1 /* 2 * This file is part of gtkD. 3 * 4 * gtkD is free software; you can redistribute it and/or modify 5 * it under the terms of the GNU Lesser General Public License 6 * as published by the Free Software Foundation; either version 3 7 * of the License, or (at your option) any later version, with 8 * some exceptions, please read the COPYING file. 9 * 10 * gtkD is distributed in the hope that it will be useful, 11 * but WITHOUT ANY WARRANTY; without even the implied warranty of 12 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the 13 * GNU Lesser General Public License for more details. 14 * 15 * You should have received a copy of the GNU Lesser General Public License 16 * along with gtkD; if not, write to the Free Software 17 * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110, USA 18 */ 19 20 // generated automatically - do not change 21 // find conversion definition on APILookup.txt 22 // implement new conversion functionalities on the wrap.utils pakage 23 24 25 module gtkc.gdkpixbuftypes; 26 27 public import gtkc.glibtypes; 28 public import gtkc.gobjecttypes; 29 public import gtkc.gdktypes; 30 public import gtkc.atktypes; 31 private import std.stdio; 32 33 /** 34 * This enumeration defines the color spaces that are supported by 35 * the gdk-pixbuf library. Currently only RGB is supported. 36 */ 37 public enum GdkColorspace 38 { 39 /** 40 * Indicates a red/green/blue additive color space. 41 */ 42 RGB = 0, 43 } 44 alias GdkColorspace Colorspace; 45 46 /** 47 * This enumeration describes the different interpolation modes that 48 * can be used with the scaling functions. @GDK_INTERP_NEAREST is 49 * the fastest scaling method, but has horrible quality when 50 * scaling down. @GDK_INTERP_BILINEAR is the best choice if you 51 * aren't sure what to choose, it has a good speed/quality balance. 52 * 53 * <note> 54 * Cubic filtering is missing from the list; hyperbolic 55 * interpolation is just as fast and results in higher quality. 56 * </note> 57 */ 58 public enum GdkInterpType 59 { 60 /** 61 * Nearest neighbor sampling; this is the fastest 62 * and lowest quality mode. Quality is normally unacceptable when scaling 63 * down, but may be OK when scaling up. 64 */ 65 NEAREST = 0, 66 /** 67 * This is an accurate simulation of the PostScript 68 * image operator without any interpolation enabled. Each pixel is 69 * rendered as a tiny parallelogram of solid color, the edges of which 70 * are implemented with antialiasing. It resembles nearest neighbor for 71 * enlargement, and bilinear for reduction. 72 */ 73 TILES = 1, 74 /** 75 * Best quality/speed balance; use this mode by 76 * default. Bilinear interpolation. For enlargement, it is 77 * equivalent to point-sampling the ideal bilinear-interpolated image. 78 * For reduction, it is equivalent to laying down small tiles and 79 * integrating over the coverage area. 80 */ 81 BILINEAR = 2, 82 /** 83 * This is the slowest and highest quality 84 * reconstruction function. It is derived from the hyperbolic filters in 85 * Wolberg's "Digital Image Warping", and is formally defined as the 86 * hyperbolic-filter sampling the ideal hyperbolic-filter interpolated 87 * image (the filter is designed to be idempotent for 1:1 pixel mapping). 88 */ 89 HYPER = 3, 90 } 91 alias GdkInterpType InterpType; 92 93 /** 94 * These values can be passed to 95 * gdk_pixbuf_render_to_drawable_alpha() to control how the alpha 96 * channel of an image should be handled. This function can create a 97 * bilevel clipping mask (black and white) and use it while painting 98 * the image. In the future, when the X Window System gets an alpha 99 * channel extension, it will be possible to do full alpha 100 * compositing onto arbitrary drawables. For now both cases fall 101 * back to a bilevel clipping mask. 102 */ 103 public enum GdkPixbufAlphaMode 104 { 105 /** 106 * A bilevel clipping mask (black and white) 107 * will be created and used to draw the image. Pixels below 0.5 opacity 108 * will be considered fully transparent, and all others will be 109 * considered fully opaque. 110 */ 111 BILEVEL = 0, 112 /** 113 * For now falls back to #GDK_PIXBUF_ALPHA_BILEVEL. 114 * In the future it will do full alpha compositing. 115 */ 116 FULL = 1, 117 } 118 alias GdkPixbufAlphaMode PixbufAlphaMode; 119 120 /** 121 * An error code in the #GDK_PIXBUF_ERROR domain. Many gdk-pixbuf 122 * operations can cause errors in this domain, or in the #G_FILE_ERROR 123 * domain. 124 */ 125 public enum GdkPixbufError 126 { 127 /** 128 * An image file was broken somehow. 129 */ 130 CORRUPT_IMAGE = 0, 131 /** 132 * Not enough memory. 133 */ 134 INSUFFICIENT_MEMORY = 1, 135 /** 136 * A bad option was passed to a pixbuf save module. 137 */ 138 BAD_OPTION = 2, 139 /** 140 * Unknown image type. 141 */ 142 UNKNOWN_TYPE = 3, 143 /** 144 * Don't know how to perform the 145 * given operation on the type of image at hand. 146 */ 147 UNSUPPORTED_OPERATION = 4, 148 /** 149 * Generic failure code, something went wrong. 150 */ 151 FAILED = 5, 152 /** 153 * Only part of the animation was loaded. 154 */ 155 INCOMPLETE_ANIMATION = 6, 156 } 157 alias GdkPixbufError PixbufError; 158 159 /** 160 * The possible rotations which can be passed to gdk_pixbuf_rotate_simple(). 161 * To make them easier to use, their numerical values are the actual degrees. 162 */ 163 public enum GdkPixbufRotation 164 { 165 /** 166 * No rotation. 167 */ 168 NONE = 0, 169 /** 170 * Rotate by 90 degrees. 171 */ 172 COUNTERCLOCKWISE = 90, 173 /** 174 * Rotate by 180 degrees. 175 */ 176 UPSIDEDOWN = 180, 177 /** 178 * Rotate by 270 degrees. 179 */ 180 CLOCKWISE = 270, 181 } 182 alias GdkPixbufRotation PixbufRotation; 183 184 /** 185 * An enumeration which is used by gdk_pixdata_to_csource() to 186 * determine the form of C source to be generated. The three values 187 * @GDK_PIXDATA_DUMP_PIXDATA_STREAM, @GDK_PIXDATA_DUMP_PIXDATA_STRUCT 188 * and @GDK_PIXDATA_DUMP_MACROS are mutually exclusive, as are 189 * @GDK_PIXBUF_DUMP_GTYPES and @GDK_PIXBUF_DUMP_CTYPES. The remaining 190 * elements are optional flags that can be freely added. 191 */ 192 public enum GdkPixdataDumpType 193 { 194 /** 195 * Generate pixbuf data stream (a single 196 * string containing a serialized #GdkPixdata structure in network byte 197 * order). 198 */ 199 PIXDATA_STREAM = 0, 200 /** 201 * Generate #GdkPixdata structure (needs 202 * the #GdkPixdata structure definition from gdk-pixdata.h). 203 */ 204 PIXDATA_STRUCT = 1, 205 /** 206 * Generate <function>*_ROWSTRIDE</function>, 207 * <function>*_WIDTH</function>, <function>*_HEIGHT</function>, 208 * <function>*_BYTES_PER_PIXEL</function> and 209 * <function>*_RLE_PIXEL_DATA</function> or <function>*_PIXEL_DATA</function> 210 * macro definitions for the image. 211 */ 212 MACROS = 2, 213 /** 214 * Generate GLib data types instead of 215 * standard C data types. 216 */ 217 GTYPES = 0, 218 /** 219 * Generate standard C data types instead of 220 * GLib data types. 221 */ 222 CTYPES = 256, 223 /** 224 * Generate static symbols. 225 */ 226 STATIC = 512, 227 /** 228 * Generate const symbols. 229 */ 230 CONST = 1024, 231 /** 232 * Provide a <function>*_RUN_LENGTH_DECODE(image_buf, rle_data, size, bpp)</function> 233 * macro definition to decode run-length encoded image data. 234 */ 235 RLE_DECODER = 65536, 236 } 237 alias GdkPixdataDumpType PixdataDumpType; 238 239 /** 240 * An enumeration containing three sets of flags for a #GdkPixdata struct: 241 * one for the used colorspace, one for the width of the samples and one 242 * for the encoding of the pixel data. 243 */ 244 public enum GdkPixdataType 245 { 246 /** 247 * each pixel has red, green and blue samples. 248 */ 249 COLOR_TYPE_RGB = 1, 250 /** 251 * each pixel has red, green and blue samples 252 * and an alpha value. 253 */ 254 COLOR_TYPE_RGBA = 2, 255 /** 256 * mask for the colortype flags of the enum. 257 */ 258 COLOR_TYPE_MASK = 255, 259 /** 260 * each sample has 8 bits. 261 */ 262 SAMPLE_WIDTH_8 = 65536, 263 /** 264 * mask for the sample width flags of the enum. 265 */ 266 SAMPLE_WIDTH_MASK = 983040, 267 /** 268 * the pixel data is in raw form. 269 */ 270 ENCODING_RAW = 16777216, 271 /** 272 * the pixel data is run-length encoded. Runs may 273 * be up to 127 bytes long; their length is stored in a single byte 274 * preceding the pixel data for the run. If a run is constant, its length 275 * byte has the high bit set and the pixel data consists of a single pixel 276 * which must be repeated. 277 */ 278 ENCODING_RLE = 33554432, 279 /** 280 * mask for the encoding flags of the enum. 281 */ 282 ENCODING_MASK = 251658240, 283 } 284 alias GdkPixdataType PixdataType; 285 286 struct GdkPixbuf; 287 288 struct GdkPixbufAnimation; 289 290 struct GdkPixbufAnimationIter; 291 292 struct GdkPixbufFormat; 293 294 struct GdkPixbufLoader 295 { 296 GObject parentInstance; 297 void* priv; 298 } 299 300 struct GdkPixbufLoaderClass 301 { 302 GObjectClass parentClass; 303 /** */ 304 extern(C) void function(GdkPixbufLoader* loader, int width, int height) sizePrepared; 305 /** */ 306 extern(C) void function(GdkPixbufLoader* loader) areaPrepared; 307 /** */ 308 extern(C) void function(GdkPixbufLoader* loader, int x, int y, int width, int height) areaUpdated; 309 /** */ 310 extern(C) void function(GdkPixbufLoader* loader) closed; 311 } 312 313 struct GdkPixbufSimpleAnim; 314 315 struct GdkPixbufSimpleAnimClass; 316 317 318 struct GdkPixdata 319 { 320 /** 321 * magic number. A valid #GdkPixdata structure must have 322 * #GDK_PIXBUF_MAGIC_NUMBER here. 323 */ 324 uint magic; 325 /** 326 * less than 1 to disable length checks, otherwise 327 * #GDK_PIXDATA_HEADER_LENGTH + length of @pixel_data. 328 */ 329 int length; 330 /** 331 * information about colorspace, sample width and 332 * encoding, in a #GdkPixdataType. 333 */ 334 uint pixdataType; 335 /** 336 * Distance in bytes between rows. 337 */ 338 uint rowstride; 339 /** 340 * Width of the image in pixels. 341 */ 342 uint width; 343 /** 344 * Height of the image in pixels. 345 */ 346 uint height; 347 /** 348 * @width x @height pixels, encoded according to @pixdata_type 349 * and @rowstride. 350 */ 351 ubyte* pixelData; 352 } 353 354 /** 355 * A function of this type is responsible for freeing the pixel array 356 * of a pixbuf. The gdk_pixbuf_new_from_data() function lets you 357 * pass in a pre-allocated pixel array so that a pixbuf can be 358 * created from it; in this case you will need to pass in a function 359 * of #GdkPixbufDestroyNotify so that the pixel data can be freed 360 * when the pixbuf is finalized. 361 * 362 * Params: 363 * pixels = The pixel array of the pixbuf 364 * that is being finalized. 365 * data = User closure data. 366 */ 367 public alias extern(C) void function(char* pixels, void* data) GdkPixbufDestroyNotify; 368 369 /** 370 * Specifies the type of the function passed to 371 * gdk_pixbuf_save_to_callback(). It is called once for each block of 372 * bytes that is "written" by gdk_pixbuf_save_to_callback(). If 373 * successful it should return %TRUE. If an error occurs it should set 374 * @error and return %FALSE, in which case gdk_pixbuf_save_to_callback() 375 * will fail with the same error. 376 * 377 * Params: 378 * buf = bytes to be written. 379 * count = number of bytes in @buf. 380 * error = A location to return an error. 381 * data = user data passed to gdk_pixbuf_save_to_callback(). 382 * 383 * Return: %TRUE if successful, %FALSE (with @error set) if failed. 384 * 385 * Since: 2.4 386 */ 387 public alias extern(C) int function(char* buf, size_t count, GError** error, void* data) GdkPixbufSaveFunc;