg); /* Show dialog and run */ gtk_widget_show (dialog); rg.run = FALSE; gtk_main (); return rg.run; } static void save_dialog_response (GtkWidget *widget, gint response_id, gpointer data) { RawSaveGui *rg = data; switch (response_id) { case GTK_RESPONSE_OK: rg->run = TRUE; default: gtk_widget_destroy (widget); break; } } static void palette_callback (GtkFileChooser *button, GimpPreviewArea *preview) { if (palfile) g_free (palfile); palfile = gtk_file_chooser_get_filename (button); palette_update (preview); } static void load_defaults (void) { GimpParasite *parasite; /* initialize with hardcoded defaults */ rawvals = defaults; parasite = gimp_get_parasite (RAW_DEFAULTS_PARASITE); if (parasite) { gchar *def_str; RawSaveVals tmpvals = defaults; gint num_fields; def_str = g_strndup (gimp_parasite_data (parasite), gimp_parasite_data_size (parasite)); gimp_parasite_free (parasite); num_fields = sscanf (def_str, "%d %d", (int *) &tmpvals.image_type, (int *) &tmpvals.palette_type); g_free (def_str); if (num_fields == 2) rawvals = tmpvals; } } static void save_defaults (void) { GimpParasite *parasite; gchar *def_str; def_str = g_strdup_printf ("%d %d", rawvals.image_type, rawvals.palette_type); parasite = gimp_parasite_new (RAW_DEFAULTS_PARASITE, GIMP_PARASITE_PERSISTENT, strlen (def_str), def_str); gimp_attach_parasite (parasite); gimp_parasite_free (parasite); g_free (def_str); } static void load_gui_defaults (RawSaveGui *rg) { load_defaults (); #define SET_ACTIVE(field, datafield) \ if (GPOINTER_TO_INT (g_object_get_data (G_OBJECT (rg->field), "gimp-item-data")) == rawvals.datafield) \ gtk_toggle_button_set_active (GTK_TOGGLE_BUTTON (rg->field), TRUE) SET_ACTIVE (image_type_standard, image_type); SET_ACTIVE (image_type_planar, image_type); SET_ACTIVE (palette_type_normal, palette_type); SET_ACTIVE (palette_type_bmp, palette_type); #undef SET_ACTIVE }