sv-dependency-builds: win64-mingw/include/FLAC/metadata.h annotate

annotate win64-mingw/include/FLAC/metadata.h @ 132:42a73082be24

Current Capnp libs and headers from git

author	Chris Cannam <cannam@all-day-breakfast.com>
date	Thu, 20 Oct 2016 18:15:38 +0100
parents	c9cf28b398fb
children

rev	line source
cannam@120	1 /* libFLAC - Free Lossless Audio Codec library
cannam@120	2 * Copyright (C) 2001,2002,2003,2004,2005,2006,2007 Josh Coalson
cannam@120	3 *
cannam@120	4 * Redistribution and use in source and binary forms, with or without
cannam@120	5 * modification, are permitted provided that the following conditions
cannam@120	6 * are met:
cannam@120	7 *
cannam@120	8 * - Redistributions of source code must retain the above copyright
cannam@120	9 * notice, this list of conditions and the following disclaimer.
cannam@120	10 *
cannam@120	11 * - Redistributions in binary form must reproduce the above copyright
cannam@120	12 * notice, this list of conditions and the following disclaimer in the
cannam@120	13 * documentation and/or other materials provided with the distribution.
cannam@120	14 *
cannam@120	15 * - Neither the name of the Xiph.org Foundation nor the names of its
cannam@120	16 * contributors may be used to endorse or promote products derived from
cannam@120	17 * this software without specific prior written permission.
cannam@120	18 *
cannam@120	19 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
cannam@120	20 * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
cannam@120	21 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
cannam@120	22 * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR
cannam@120	23 * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
cannam@120	24 * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
cannam@120	25 * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
cannam@120	26 * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
cannam@120	27 * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
cannam@120	28 * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
cannam@120	29 * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
cannam@120	30 */
cannam@120	31
cannam@120	32 #ifndef FLAC__METADATA_H
cannam@120	33 #define FLAC__METADATA_H
cannam@120	34
cannam@120	35 #include <sys/types.h> /* for off_t */
cannam@120	36 #include "export.h"
cannam@120	37 #include "callback.h"
cannam@120	38 #include "format.h"
cannam@120	39
cannam@120	40 /* --------------------------------------------------------------------
cannam@120	41 (For an example of how all these routines are used, see the source
cannam@120	42 code for the unit tests in src/test_libFLAC/metadata_*.c, or
cannam@120	43 metaflac in src/metaflac/)
cannam@120	44 ------------------------------------------------------------------*/
cannam@120	45
cannam@120	46 /** \file include/FLAC/metadata.h
cannam@120	47 *
cannam@120	48 * \brief
cannam@120	49 * This module provides functions for creating and manipulating FLAC
cannam@120	50 * metadata blocks in memory, and three progressively more powerful
cannam@120	51 * interfaces for traversing and editing metadata in FLAC files.
cannam@120	52 *
cannam@120	53 * See the detailed documentation for each interface in the
cannam@120	54 * \link flac_metadata metadata \endlink module.
cannam@120	55 */
cannam@120	56
cannam@120	57 /** \defgroup flac_metadata FLAC/metadata.h: metadata interfaces
cannam@120	58 * \ingroup flac
cannam@120	59 *
cannam@120	60 * \brief
cannam@120	61 * This module provides functions for creating and manipulating FLAC
cannam@120	62 * metadata blocks in memory, and three progressively more powerful
cannam@120	63 * interfaces for traversing and editing metadata in native FLAC files.
cannam@120	64 * Note that currently only the Chain interface (level 2) supports Ogg
cannam@120	65 * FLAC files, and it is read-only i.e. no writing back changed
cannam@120	66 * metadata to file.
cannam@120	67 *
cannam@120	68 * There are three metadata interfaces of increasing complexity:
cannam@120	69 *
cannam@120	70 * Level 0:
cannam@120	71 * Read-only access to the STREAMINFO, VORBIS_COMMENT, CUESHEET, and
cannam@120	72 * PICTURE blocks.
cannam@120	73 *
cannam@120	74 * Level 1:
cannam@120	75 * Read-write access to all metadata blocks. This level is write-
cannam@120	76 * efficient in most cases (more on this below), and uses less memory
cannam@120	77 * than level 2.
cannam@120	78 *
cannam@120	79 * Level 2:
cannam@120	80 * Read-write access to all metadata blocks. This level is write-
cannam@120	81 * efficient in all cases, but uses more memory since all metadata for
cannam@120	82 * the whole file is read into memory and manipulated before writing
cannam@120	83 * out again.
cannam@120	84 *
cannam@120	85 * What do we mean by efficient? Since FLAC metadata appears at the
cannam@120	86 * beginning of the file, when writing metadata back to a FLAC file
cannam@120	87 * it is possible to grow or shrink the metadata such that the entire
cannam@120	88 * file must be rewritten. However, if the size remains the same during
cannam@120	89 * changes or PADDING blocks are utilized, only the metadata needs to be
cannam@120	90 * overwritten, which is much faster.
cannam@120	91 *
cannam@120	92 * Efficient means the whole file is rewritten at most one time, and only
cannam@120	93 * when necessary. Level 1 is not efficient only in the case that you
cannam@120	94 * cause more than one metadata block to grow or shrink beyond what can
cannam@120	95 * be accomodated by padding. In this case you should probably use level
cannam@120	96 * 2, which allows you to edit all the metadata for a file in memory and
cannam@120	97 * write it out all at once.
cannam@120	98 *
cannam@120	99 * All levels know how to skip over and not disturb an ID3v2 tag at the
cannam@120	100 * front of the file.
cannam@120	101 *
cannam@120	102 * All levels access files via their filenames. In addition, level 2
cannam@120	103 * has additional alternative read and write functions that take an I/O
cannam@120	104 * handle and callbacks, for situations where access by filename is not
cannam@120	105 * possible.
cannam@120	106 *
cannam@120	107 * In addition to the three interfaces, this module defines functions for
cannam@120	108 * creating and manipulating various metadata objects in memory. As we see
cannam@120	109 * from the Format module, FLAC metadata blocks in memory are very primitive
cannam@120	110 * structures for storing information in an efficient way. Reading
cannam@120	111 * information from the structures is easy but creating or modifying them
cannam@120	112 * directly is more complex. The metadata object routines here facilitate
cannam@120	113 * this by taking care of the consistency and memory management drudgery.
cannam@120	114 *
cannam@120	115 * Unless you will be using the level 1 or 2 interfaces to modify existing
cannam@120	116 * metadata however, you will not probably not need these.
cannam@120	117 *
cannam@120	118 * From a dependency standpoint, none of the encoders or decoders require
cannam@120	119 * the metadata module. This is so that embedded users can strip out the
cannam@120	120 * metadata module from libFLAC to reduce the size and complexity.
cannam@120	121 */
cannam@120	122
cannam@120	123 #ifdef __cplusplus
cannam@120	124 extern "C" {
cannam@120	125 #endif
cannam@120	126
cannam@120	127
cannam@120	128 /** \defgroup flac_metadata_level0 FLAC/metadata.h: metadata level 0 interface
cannam@120	129 * \ingroup flac_metadata
cannam@120	130 *
cannam@120	131 * \brief
cannam@120	132 * The level 0 interface consists of individual routines to read the
cannam@120	133 * STREAMINFO, VORBIS_COMMENT, CUESHEET, and PICTURE blocks, requiring
cannam@120	134 * only a filename.
cannam@120	135 *
cannam@120	136 * They try to skip any ID3v2 tag at the head of the file.
cannam@120	137 *
cannam@120	138 * \{
cannam@120	139 */
cannam@120	140
cannam@120	141 /** Read the STREAMINFO metadata block of the given FLAC file. This function
cannam@120	142 * will try to skip any ID3v2 tag at the head of the file.
cannam@120	143 *
cannam@120	144 * \param filename The path to the FLAC file to read.
cannam@120	145 * \param streaminfo A pointer to space for the STREAMINFO block. Since
cannam@120	146 * FLAC__StreamMetadata is a simple structure with no
cannam@120	147 * memory allocation involved, you pass the address of
cannam@120	148 * an existing structure. It need not be initialized.
cannam@120	149 * \assert
cannam@120	150 * \code filename != NULL \endcode
cannam@120	151 * \code streaminfo != NULL \endcode
cannam@120	152 * \retval FLAC__bool
cannam@120	153 * \c true if a valid STREAMINFO block was read from \a filename. Returns
cannam@120	154 * \c false if there was a memory allocation error, a file decoder error,
cannam@120	155 * or the file contained no STREAMINFO block. (A memory allocation error
cannam@120	156 * is possible because this function must set up a file decoder.)
cannam@120	157 */
cannam@120	158 FLAC_API FLAC__bool FLAC__metadata_get_streaminfo(const char filename, FLAC__StreamMetadata streaminfo);
cannam@120	159
cannam@120	160 /** Read the VORBIS_COMMENT metadata block of the given FLAC file. This
cannam@120	161 * function will try to skip any ID3v2 tag at the head of the file.
cannam@120	162 *
cannam@120	163 * \param filename The path to the FLAC file to read.
cannam@120	164 * \param tags The address where the returned pointer will be
cannam@120	165 * stored. The \a tags object must be deleted by
cannam@120	166 * the caller using FLAC__metadata_object_delete().
cannam@120	167 * \assert
cannam@120	168 * \code filename != NULL \endcode
cannam@120	169 * \code tags != NULL \endcode
cannam@120	170 * \retval FLAC__bool
cannam@120	171 * \c true if a valid VORBIS_COMMENT block was read from \a filename,
cannam@120	172 * and \a *tags will be set to the address of the metadata structure.
cannam@120	173 * Returns \c false if there was a memory allocation error, a file
cannam@120	174 * decoder error, or the file contained no VORBIS_COMMENT block, and
cannam@120	175 * \a *tags will be set to \c NULL.
cannam@120	176 */
cannam@120	177 FLAC_API FLAC__bool FLAC__metadata_get_tags(const char filename, FLAC__StreamMetadata *tags);
cannam@120	178
cannam@120	179 /** Read the CUESHEET metadata block of the given FLAC file. This
cannam@120	180 * function will try to skip any ID3v2 tag at the head of the file.
cannam@120	181 *
cannam@120	182 * \param filename The path to the FLAC file to read.
cannam@120	183 * \param cuesheet The address where the returned pointer will be
cannam@120	184 * stored. The \a cuesheet object must be deleted by
cannam@120	185 * the caller using FLAC__metadata_object_delete().
cannam@120	186 * \assert
cannam@120	187 * \code filename != NULL \endcode
cannam@120	188 * \code cuesheet != NULL \endcode
cannam@120	189 * \retval FLAC__bool
cannam@120	190 * \c true if a valid CUESHEET block was read from \a filename,
cannam@120	191 * and \a *cuesheet will be set to the address of the metadata
cannam@120	192 * structure. Returns \c false if there was a memory allocation
cannam@120	193 * error, a file decoder error, or the file contained no CUESHEET
cannam@120	194 * block, and \a *cuesheet will be set to \c NULL.
cannam@120	195 */
cannam@120	196 FLAC_API FLAC__bool FLAC__metadata_get_cuesheet(const char filename, FLAC__StreamMetadata *cuesheet);
cannam@120	197
cannam@120	198 /** Read a PICTURE metadata block of the given FLAC file. This
cannam@120	199 * function will try to skip any ID3v2 tag at the head of the file.
cannam@120	200 * Since there can be more than one PICTURE block in a file, this
cannam@120	201 * function takes a number of parameters that act as constraints to
cannam@120	202 * the search. The PICTURE block with the largest area matching all
cannam@120	203 * the constraints will be returned, or \a *picture will be set to
cannam@120	204 * \c NULL if there was no such block.
cannam@120	205 *
cannam@120	206 * \param filename The path to the FLAC file to read.
cannam@120	207 * \param picture The address where the returned pointer will be
cannam@120	208 * stored. The \a picture object must be deleted by
cannam@120	209 * the caller using FLAC__metadata_object_delete().
cannam@120	210 * \param type The desired picture type. Use \c -1 to mean
cannam@120	211 * "any type".
cannam@120	212 * \param mime_type The desired MIME type, e.g. "image/jpeg". The
cannam@120	213 * string will be matched exactly. Use \c NULL to
cannam@120	214 * mean "any MIME type".
cannam@120	215 * \param description The desired description. The string will be
cannam@120	216 * matched exactly. Use \c NULL to mean "any
cannam@120	217 * description".
cannam@120	218 * \param max_width The maximum width in pixels desired. Use
cannam@120	219 * \c (unsigned)(-1) to mean "any width".
cannam@120	220 * \param max_height The maximum height in pixels desired. Use
cannam@120	221 * \c (unsigned)(-1) to mean "any height".
cannam@120	222 * \param max_depth The maximum color depth in bits-per-pixel desired.
cannam@120	223 * Use \c (unsigned)(-1) to mean "any depth".
cannam@120	224 * \param max_colors The maximum number of colors desired. Use
cannam@120	225 * \c (unsigned)(-1) to mean "any number of colors".
cannam@120	226 * \assert
cannam@120	227 * \code filename != NULL \endcode
cannam@120	228 * \code picture != NULL \endcode
cannam@120	229 * \retval FLAC__bool
cannam@120	230 * \c true if a valid PICTURE block was read from \a filename,
cannam@120	231 * and \a *picture will be set to the address of the metadata
cannam@120	232 * structure. Returns \c false if there was a memory allocation
cannam@120	233 * error, a file decoder error, or the file contained no PICTURE
cannam@120	234 * block, and \a *picture will be set to \c NULL.
cannam@120	235 */
cannam@120	236 FLAC_API FLAC__bool FLAC__metadata_get_picture(const char filename, FLAC__StreamMetadata picture, FLAC__StreamMetadata_Picture_Type type, const char mime_type, const FLAC__byte *description, unsigned max_width, unsigned max_height, unsigned max_depth, unsigned max_colors);
cannam@120	237
cannam@120	238 /* \} */
cannam@120	239
cannam@120	240
cannam@120	241 /** \defgroup flac_metadata_level1 FLAC/metadata.h: metadata level 1 interface
cannam@120	242 * \ingroup flac_metadata
cannam@120	243 *
cannam@120	244 * \brief
cannam@120	245 * The level 1 interface provides read-write access to FLAC file metadata and
cannam@120	246 * operates directly on the FLAC file.
cannam@120	247 *
cannam@120	248 * The general usage of this interface is:
cannam@120	249 *
cannam@120	250 * - Create an iterator using FLAC__metadata_simple_iterator_new()
cannam@120	251 * - Attach it to a file using FLAC__metadata_simple_iterator_init() and check
cannam@120	252 * the exit code. Call FLAC__metadata_simple_iterator_is_writable() to
cannam@120	253 * see if the file is writable, or only read access is allowed.
cannam@120	254 * - Use FLAC__metadata_simple_iterator_next() and
cannam@120	255 * FLAC__metadata_simple_iterator_prev() to traverse the blocks.
cannam@120	256 * This is does not read the actual blocks themselves.
cannam@120	257 * FLAC__metadata_simple_iterator_next() is relatively fast.
cannam@120	258 * FLAC__metadata_simple_iterator_prev() is slower since it needs to search
cannam@120	259 * forward from the front of the file.
cannam@120	260 * - Use FLAC__metadata_simple_iterator_get_block_type() or
cannam@120	261 * FLAC__metadata_simple_iterator_get_block() to access the actual data at
cannam@120	262 * the current iterator position. The returned object is yours to modify
cannam@120	263 * and free.
cannam@120	264 * - Use FLAC__metadata_simple_iterator_set_block() to write a modified block
cannam@120	265 * back. You must have write permission to the original file. Make sure to
cannam@120	266 * read the whole comment to FLAC__metadata_simple_iterator_set_block()
cannam@120	267 * below.
cannam@120	268 * - Use FLAC__metadata_simple_iterator_insert_block_after() to add new blocks.
cannam@120	269 * Use the object creation functions from
cannam@120	270 * \link flac_metadata_object here \endlink to generate new objects.
cannam@120	271 * - Use FLAC__metadata_simple_iterator_delete_block() to remove the block
cannam@120	272 * currently referred to by the iterator, or replace it with padding.
cannam@120	273 * - Destroy the iterator with FLAC__metadata_simple_iterator_delete() when
cannam@120	274 * finished.
cannam@120	275 *
cannam@120	276 * \note
cannam@120	277 * The FLAC file remains open the whole time between
cannam@120	278 * FLAC__metadata_simple_iterator_init() and
cannam@120	279 * FLAC__metadata_simple_iterator_delete(), so make sure you are not altering
cannam@120	280 * the file during this time.
cannam@120	281 *
cannam@120	282 * \note
cannam@120	283 * Do not modify the \a is_last, \a length, or \a type fields of returned
cannam@120	284 * FLAC__StreamMetadata objects. These are managed automatically.
cannam@120	285 *
cannam@120	286 * \note
cannam@120	287 * If any of the modification functions
cannam@120	288 * (FLAC__metadata_simple_iterator_set_block(),
cannam@120	289 * FLAC__metadata_simple_iterator_delete_block(),
cannam@120	290 * FLAC__metadata_simple_iterator_insert_block_after(), etc.) return \c false,
cannam@120	291 * you should delete the iterator as it may no longer be valid.
cannam@120	292 *
cannam@120	293 * \{
cannam@120	294 */
cannam@120	295
cannam@120	296 struct FLAC__Metadata_SimpleIterator;
cannam@120	297 /** The opaque structure definition for the level 1 iterator type.
cannam@120	298 * See the
cannam@120	299 * \link flac_metadata_level1 metadata level 1 module \endlink
cannam@120	300 * for a detailed description.
cannam@120	301 */
cannam@120	302 typedef struct FLAC__Metadata_SimpleIterator FLAC__Metadata_SimpleIterator;
cannam@120	303
cannam@120	304 /** Status type for FLAC__Metadata_SimpleIterator.
cannam@120	305 *
cannam@120	306 * The iterator's current status can be obtained by calling FLAC__metadata_simple_iterator_status().
cannam@120	307 */
cannam@120	308 typedef enum {
cannam@120	309
cannam@120	310 FLAC__METADATA_SIMPLE_ITERATOR_STATUS_OK = 0,
cannam@120	311 /*< The iterator is in the normal OK state /
cannam@120	312
cannam@120	313 FLAC__METADATA_SIMPLE_ITERATOR_STATUS_ILLEGAL_INPUT,
cannam@120	314 /*< The data passed into a function violated the function's usage criteria /
cannam@120	315
cannam@120	316 FLAC__METADATA_SIMPLE_ITERATOR_STATUS_ERROR_OPENING_FILE,
cannam@120	317 /*< The iterator could not open the target file /
cannam@120	318
cannam@120	319 FLAC__METADATA_SIMPLE_ITERATOR_STATUS_NOT_A_FLAC_FILE,
cannam@120	320 /*< The iterator could not find the FLAC signature at the start of the file /
cannam@120	321
cannam@120	322 FLAC__METADATA_SIMPLE_ITERATOR_STATUS_NOT_WRITABLE,
cannam@120	323 /*< The iterator tried to write to a file that was not writable /
cannam@120	324
cannam@120	325 FLAC__METADATA_SIMPLE_ITERATOR_STATUS_BAD_METADATA,
cannam@120	326 /*< The iterator encountered input that does not conform to the FLAC metadata specification /
cannam@120	327
cannam@120	328 FLAC__METADATA_SIMPLE_ITERATOR_STATUS_READ_ERROR,
cannam@120	329 /*< The iterator encountered an error while reading the FLAC file /
cannam@120	330
cannam@120	331 FLAC__METADATA_SIMPLE_ITERATOR_STATUS_SEEK_ERROR,
cannam@120	332 /*< The iterator encountered an error while seeking in the FLAC file /
cannam@120	333
cannam@120	334 FLAC__METADATA_SIMPLE_ITERATOR_STATUS_WRITE_ERROR,
cannam@120	335 /*< The iterator encountered an error while writing the FLAC file /
cannam@120	336
cannam@120	337 FLAC__METADATA_SIMPLE_ITERATOR_STATUS_RENAME_ERROR,
cannam@120	338 /*< The iterator encountered an error renaming the FLAC file /
cannam@120	339
cannam@120	340 FLAC__METADATA_SIMPLE_ITERATOR_STATUS_UNLINK_ERROR,
cannam@120	341 /*< The iterator encountered an error removing the temporary file /
cannam@120	342
cannam@120	343 FLAC__METADATA_SIMPLE_ITERATOR_STATUS_MEMORY_ALLOCATION_ERROR,
cannam@120	344 /*< Memory allocation failed /
cannam@120	345
cannam@120	346 FLAC__METADATA_SIMPLE_ITERATOR_STATUS_INTERNAL_ERROR
cannam@120	347 /*< The caller violated an assertion or an unexpected error occurred /
cannam@120	348
cannam@120	349 } FLAC__Metadata_SimpleIteratorStatus;
cannam@120	350
cannam@120	351 /** Maps a FLAC__Metadata_SimpleIteratorStatus to a C string.
cannam@120	352 *
cannam@120	353 * Using a FLAC__Metadata_SimpleIteratorStatus as the index to this array
cannam@120	354 * will give the string equivalent. The contents should not be modified.
cannam@120	355 */
cannam@120	356 extern FLAC_API const char * const FLAC__Metadata_SimpleIteratorStatusString[];
cannam@120	357
cannam@120	358
cannam@120	359 /** Create a new iterator instance.
cannam@120	360 *
cannam@120	361 * \retval FLAC__Metadata_SimpleIterator*
cannam@120	362 * \c NULL if there was an error allocating memory, else the new instance.
cannam@120	363 */
cannam@120	364 FLAC_API FLAC__Metadata_SimpleIterator *FLAC__metadata_simple_iterator_new(void);
cannam@120	365
cannam@120	366 /** Free an iterator instance. Deletes the object pointed to by \a iterator.
cannam@120	367 *
cannam@120	368 * \param iterator A pointer to an existing iterator.
cannam@120	369 * \assert
cannam@120	370 * \code iterator != NULL \endcode
cannam@120	371 */
cannam@120	372 FLAC_API void FLAC__metadata_simple_iterator_delete(FLAC__Metadata_SimpleIterator *iterator);
cannam@120	373
cannam@120	374 /** Get the current status of the iterator. Call this after a function
cannam@120	375 * returns \c false to get the reason for the error. Also resets the status
cannam@120	376 * to FLAC__METADATA_SIMPLE_ITERATOR_STATUS_OK.
cannam@120	377 *
cannam@120	378 * \param iterator A pointer to an existing iterator.
cannam@120	379 * \assert
cannam@120	380 * \code iterator != NULL \endcode
cannam@120	381 * \retval FLAC__Metadata_SimpleIteratorStatus
cannam@120	382 * The current status of the iterator.
cannam@120	383 */
cannam@120	384 FLAC_API FLAC__Metadata_SimpleIteratorStatus FLAC__metadata_simple_iterator_status(FLAC__Metadata_SimpleIterator *iterator);
cannam@120	385
cannam@120	386 /** Initialize the iterator to point to the first metadata block in the
cannam@120	387 * given FLAC file.
cannam@120	388 *
cannam@120	389 * \param iterator A pointer to an existing iterator.
cannam@120	390 * \param filename The path to the FLAC file.
cannam@120	391 * \param read_only If \c true, the FLAC file will be opened
cannam@120	392 * in read-only mode; if \c false, the FLAC
cannam@120	393 * file will be opened for edit even if no
cannam@120	394 * edits are performed.
cannam@120	395 * \param preserve_file_stats If \c true, the owner and modification
cannam@120	396 * time will be preserved even if the FLAC
cannam@120	397 * file is written to.
cannam@120	398 * \assert
cannam@120	399 * \code iterator != NULL \endcode
cannam@120	400 * \code filename != NULL \endcode
cannam@120	401 * \retval FLAC__bool
cannam@120	402 * \c false if a memory allocation error occurs, the file can't be
cannam@120	403 * opened, or another error occurs, else \c true.
cannam@120	404 */
cannam@120	405 FLAC_API FLAC__bool FLAC__metadata_simple_iterator_init(FLAC__Metadata_SimpleIterator iterator, const char filename, FLAC__bool read_only, FLAC__bool preserve_file_stats);
cannam@120	406
cannam@120	407 /** Returns \c true if the FLAC file is writable. If \c false, calls to
cannam@120	408 * FLAC__metadata_simple_iterator_set_block() and
cannam@120	409 * FLAC__metadata_simple_iterator_insert_block_after() will fail.
cannam@120	410 *
cannam@120	411 * \param iterator A pointer to an existing iterator.
cannam@120	412 * \assert
cannam@120	413 * \code iterator != NULL \endcode
cannam@120	414 * \retval FLAC__bool
cannam@120	415 * See above.
cannam@120	416 */
cannam@120	417 FLAC_API FLAC__bool FLAC__metadata_simple_iterator_is_writable(const FLAC__Metadata_SimpleIterator *iterator);
cannam@120	418
cannam@120	419 /** Moves the iterator forward one metadata block, returning \c false if
cannam@120	420 * already at the end.
cannam@120	421 *
cannam@120	422 * \param iterator A pointer to an existing initialized iterator.
cannam@120	423 * \assert
cannam@120	424 * \code iterator != NULL \endcode
cannam@120	425 * \a iterator has been successfully initialized with
cannam@120	426 * FLAC__metadata_simple_iterator_init()
cannam@120	427 * \retval FLAC__bool
cannam@120	428 * \c false if already at the last metadata block of the chain, else
cannam@120	429 * \c true.
cannam@120	430 */
cannam@120	431 FLAC_API FLAC__bool FLAC__metadata_simple_iterator_next(FLAC__Metadata_SimpleIterator *iterator);
cannam@120	432
cannam@120	433 /** Moves the iterator backward one metadata block, returning \c false if
cannam@120	434 * already at the beginning.
cannam@120	435 *
cannam@120	436 * \param iterator A pointer to an existing initialized iterator.
cannam@120	437 * \assert
cannam@120	438 * \code iterator != NULL \endcode
cannam@120	439 * \a iterator has been successfully initialized with
cannam@120	440 * FLAC__metadata_simple_iterator_init()
cannam@120	441 * \retval FLAC__bool
cannam@120	442 * \c false if already at the first metadata block of the chain, else
cannam@120	443 * \c true.
cannam@120	444 */
cannam@120	445 FLAC_API FLAC__bool FLAC__metadata_simple_iterator_prev(FLAC__Metadata_SimpleIterator *iterator);
cannam@120	446
cannam@120	447 /** Returns a flag telling if the current metadata block is the last.
cannam@120	448 *
cannam@120	449 * \param iterator A pointer to an existing initialized iterator.
cannam@120	450 * \assert
cannam@120	451 * \code iterator != NULL \endcode
cannam@120	452 * \a iterator has been successfully initialized with
cannam@120	453 * FLAC__metadata_simple_iterator_init()
cannam@120	454 * \retval FLAC__bool
cannam@120	455 * \c true if the current metadata block is the last in the file,
cannam@120	456 * else \c false.
cannam@120	457 */
cannam@120	458 FLAC_API FLAC__bool FLAC__metadata_simple_iterator_is_last(const FLAC__Metadata_SimpleIterator *iterator);
cannam@120	459
cannam@120	460 /** Get the offset of the metadata block at the current position. This
cannam@120	461 * avoids reading the actual block data which can save time for large
cannam@120	462 * blocks.
cannam@120	463 *
cannam@120	464 * \param iterator A pointer to an existing initialized iterator.
cannam@120	465 * \assert
cannam@120	466 * \code iterator != NULL \endcode
cannam@120	467 * \a iterator has been successfully initialized with
cannam@120	468 * FLAC__metadata_simple_iterator_init()
cannam@120	469 * \retval off_t
cannam@120	470 * The offset of the metadata block at the current iterator position.
cannam@120	471 * This is the byte offset relative to the beginning of the file of
cannam@120	472 * the current metadata block's header.
cannam@120	473 */
cannam@120	474 FLAC_API off_t FLAC__metadata_simple_iterator_get_block_offset(const FLAC__Metadata_SimpleIterator *iterator);
cannam@120	475
cannam@120	476 /** Get the type of the metadata block at the current position. This
cannam@120	477 * avoids reading the actual block data which can save time for large
cannam@120	478 * blocks.
cannam@120	479 *
cannam@120	480 * \param iterator A pointer to an existing initialized iterator.
cannam@120	481 * \assert
cannam@120	482 * \code iterator != NULL \endcode
cannam@120	483 * \a iterator has been successfully initialized with
cannam@120	484 * FLAC__metadata_simple_iterator_init()
cannam@120	485 * \retval FLAC__MetadataType
cannam@120	486 * The type of the metadata block at the current iterator position.
cannam@120	487 */
cannam@120	488 FLAC_API FLAC__MetadataType FLAC__metadata_simple_iterator_get_block_type(const FLAC__Metadata_SimpleIterator *iterator);
cannam@120	489
cannam@120	490 /** Get the length of the metadata block at the current position. This
cannam@120	491 * avoids reading the actual block data which can save time for large
cannam@120	492 * blocks.
cannam@120	493 *
cannam@120	494 * \param iterator A pointer to an existing initialized iterator.
cannam@120	495 * \assert
cannam@120	496 * \code iterator != NULL \endcode
cannam@120	497 * \a iterator has been successfully initialized with
cannam@120	498 * FLAC__metadata_simple_iterator_init()
cannam@120	499 * \retval unsigned
cannam@120	500 * The length of the metadata block at the current iterator position.
cannam@120	501 * The is same length as that in the
cannam@120	502 * <a href="http://flac.sourceforge.net/format.html#metadata_block_header">metadata block header</a>,
cannam@120	503 * i.e. the length of the metadata body that follows the header.
cannam@120	504 */
cannam@120	505 FLAC_API unsigned FLAC__metadata_simple_iterator_get_block_length(const FLAC__Metadata_SimpleIterator *iterator);
cannam@120	506
cannam@120	507 /** Get the application ID of the \c APPLICATION block at the current
cannam@120	508 * position. This avoids reading the actual block data which can save
cannam@120	509 * time for large blocks.
cannam@120	510 *
cannam@120	511 * \param iterator A pointer to an existing initialized iterator.
cannam@120	512 * \param id A pointer to a buffer of at least \c 4 bytes where
cannam@120	513 * the ID will be stored.
cannam@120	514 * \assert
cannam@120	515 * \code iterator != NULL \endcode
cannam@120	516 * \code id != NULL \endcode
cannam@120	517 * \a iterator has been successfully initialized with
cannam@120	518 * FLAC__metadata_simple_iterator_init()
cannam@120	519 * \retval FLAC__bool
cannam@120	520 * \c true if the ID was successfully read, else \c false, in which
cannam@120	521 * case you should check FLAC__metadata_simple_iterator_status() to
cannam@120	522 * find out why. If the status is
cannam@120	523 * \c FLAC__METADATA_SIMPLE_ITERATOR_STATUS_ILLEGAL_INPUT, then the
cannam@120	524 * current metadata block is not an \c APPLICATION block. Otherwise
cannam@120	525 * if the status is
cannam@120	526 * \c FLAC__METADATA_SIMPLE_ITERATOR_STATUS_READ_ERROR or
cannam@120	527 * \c FLAC__METADATA_SIMPLE_ITERATOR_STATUS_SEEK_ERROR, an I/O error
cannam@120	528 * occurred and the iterator can no longer be used.
cannam@120	529 */
cannam@120	530 FLAC_API FLAC__bool FLAC__metadata_simple_iterator_get_application_id(FLAC__Metadata_SimpleIterator iterator, FLAC__byte id);
cannam@120	531
cannam@120	532 /** Get the metadata block at the current position. You can modify the
cannam@120	533 * block but must use FLAC__metadata_simple_iterator_set_block() to
cannam@120	534 * write it back to the FLAC file.
cannam@120	535 *
cannam@120	536 * You must call FLAC__metadata_object_delete() on the returned object
cannam@120	537 * when you are finished with it.
cannam@120	538 *
cannam@120	539 * \param iterator A pointer to an existing initialized iterator.
cannam@120	540 * \assert
cannam@120	541 * \code iterator != NULL \endcode
cannam@120	542 * \a iterator has been successfully initialized with
cannam@120	543 * FLAC__metadata_simple_iterator_init()
cannam@120	544 * \retval FLAC__StreamMetadata*
cannam@120	545 * The current metadata block, or \c NULL if there was a memory
cannam@120	546 * allocation error.
cannam@120	547 */
cannam@120	548 FLAC_API FLAC__StreamMetadata FLAC__metadata_simple_iterator_get_block(FLAC__Metadata_SimpleIterator iterator);
cannam@120	549
cannam@120	550 /** Write a block back to the FLAC file. This function tries to be
cannam@120	551 * as efficient as possible; how the block is actually written is
cannam@120	552 * shown by the following:
cannam@120	553 *
cannam@120	554 * Existing block is a STREAMINFO block and the new block is a
cannam@120	555 * STREAMINFO block: the new block is written in place. Make sure
cannam@120	556 * you know what you're doing when changing the values of a
cannam@120	557 * STREAMINFO block.
cannam@120	558 *
cannam@120	559 * Existing block is a STREAMINFO block and the new block is a
cannam@120	560 * not a STREAMINFO block: this is an error since the first block
cannam@120	561 * must be a STREAMINFO block. Returns \c false without altering the
cannam@120	562 * file.
cannam@120	563 *
cannam@120	564 * Existing block is not a STREAMINFO block and the new block is a
cannam@120	565 * STREAMINFO block: this is an error since there may be only one
cannam@120	566 * STREAMINFO block. Returns \c false without altering the file.
cannam@120	567 *
cannam@120	568 * Existing block and new block are the same length: the existing
cannam@120	569 * block will be replaced by the new block, written in place.
cannam@120	570 *
cannam@120	571 * Existing block is longer than new block: if use_padding is \c true,
cannam@120	572 * the existing block will be overwritten in place with the new
cannam@120	573 * block followed by a PADDING block, if possible, to make the total
cannam@120	574 * size the same as the existing block. Remember that a padding
cannam@120	575 * block requires at least four bytes so if the difference in size
cannam@120	576 * between the new block and existing block is less than that, the
cannam@120	577 * entire file will have to be rewritten, using the new block's
cannam@120	578 * exact size. If use_padding is \c false, the entire file will be
cannam@120	579 * rewritten, replacing the existing block by the new block.
cannam@120	580 *
cannam@120	581 * Existing block is shorter than new block: if use_padding is \c true,
cannam@120	582 * the function will try and expand the new block into the following
cannam@120	583 * PADDING block, if it exists and doing so won't shrink the PADDING
cannam@120	584 * block to less than 4 bytes. If there is no following PADDING
cannam@120	585 * block, or it will shrink to less than 4 bytes, or use_padding is
cannam@120	586 * \c false, the entire file is rewritten, replacing the existing block
cannam@120	587 * with the new block. Note that in this case any following PADDING
cannam@120	588 * block is preserved as is.
cannam@120	589 *
cannam@120	590 * After writing the block, the iterator will remain in the same
cannam@120	591 * place, i.e. pointing to the new block.
cannam@120	592 *
cannam@120	593 * \param iterator A pointer to an existing initialized iterator.
cannam@120	594 * \param block The block to set.
cannam@120	595 * \param use_padding See above.
cannam@120	596 * \assert
cannam@120	597 * \code iterator != NULL \endcode
cannam@120	598 * \a iterator has been successfully initialized with
cannam@120	599 * FLAC__metadata_simple_iterator_init()
cannam@120	600 * \code block != NULL \endcode
cannam@120	601 * \retval FLAC__bool
cannam@120	602 * \c true if successful, else \c false.
cannam@120	603 */
cannam@120	604 FLAC_API FLAC__bool FLAC__metadata_simple_iterator_set_block(FLAC__Metadata_SimpleIterator iterator, FLAC__StreamMetadata block, FLAC__bool use_padding);
cannam@120	605
cannam@120	606 /** This is similar to FLAC__metadata_simple_iterator_set_block()
cannam@120	607 * except that instead of writing over an existing block, it appends
cannam@120	608 * a block after the existing block. \a use_padding is again used to
cannam@120	609 * tell the function to try an expand into following padding in an
cannam@120	610 * attempt to avoid rewriting the entire file.
cannam@120	611 *
cannam@120	612 * This function will fail and return \c false if given a STREAMINFO
cannam@120	613 * block.
cannam@120	614 *
cannam@120	615 * After writing the block, the iterator will be pointing to the
cannam@120	616 * new block.
cannam@120	617 *
cannam@120	618 * \param iterator A pointer to an existing initialized iterator.
cannam@120	619 * \param block The block to set.
cannam@120	620 * \param use_padding See above.
cannam@120	621 * \assert
cannam@120	622 * \code iterator != NULL \endcode
cannam@120	623 * \a iterator has been successfully initialized with
cannam@120	624 * FLAC__metadata_simple_iterator_init()
cannam@120	625 * \code block != NULL \endcode
cannam@120	626 * \retval FLAC__bool
cannam@120	627 * \c true if successful, else \c false.
cannam@120	628 */
cannam@120	629 FLAC_API FLAC__bool FLAC__metadata_simple_iterator_insert_block_after(FLAC__Metadata_SimpleIterator iterator, FLAC__StreamMetadata block, FLAC__bool use_padding);
cannam@120	630
cannam@120	631 /** Deletes the block at the current position. This will cause the
cannam@120	632 * entire FLAC file to be rewritten, unless \a use_padding is \c true,
cannam@120	633 * in which case the block will be replaced by an equal-sized PADDING
cannam@120	634 * block. The iterator will be left pointing to the block before the
cannam@120	635 * one just deleted.
cannam@120	636 *
cannam@120	637 * You may not delete the STREAMINFO block.
cannam@120	638 *
cannam@120	639 * \param iterator A pointer to an existing initialized iterator.
cannam@120	640 * \param use_padding See above.
cannam@120	641 * \assert
cannam@120	642 * \code iterator != NULL \endcode
cannam@120	643 * \a iterator has been successfully initialized with
cannam@120	644 * FLAC__metadata_simple_iterator_init()
cannam@120	645 * \retval FLAC__bool
cannam@120	646 * \c true if successful, else \c false.
cannam@120	647 */
cannam@120	648 FLAC_API FLAC__bool FLAC__metadata_simple_iterator_delete_block(FLAC__Metadata_SimpleIterator *iterator, FLAC__bool use_padding);
cannam@120	649
cannam@120	650 /* \} */
cannam@120	651
cannam@120	652
cannam@120	653 /** \defgroup flac_metadata_level2 FLAC/metadata.h: metadata level 2 interface
cannam@120	654 * \ingroup flac_metadata
cannam@120	655 *
cannam@120	656 * \brief
cannam@120	657 * The level 2 interface provides read-write access to FLAC file metadata;
cannam@120	658 * all metadata is read into memory, operated on in memory, and then written
cannam@120	659 * to file, which is more efficient than level 1 when editing multiple blocks.
cannam@120	660 *
cannam@120	661 * Currently Ogg FLAC is supported for read only, via
cannam@120	662 * FLAC__metadata_chain_read_ogg() but a subsequent
cannam@120	663 * FLAC__metadata_chain_write() will fail.
cannam@120	664 *
cannam@120	665 * The general usage of this interface is:
cannam@120	666 *
cannam@120	667 * - Create a new chain using FLAC__metadata_chain_new(). A chain is a
cannam@120	668 * linked list of FLAC metadata blocks.
cannam@120	669 * - Read all metadata into the the chain from a FLAC file using
cannam@120	670 * FLAC__metadata_chain_read() or FLAC__metadata_chain_read_ogg() and
cannam@120	671 * check the status.
cannam@120	672 * - Optionally, consolidate the padding using
cannam@120	673 * FLAC__metadata_chain_merge_padding() or
cannam@120	674 * FLAC__metadata_chain_sort_padding().
cannam@120	675 * - Create a new iterator using FLAC__metadata_iterator_new()
cannam@120	676 * - Initialize the iterator to point to the first element in the chain
cannam@120	677 * using FLAC__metadata_iterator_init()
cannam@120	678 * - Traverse the chain using FLAC__metadata_iterator_next and
cannam@120	679 * FLAC__metadata_iterator_prev().
cannam@120	680 * - Get a block for reading or modification using
cannam@120	681 * FLAC__metadata_iterator_get_block(). The pointer to the object
cannam@120	682 * inside the chain is returned, so the block is yours to modify.
cannam@120	683 * Changes will be reflected in the FLAC file when you write the
cannam@120	684 * chain. You can also add and delete blocks (see functions below).
cannam@120	685 * - When done, write out the chain using FLAC__metadata_chain_write().
cannam@120	686 * Make sure to read the whole comment to the function below.
cannam@120	687 * - Delete the chain using FLAC__metadata_chain_delete().
cannam@120	688 *
cannam@120	689 * \note
cannam@120	690 * Even though the FLAC file is not open while the chain is being
cannam@120	691 * manipulated, you must not alter the file externally during
cannam@120	692 * this time. The chain assumes the FLAC file will not change
cannam@120	693 * between the time of FLAC__metadata_chain_read()/FLAC__metadata_chain_read_ogg()
cannam@120	694 * and FLAC__metadata_chain_write().
cannam@120	695 *
cannam@120	696 * \note
cannam@120	697 * Do not modify the is_last, length, or type fields of returned
cannam@120	698 * FLAC__StreamMetadata objects. These are managed automatically.
cannam@120	699 *
cannam@120	700 * \note
cannam@120	701 * The metadata objects returned by FLAC__metadata_iterator_get_block()
cannam@120	702 * are owned by the chain; do not FLAC__metadata_object_delete() them.
cannam@120	703 * In the same way, blocks passed to FLAC__metadata_iterator_set_block()
cannam@120	704 * become owned by the chain and they will be deleted when the chain is
cannam@120	705 * deleted.
cannam@120	706 *
cannam@120	707 * \{
cannam@120	708 */
cannam@120	709
cannam@120	710 struct FLAC__Metadata_Chain;
cannam@120	711 /** The opaque structure definition for the level 2 chain type.
cannam@120	712 */
cannam@120	713 typedef struct FLAC__Metadata_Chain FLAC__Metadata_Chain;
cannam@120	714
cannam@120	715 struct FLAC__Metadata_Iterator;
cannam@120	716 /** The opaque structure definition for the level 2 iterator type.
cannam@120	717 */
cannam@120	718 typedef struct FLAC__Metadata_Iterator FLAC__Metadata_Iterator;
cannam@120	719
cannam@120	720 typedef enum {
cannam@120	721 FLAC__METADATA_CHAIN_STATUS_OK = 0,
cannam@120	722 /*< The chain is in the normal OK state /
cannam@120	723
cannam@120	724 FLAC__METADATA_CHAIN_STATUS_ILLEGAL_INPUT,
cannam@120	725 /*< The data passed into a function violated the function's usage criteria /
cannam@120	726
cannam@120	727 FLAC__METADATA_CHAIN_STATUS_ERROR_OPENING_FILE,
cannam@120	728 /*< The chain could not open the target file /
cannam@120	729
cannam@120	730 FLAC__METADATA_CHAIN_STATUS_NOT_A_FLAC_FILE,
cannam@120	731 /*< The chain could not find the FLAC signature at the start of the file /
cannam@120	732
cannam@120	733 FLAC__METADATA_CHAIN_STATUS_NOT_WRITABLE,
cannam@120	734 /*< The chain tried to write to a file that was not writable /
cannam@120	735
cannam@120	736 FLAC__METADATA_CHAIN_STATUS_BAD_METADATA,
cannam@120	737 /*< The chain encountered input that does not conform to the FLAC metadata specification /
cannam@120	738
cannam@120	739 FLAC__METADATA_CHAIN_STATUS_READ_ERROR,
cannam@120	740 /*< The chain encountered an error while reading the FLAC file /
cannam@120	741
cannam@120	742 FLAC__METADATA_CHAIN_STATUS_SEEK_ERROR,
cannam@120	743 /*< The chain encountered an error while seeking in the FLAC file /
cannam@120	744
cannam@120	745 FLAC__METADATA_CHAIN_STATUS_WRITE_ERROR,
cannam@120	746 /*< The chain encountered an error while writing the FLAC file /
cannam@120	747
cannam@120	748 FLAC__METADATA_CHAIN_STATUS_RENAME_ERROR,
cannam@120	749 /*< The chain encountered an error renaming the FLAC file /
cannam@120	750
cannam@120	751 FLAC__METADATA_CHAIN_STATUS_UNLINK_ERROR,
cannam@120	752 /*< The chain encountered an error removing the temporary file /
cannam@120	753
cannam@120	754 FLAC__METADATA_CHAIN_STATUS_MEMORY_ALLOCATION_ERROR,
cannam@120	755 /*< Memory allocation failed /
cannam@120	756
cannam@120	757 FLAC__METADATA_CHAIN_STATUS_INTERNAL_ERROR,
cannam@120	758 /*< The caller violated an assertion or an unexpected error occurred /
cannam@120	759
cannam@120	760 FLAC__METADATA_CHAIN_STATUS_INVALID_CALLBACKS,
cannam@120	761 /*< One or more of the required callbacks was NULL /
cannam@120	762
cannam@120	763 FLAC__METADATA_CHAIN_STATUS_READ_WRITE_MISMATCH,
cannam@120	764 /**< FLAC__metadata_chain_write() was called on a chain read by
cannam@120	765 * FLAC__metadata_chain_read_with_callbacks()/FLAC__metadata_chain_read_ogg_with_callbacks(),
cannam@120	766 * or
cannam@120	767 * FLAC__metadata_chain_write_with_callbacks()/FLAC__metadata_chain_write_with_callbacks_and_tempfile()
cannam@120	768 * was called on a chain read by
cannam@120	769 * FLAC__metadata_chain_read()/FLAC__metadata_chain_read_ogg().
cannam@120	770 * Matching read/write methods must always be used. */
cannam@120	771
cannam@120	772 FLAC__METADATA_CHAIN_STATUS_WRONG_WRITE_CALL
cannam@120	773 /**< FLAC__metadata_chain_write_with_callbacks() was called when the
cannam@120	774 * chain write requires a tempfile; use
cannam@120	775 * FLAC__metadata_chain_write_with_callbacks_and_tempfile() instead.
cannam@120	776 * Or, FLAC__metadata_chain_write_with_callbacks_and_tempfile() was
cannam@120	777 * called when the chain write does not require a tempfile; use
cannam@120	778 * FLAC__metadata_chain_write_with_callbacks() instead.
cannam@120	779 * Always check FLAC__metadata_chain_check_if_tempfile_needed()
cannam@120	780 * before writing via callbacks. */
cannam@120	781
cannam@120	782 } FLAC__Metadata_ChainStatus;
cannam@120	783
cannam@120	784 /** Maps a FLAC__Metadata_ChainStatus to a C string.
cannam@120	785 *
cannam@120	786 * Using a FLAC__Metadata_ChainStatus as the index to this array
cannam@120	787 * will give the string equivalent. The contents should not be modified.
cannam@120	788 */
cannam@120	789 extern FLAC_API const char * const FLAC__Metadata_ChainStatusString[];
cannam@120	790
cannam@120	791 /********* FLAC__Metadata_Chain *********/
cannam@120	792
cannam@120	793 /** Create a new chain instance.
cannam@120	794 *
cannam@120	795 * \retval FLAC__Metadata_Chain*
cannam@120	796 * \c NULL if there was an error allocating memory, else the new instance.
cannam@120	797 */
cannam@120	798 FLAC_API FLAC__Metadata_Chain *FLAC__metadata_chain_new(void);
cannam@120	799
cannam@120	800 /** Free a chain instance. Deletes the object pointed to by \a chain.
cannam@120	801 *
cannam@120	802 * \param chain A pointer to an existing chain.
cannam@120	803 * \assert
cannam@120	804 * \code chain != NULL \endcode
cannam@120	805 */
cannam@120	806 FLAC_API void FLAC__metadata_chain_delete(FLAC__Metadata_Chain *chain);
cannam@120	807
cannam@120	808 /** Get the current status of the chain. Call this after a function
cannam@120	809 * returns \c false to get the reason for the error. Also resets the
cannam@120	810 * status to FLAC__METADATA_CHAIN_STATUS_OK.
cannam@120	811 *
cannam@120	812 * \param chain A pointer to an existing chain.
cannam@120	813 * \assert
cannam@120	814 * \code chain != NULL \endcode
cannam@120	815 * \retval FLAC__Metadata_ChainStatus
cannam@120	816 * The current status of the chain.
cannam@120	817 */
cannam@120	818 FLAC_API FLAC__Metadata_ChainStatus FLAC__metadata_chain_status(FLAC__Metadata_Chain *chain);
cannam@120	819
cannam@120	820 /** Read all metadata from a FLAC file into the chain.
cannam@120	821 *
cannam@120	822 * \param chain A pointer to an existing chain.
cannam@120	823 * \param filename The path to the FLAC file to read.
cannam@120	824 * \assert
cannam@120	825 * \code chain != NULL \endcode
cannam@120	826 * \code filename != NULL \endcode
cannam@120	827 * \retval FLAC__bool
cannam@120	828 * \c true if a valid list of metadata blocks was read from
cannam@120	829 * \a filename, else \c false. On failure, check the status with
cannam@120	830 * FLAC__metadata_chain_status().
cannam@120	831 */
cannam@120	832 FLAC_API FLAC__bool FLAC__metadata_chain_read(FLAC__Metadata_Chain chain, const char filename);
cannam@120	833
cannam@120	834 /** Read all metadata from an Ogg FLAC file into the chain.
cannam@120	835 *
cannam@120	836 * \note Ogg FLAC metadata data writing is not supported yet and
cannam@120	837 * FLAC__metadata_chain_write() will fail.
cannam@120	838 *
cannam@120	839 * \param chain A pointer to an existing chain.
cannam@120	840 * \param filename The path to the Ogg FLAC file to read.
cannam@120	841 * \assert
cannam@120	842 * \code chain != NULL \endcode
cannam@120	843 * \code filename != NULL \endcode
cannam@120	844 * \retval FLAC__bool
cannam@120	845 * \c true if a valid list of metadata blocks was read from
cannam@120	846 * \a filename, else \c false. On failure, check the status with
cannam@120	847 * FLAC__metadata_chain_status().
cannam@120	848 */
cannam@120	849 FLAC_API FLAC__bool FLAC__metadata_chain_read_ogg(FLAC__Metadata_Chain chain, const char filename);
cannam@120	850
cannam@120	851 /** Read all metadata from a FLAC stream into the chain via I/O callbacks.
cannam@120	852 *
cannam@120	853 * The \a handle need only be open for reading, but must be seekable.
cannam@120	854 * The equivalent minimum stdio fopen() file mode is \c "r" (or \c "rb"
cannam@120	855 * for Windows).
cannam@120	856 *
cannam@120	857 * \param chain A pointer to an existing chain.
cannam@120	858 * \param handle The I/O handle of the FLAC stream to read. The
cannam@120	859 * handle will NOT be closed after the metadata is read;
cannam@120	860 * that is the duty of the caller.
cannam@120	861 * \param callbacks
cannam@120	862 * A set of callbacks to use for I/O. The mandatory
cannam@120	863 * callbacks are \a read, \a seek, and \a tell.
cannam@120	864 * \assert
cannam@120	865 * \code chain != NULL \endcode
cannam@120	866 * \retval FLAC__bool
cannam@120	867 * \c true if a valid list of metadata blocks was read from
cannam@120	868 * \a handle, else \c false. On failure, check the status with
cannam@120	869 * FLAC__metadata_chain_status().
cannam@120	870 */
cannam@120	871 FLAC_API FLAC__bool FLAC__metadata_chain_read_with_callbacks(FLAC__Metadata_Chain *chain, FLAC__IOHandle handle, FLAC__IOCallbacks callbacks);
cannam@120	872
cannam@120	873 /** Read all metadata from an Ogg FLAC stream into the chain via I/O callbacks.
cannam@120	874 *
cannam@120	875 * The \a handle need only be open for reading, but must be seekable.
cannam@120	876 * The equivalent minimum stdio fopen() file mode is \c "r" (or \c "rb"
cannam@120	877 * for Windows).
cannam@120	878 *
cannam@120	879 * \note Ogg FLAC metadata data writing is not supported yet and
cannam@120	880 * FLAC__metadata_chain_write() will fail.
cannam@120	881 *
cannam@120	882 * \param chain A pointer to an existing chain.
cannam@120	883 * \param handle The I/O handle of the Ogg FLAC stream to read. The
cannam@120	884 * handle will NOT be closed after the metadata is read;
cannam@120	885 * that is the duty of the caller.
cannam@120	886 * \param callbacks
cannam@120	887 * A set of callbacks to use for I/O. The mandatory
cannam@120	888 * callbacks are \a read, \a seek, and \a tell.
cannam@120	889 * \assert
cannam@120	890 * \code chain != NULL \endcode
cannam@120	891 * \retval FLAC__bool
cannam@120	892 * \c true if a valid list of metadata blocks was read from
cannam@120	893 * \a handle, else \c false. On failure, check the status with
cannam@120	894 * FLAC__metadata_chain_status().
cannam@120	895 */
cannam@120	896 FLAC_API FLAC__bool FLAC__metadata_chain_read_ogg_with_callbacks(FLAC__Metadata_Chain *chain, FLAC__IOHandle handle, FLAC__IOCallbacks callbacks);
cannam@120	897
cannam@120	898 /** Checks if writing the given chain would require the use of a
cannam@120	899 * temporary file, or if it could be written in place.
cannam@120	900 *
cannam@120	901 * Under certain conditions, padding can be utilized so that writing
cannam@120	902 * edited metadata back to the FLAC file does not require rewriting the
cannam@120	903 * entire file. If rewriting is required, then a temporary workfile is
cannam@120	904 * required. When writing metadata using callbacks, you must check
cannam@120	905 * this function to know whether to call
cannam@120	906 * FLAC__metadata_chain_write_with_callbacks() or
cannam@120	907 * FLAC__metadata_chain_write_with_callbacks_and_tempfile(). When
cannam@120	908 * writing with FLAC__metadata_chain_write(), the temporary file is
cannam@120	909 * handled internally.
cannam@120	910 *
cannam@120	911 * \param chain A pointer to an existing chain.
cannam@120	912 * \param use_padding
cannam@120	913 * Whether or not padding will be allowed to be used
cannam@120	914 * during the write. The value of \a use_padding given
cannam@120	915 * here must match the value later passed to
cannam@120	916 * FLAC__metadata_chain_write_with_callbacks() or
cannam@120	917 * FLAC__metadata_chain_write_with_callbacks_with_tempfile().
cannam@120	918 * \assert
cannam@120	919 * \code chain != NULL \endcode
cannam@120	920 * \retval FLAC__bool
cannam@120	921 * \c true if writing the current chain would require a tempfile, or
cannam@120	922 * \c false if metadata can be written in place.
cannam@120	923 */
cannam@120	924 FLAC_API FLAC__bool FLAC__metadata_chain_check_if_tempfile_needed(FLAC__Metadata_Chain *chain, FLAC__bool use_padding);
cannam@120	925
cannam@120	926 /** Write all metadata out to the FLAC file. This function tries to be as
cannam@120	927 * efficient as possible; how the metadata is actually written is shown by
cannam@120	928 * the following:
cannam@120	929 *
cannam@120	930 * If the current chain is the same size as the existing metadata, the new
cannam@120	931 * data is written in place.
cannam@120	932 *
cannam@120	933 * If the current chain is longer than the existing metadata, and
cannam@120	934 * \a use_padding is \c true, and the last block is a PADDING block of
cannam@120	935 * sufficient length, the function will truncate the final padding block
cannam@120	936 * so that the overall size of the metadata is the same as the existing
cannam@120	937 * metadata, and then just rewrite the metadata. Otherwise, if not all of
cannam@120	938 * the above conditions are met, the entire FLAC file must be rewritten.
cannam@120	939 * If you want to use padding this way it is a good idea to call
cannam@120	940 * FLAC__metadata_chain_sort_padding() first so that you have the maximum
cannam@120	941 * amount of padding to work with, unless you need to preserve ordering
cannam@120	942 * of the PADDING blocks for some reason.
cannam@120	943 *
cannam@120	944 * If the current chain is shorter than the existing metadata, and
cannam@120	945 * \a use_padding is \c true, and the final block is a PADDING block, the padding
cannam@120	946 * is extended to make the overall size the same as the existing data. If
cannam@120	947 * \a use_padding is \c true and the last block is not a PADDING block, a new
cannam@120	948 * PADDING block is added to the end of the new data to make it the same
cannam@120	949 * size as the existing data (if possible, see the note to
cannam@120	950 * FLAC__metadata_simple_iterator_set_block() about the four byte limit)
cannam@120	951 * and the new data is written in place. If none of the above apply or
cannam@120	952 * \a use_padding is \c false, the entire FLAC file is rewritten.
cannam@120	953 *
cannam@120	954 * If \a preserve_file_stats is \c true, the owner and modification time will
cannam@120	955 * be preserved even if the FLAC file is written.
cannam@120	956 *
cannam@120	957 * For this write function to be used, the chain must have been read with
cannam@120	958 * FLAC__metadata_chain_read()/FLAC__metadata_chain_read_ogg(), not
cannam@120	959 * FLAC__metadata_chain_read_with_callbacks()/FLAC__metadata_chain_read_ogg_with_callbacks().
cannam@120	960 *
cannam@120	961 * \param chain A pointer to an existing chain.
cannam@120	962 * \param use_padding See above.
cannam@120	963 * \param preserve_file_stats See above.
cannam@120	964 * \assert
cannam@120	965 * \code chain != NULL \endcode
cannam@120	966 * \retval FLAC__bool
cannam@120	967 * \c true if the write succeeded, else \c false. On failure,
cannam@120	968 * check the status with FLAC__metadata_chain_status().
cannam@120	969 */
cannam@120	970 FLAC_API FLAC__bool FLAC__metadata_chain_write(FLAC__Metadata_Chain *chain, FLAC__bool use_padding, FLAC__bool preserve_file_stats);
cannam@120	971
cannam@120	972 /** Write all metadata out to a FLAC stream via callbacks.
cannam@120	973 *
cannam@120	974 * (See FLAC__metadata_chain_write() for the details on how padding is
cannam@120	975 * used to write metadata in place if possible.)
cannam@120	976 *
cannam@120	977 * The \a handle must be open for updating and be seekable. The
cannam@120	978 * equivalent minimum stdio fopen() file mode is \c "r+" (or \c "r+b"
cannam@120	979 * for Windows).
cannam@120	980 *
cannam@120	981 * For this write function to be used, the chain must have been read with
cannam@120	982 * FLAC__metadata_chain_read_with_callbacks()/FLAC__metadata_chain_read_ogg_with_callbacks(),
cannam@120	983 * not FLAC__metadata_chain_read()/FLAC__metadata_chain_read_ogg().
cannam@120	984 * Also, FLAC__metadata_chain_check_if_tempfile_needed() must have returned
cannam@120	985 * \c false.
cannam@120	986 *
cannam@120	987 * \param chain A pointer to an existing chain.
cannam@120	988 * \param use_padding See FLAC__metadata_chain_write()
cannam@120	989 * \param handle The I/O handle of the FLAC stream to write. The
cannam@120	990 * handle will NOT be closed after the metadata is
cannam@120	991 * written; that is the duty of the caller.
cannam@120	992 * \param callbacks A set of callbacks to use for I/O. The mandatory
cannam@120	993 * callbacks are \a write and \a seek.
cannam@120	994 * \assert
cannam@120	995 * \code chain != NULL \endcode
cannam@120	996 * \retval FLAC__bool
cannam@120	997 * \c true if the write succeeded, else \c false. On failure,
cannam@120	998 * check the status with FLAC__metadata_chain_status().
cannam@120	999 */
cannam@120	1000 FLAC_API FLAC__bool FLAC__metadata_chain_write_with_callbacks(FLAC__Metadata_Chain *chain, FLAC__bool use_padding, FLAC__IOHandle handle, FLAC__IOCallbacks callbacks);
cannam@120	1001
cannam@120	1002 /** Write all metadata out to a FLAC stream via callbacks.
cannam@120	1003 *
cannam@120	1004 * (See FLAC__metadata_chain_write() for the details on how padding is
cannam@120	1005 * used to write metadata in place if possible.)
cannam@120	1006 *
cannam@120	1007 * This version of the write-with-callbacks function must be used when
cannam@120	1008 * FLAC__metadata_chain_check_if_tempfile_needed() returns true. In
cannam@120	1009 * this function, you must supply an I/O handle corresponding to the
cannam@120	1010 * FLAC file to edit, and a temporary handle to which the new FLAC
cannam@120	1011 * file will be written. It is the caller's job to move this temporary
cannam@120	1012 * FLAC file on top of the original FLAC file to complete the metadata
cannam@120	1013 * edit.
cannam@120	1014 *
cannam@120	1015 * The \a handle must be open for reading and be seekable. The
cannam@120	1016 * equivalent minimum stdio fopen() file mode is \c "r" (or \c "rb"
cannam@120	1017 * for Windows).
cannam@120	1018 *
cannam@120	1019 * The \a temp_handle must be open for writing. The
cannam@120	1020 * equivalent minimum stdio fopen() file mode is \c "w" (or \c "wb"
cannam@120	1021 * for Windows). It should be an empty stream, or at least positioned
cannam@120	1022 * at the start-of-file (in which case it is the caller's duty to
cannam@120	1023 * truncate it on return).
cannam@120	1024 *
cannam@120	1025 * For this write function to be used, the chain must have been read with
cannam@120	1026 * FLAC__metadata_chain_read_with_callbacks()/FLAC__metadata_chain_read_ogg_with_callbacks(),
cannam@120	1027 * not FLAC__metadata_chain_read()/FLAC__metadata_chain_read_ogg().
cannam@120	1028 * Also, FLAC__metadata_chain_check_if_tempfile_needed() must have returned
cannam@120	1029 * \c true.
cannam@120	1030 *
cannam@120	1031 * \param chain A pointer to an existing chain.
cannam@120	1032 * \param use_padding See FLAC__metadata_chain_write()
cannam@120	1033 * \param handle The I/O handle of the original FLAC stream to read.
cannam@120	1034 * The handle will NOT be closed after the metadata is
cannam@120	1035 * written; that is the duty of the caller.
cannam@120	1036 * \param callbacks A set of callbacks to use for I/O on \a handle.
cannam@120	1037 * The mandatory callbacks are \a read, \a seek, and
cannam@120	1038 * \a eof.
cannam@120	1039 * \param temp_handle The I/O handle of the FLAC stream to write. The
cannam@120	1040 * handle will NOT be closed after the metadata is
cannam@120	1041 * written; that is the duty of the caller.
cannam@120	1042 * \param temp_callbacks
cannam@120	1043 * A set of callbacks to use for I/O on temp_handle.
cannam@120	1044 * The only mandatory callback is \a write.
cannam@120	1045 * \assert
cannam@120	1046 * \code chain != NULL \endcode
cannam@120	1047 * \retval FLAC__bool
cannam@120	1048 * \c true if the write succeeded, else \c false. On failure,
cannam@120	1049 * check the status with FLAC__metadata_chain_status().
cannam@120	1050 */
cannam@120	1051 FLAC_API FLAC__bool FLAC__metadata_chain_write_with_callbacks_and_tempfile(FLAC__Metadata_Chain *chain, FLAC__bool use_padding, FLAC__IOHandle handle, FLAC__IOCallbacks callbacks, FLAC__IOHandle temp_handle, FLAC__IOCallbacks temp_callbacks);
cannam@120	1052
cannam@120	1053 /** Merge adjacent PADDING blocks into a single block.
cannam@120	1054 *
cannam@120	1055 * \note This function does not write to the FLAC file, it only
cannam@120	1056 * modifies the chain.
cannam@120	1057 *
cannam@120	1058 * \warning Any iterator on the current chain will become invalid after this
cannam@120	1059 * call. You should delete the iterator and get a new one.
cannam@120	1060 *
cannam@120	1061 * \param chain A pointer to an existing chain.
cannam@120	1062 * \assert
cannam@120	1063 * \code chain != NULL \endcode
cannam@120	1064 */
cannam@120	1065 FLAC_API void FLAC__metadata_chain_merge_padding(FLAC__Metadata_Chain *chain);
cannam@120	1066
cannam@120	1067 /** This function will move all PADDING blocks to the end on the metadata,
cannam@120	1068 * then merge them into a single block.
cannam@120	1069 *
cannam@120	1070 * \note This function does not write to the FLAC file, it only
cannam@120	1071 * modifies the chain.
cannam@120	1072 *
cannam@120	1073 * \warning Any iterator on the current chain will become invalid after this
cannam@120	1074 * call. You should delete the iterator and get a new one.
cannam@120	1075 *
cannam@120	1076 * \param chain A pointer to an existing chain.
cannam@120	1077 * \assert
cannam@120	1078 * \code chain != NULL \endcode
cannam@120	1079 */
cannam@120	1080 FLAC_API void FLAC__metadata_chain_sort_padding(FLAC__Metadata_Chain *chain);
cannam@120	1081
cannam@120	1082
cannam@120	1083 /********* FLAC__Metadata_Iterator *********/
cannam@120	1084
cannam@120	1085 /** Create a new iterator instance.
cannam@120	1086 *
cannam@120	1087 * \retval FLAC__Metadata_Iterator*
cannam@120	1088 * \c NULL if there was an error allocating memory, else the new instance.
cannam@120	1089 */
cannam@120	1090 FLAC_API FLAC__Metadata_Iterator *FLAC__metadata_iterator_new(void);
cannam@120	1091
cannam@120	1092 /** Free an iterator instance. Deletes the object pointed to by \a iterator.
cannam@120	1093 *
cannam@120	1094 * \param iterator A pointer to an existing iterator.
cannam@120	1095 * \assert
cannam@120	1096 * \code iterator != NULL \endcode
cannam@120	1097 */
cannam@120	1098 FLAC_API void FLAC__metadata_iterator_delete(FLAC__Metadata_Iterator *iterator);
cannam@120	1099
cannam@120	1100 /** Initialize the iterator to point to the first metadata block in the
cannam@120	1101 * given chain.
cannam@120	1102 *
cannam@120	1103 * \param iterator A pointer to an existing iterator.
cannam@120	1104 * \param chain A pointer to an existing and initialized (read) chain.
cannam@120	1105 * \assert
cannam@120	1106 * \code iterator != NULL \endcode
cannam@120	1107 * \code chain != NULL \endcode
cannam@120	1108 */
cannam@120	1109 FLAC_API void FLAC__metadata_iterator_init(FLAC__Metadata_Iterator iterator, FLAC__Metadata_Chain chain);
cannam@120	1110
cannam@120	1111 /** Moves the iterator forward one metadata block, returning \c false if
cannam@120	1112 * already at the end.
cannam@120	1113 *
cannam@120	1114 * \param iterator A pointer to an existing initialized iterator.
cannam@120	1115 * \assert
cannam@120	1116 * \code iterator != NULL \endcode
cannam@120	1117 * \a iterator has been successfully initialized with
cannam@120	1118 * FLAC__metadata_iterator_init()
cannam@120	1119 * \retval FLAC__bool
cannam@120	1120 * \c false if already at the last metadata block of the chain, else
cannam@120	1121 * \c true.
cannam@120	1122 */
cannam@120	1123 FLAC_API FLAC__bool FLAC__metadata_iterator_next(FLAC__Metadata_Iterator *iterator);
cannam@120	1124
cannam@120	1125 /** Moves the iterator backward one metadata block, returning \c false if
cannam@120	1126 * already at the beginning.
cannam@120	1127 *
cannam@120	1128 * \param iterator A pointer to an existing initialized iterator.
cannam@120	1129 * \assert
cannam@120	1130 * \code iterator != NULL \endcode
cannam@120	1131 * \a iterator has been successfully initialized with
cannam@120	1132 * FLAC__metadata_iterator_init()
cannam@120	1133 * \retval FLAC__bool
cannam@120	1134 * \c false if already at the first metadata block of the chain, else
cannam@120	1135 * \c true.
cannam@120	1136 */
cannam@120	1137 FLAC_API FLAC__bool FLAC__metadata_iterator_prev(FLAC__Metadata_Iterator *iterator);
cannam@120	1138
cannam@120	1139 /** Get the type of the metadata block at the current position.
cannam@120	1140 *
cannam@120	1141 * \param iterator A pointer to an existing initialized iterator.
cannam@120	1142 * \assert
cannam@120	1143 * \code iterator != NULL \endcode
cannam@120	1144 * \a iterator has been successfully initialized with
cannam@120	1145 * FLAC__metadata_iterator_init()
cannam@120	1146 * \retval FLAC__MetadataType
cannam@120	1147 * The type of the metadata block at the current iterator position.
cannam@120	1148 */
cannam@120	1149 FLAC_API FLAC__MetadataType FLAC__metadata_iterator_get_block_type(const FLAC__Metadata_Iterator *iterator);
cannam@120	1150
cannam@120	1151 /** Get the metadata block at the current position. You can modify
cannam@120	1152 * the block in place but must write the chain before the changes
cannam@120	1153 * are reflected to the FLAC file. You do not need to call
cannam@120	1154 * FLAC__metadata_iterator_set_block() to reflect the changes;
cannam@120	1155 * the pointer returned by FLAC__metadata_iterator_get_block()
cannam@120	1156 * points directly into the chain.
cannam@120	1157 *
cannam@120	1158 * \warning
cannam@120	1159 * Do not call FLAC__metadata_object_delete() on the returned object;
cannam@120	1160 * to delete a block use FLAC__metadata_iterator_delete_block().
cannam@120	1161 *
cannam@120	1162 * \param iterator A pointer to an existing initialized iterator.
cannam@120	1163 * \assert
cannam@120	1164 * \code iterator != NULL \endcode
cannam@120	1165 * \a iterator has been successfully initialized with
cannam@120	1166 * FLAC__metadata_iterator_init()
cannam@120	1167 * \retval FLAC__StreamMetadata*
cannam@120	1168 * The current metadata block.
cannam@120	1169 */
cannam@120	1170 FLAC_API FLAC__StreamMetadata FLAC__metadata_iterator_get_block(FLAC__Metadata_Iterator iterator);
cannam@120	1171
cannam@120	1172 /** Set the metadata block at the current position, replacing the existing
cannam@120	1173 * block. The new block passed in becomes owned by the chain and it will be
cannam@120	1174 * deleted when the chain is deleted.
cannam@120	1175 *
cannam@120	1176 * \param iterator A pointer to an existing initialized iterator.
cannam@120	1177 * \param block A pointer to a metadata block.
cannam@120	1178 * \assert
cannam@120	1179 * \code iterator != NULL \endcode
cannam@120	1180 * \a iterator has been successfully initialized with
cannam@120	1181 * FLAC__metadata_iterator_init()
cannam@120	1182 * \code block != NULL \endcode
cannam@120	1183 * \retval FLAC__bool
cannam@120	1184 * \c false if the conditions in the above description are not met, or
cannam@120	1185 * a memory allocation error occurs, otherwise \c true.
cannam@120	1186 */
cannam@120	1187 FLAC_API FLAC__bool FLAC__metadata_iterator_set_block(FLAC__Metadata_Iterator iterator, FLAC__StreamMetadata block);
cannam@120	1188
cannam@120	1189 /** Removes the current block from the chain. If \a replace_with_padding is
cannam@120	1190 * \c true, the block will instead be replaced with a padding block of equal
cannam@120	1191 * size. You can not delete the STREAMINFO block. The iterator will be
cannam@120	1192 * left pointing to the block before the one just "deleted", even if
cannam@120	1193 * \a replace_with_padding is \c true.
cannam@120	1194 *
cannam@120	1195 * \param iterator A pointer to an existing initialized iterator.
cannam@120	1196 * \param replace_with_padding See above.
cannam@120	1197 * \assert
cannam@120	1198 * \code iterator != NULL \endcode
cannam@120	1199 * \a iterator has been successfully initialized with
cannam@120	1200 * FLAC__metadata_iterator_init()
cannam@120	1201 * \retval FLAC__bool
cannam@120	1202 * \c false if the conditions in the above description are not met,
cannam@120	1203 * otherwise \c true.
cannam@120	1204 */
cannam@120	1205 FLAC_API FLAC__bool FLAC__metadata_iterator_delete_block(FLAC__Metadata_Iterator *iterator, FLAC__bool replace_with_padding);
cannam@120	1206
cannam@120	1207 /** Insert a new block before the current block. You cannot insert a block
cannam@120	1208 * before the first STREAMINFO block. You cannot insert a STREAMINFO block
cannam@120	1209 * as there can be only one, the one that already exists at the head when you
cannam@120	1210 * read in a chain. The chain takes ownership of the new block and it will be
cannam@120	1211 * deleted when the chain is deleted. The iterator will be left pointing to
cannam@120	1212 * the new block.
cannam@120	1213 *
cannam@120	1214 * \param iterator A pointer to an existing initialized iterator.
cannam@120	1215 * \param block A pointer to a metadata block to insert.
cannam@120	1216 * \assert
cannam@120	1217 * \code iterator != NULL \endcode
cannam@120	1218 * \a iterator has been successfully initialized with
cannam@120	1219 * FLAC__metadata_iterator_init()
cannam@120	1220 * \retval FLAC__bool
cannam@120	1221 * \c false if the conditions in the above description are not met, or
cannam@120	1222 * a memory allocation error occurs, otherwise \c true.
cannam@120	1223 */
cannam@120	1224 FLAC_API FLAC__bool FLAC__metadata_iterator_insert_block_before(FLAC__Metadata_Iterator iterator, FLAC__StreamMetadata block);
cannam@120	1225
cannam@120	1226 /** Insert a new block after the current block. You cannot insert a STREAMINFO
cannam@120	1227 * block as there can be only one, the one that already exists at the head when
cannam@120	1228 * you read in a chain. The chain takes ownership of the new block and it will
cannam@120	1229 * be deleted when the chain is deleted. The iterator will be left pointing to
cannam@120	1230 * the new block.
cannam@120	1231 *
cannam@120	1232 * \param iterator A pointer to an existing initialized iterator.
cannam@120	1233 * \param block A pointer to a metadata block to insert.
cannam@120	1234 * \assert
cannam@120	1235 * \code iterator != NULL \endcode
cannam@120	1236 * \a iterator has been successfully initialized with
cannam@120	1237 * FLAC__metadata_iterator_init()
cannam@120	1238 * \retval FLAC__bool
cannam@120	1239 * \c false if the conditions in the above description are not met, or
cannam@120	1240 * a memory allocation error occurs, otherwise \c true.
cannam@120	1241 */
cannam@120	1242 FLAC_API FLAC__bool FLAC__metadata_iterator_insert_block_after(FLAC__Metadata_Iterator iterator, FLAC__StreamMetadata block);
cannam@120	1243
cannam@120	1244 /* \} */
cannam@120	1245
cannam@120	1246
cannam@120	1247 /** \defgroup flac_metadata_object FLAC/metadata.h: metadata object methods
cannam@120	1248 * \ingroup flac_metadata
cannam@120	1249 *
cannam@120	1250 * \brief
cannam@120	1251 * This module contains methods for manipulating FLAC metadata objects.
cannam@120	1252 *
cannam@120	1253 * Since many are variable length we have to be careful about the memory
cannam@120	1254 * management. We decree that all pointers to data in the object are
cannam@120	1255 * owned by the object and memory-managed by the object.
cannam@120	1256 *
cannam@120	1257 * Use the FLAC__metadata_object_new() and FLAC__metadata_object_delete()
cannam@120	1258 * functions to create all instances. When using the
cannam@120	1259 * FLAC__metadata_object_set_*() functions to set pointers to data, set
cannam@120	1260 * \a copy to \c true to have the function make it's own copy of the data, or
cannam@120	1261 * to \c false to give the object ownership of your data. In the latter case
cannam@120	1262 * your pointer must be freeable by free() and will be free()d when the object
cannam@120	1263 * is FLAC__metadata_object_delete()d. It is legal to pass a null pointer as
cannam@120	1264 * the data pointer to a FLAC__metadata_object_set_*() function as long as
cannam@120	1265 * the length argument is 0 and the \a copy argument is \c false.
cannam@120	1266 *
cannam@120	1267 * The FLAC__metadata_object_new() and FLAC__metadata_object_clone() function
cannam@120	1268 * will return \c NULL in the case of a memory allocation error, otherwise a new
cannam@120	1269 * object. The FLAC__metadata_object_set_*() functions return \c false in the
cannam@120	1270 * case of a memory allocation error.
cannam@120	1271 *
cannam@120	1272 * We don't have the convenience of C++ here, so note that the library relies
cannam@120	1273 * on you to keep the types straight. In other words, if you pass, for
cannam@120	1274 * example, a FLAC__StreamMetadata* that represents a STREAMINFO block to
cannam@120	1275 * FLAC__metadata_object_application_set_data(), you will get an assertion
cannam@120	1276 * failure.
cannam@120	1277 *
cannam@120	1278 * For convenience the FLAC__metadata_object_vorbiscomment_*() functions
cannam@120	1279 * maintain a trailing NUL on each Vorbis comment entry. This is not counted
cannam@120	1280 * toward the length or stored in the stream, but it can make working with plain
cannam@120	1281 * comments (those that don't contain embedded-NULs in the value) easier.
cannam@120	1282 * Entries passed into these functions have trailing NULs added if missing, and
cannam@120	1283 * returned entries are guaranteed to have a trailing NUL.
cannam@120	1284 *
cannam@120	1285 * The FLAC__metadata_object_vorbiscomment_*() functions that take a Vorbis
cannam@120	1286 * comment entry/name/value will first validate that it complies with the Vorbis
cannam@120	1287 * comment specification and return false if it does not.
cannam@120	1288 *
cannam@120	1289 * There is no need to recalculate the length field on metadata blocks you
cannam@120	1290 * have modified. They will be calculated automatically before they are
cannam@120	1291 * written back to a file.
cannam@120	1292 *
cannam@120	1293 * \{
cannam@120	1294 */
cannam@120	1295
cannam@120	1296
cannam@120	1297 /** Create a new metadata object instance of the given type.
cannam@120	1298 *
cannam@120	1299 * The object will be "empty"; i.e. values and data pointers will be \c 0,
cannam@120	1300 * with the exception of FLAC__METADATA_TYPE_VORBIS_COMMENT, which will have
cannam@120	1301 * the vendor string set (but zero comments).
cannam@120	1302 *
cannam@120	1303 * Do not pass in a value greater than or equal to
cannam@120	1304 * \a FLAC__METADATA_TYPE_UNDEFINED unless you really know what you're
cannam@120	1305 * doing.
cannam@120	1306 *
cannam@120	1307 * \param type Type of object to create
cannam@120	1308 * \retval FLAC__StreamMetadata*
cannam@120	1309 * \c NULL if there was an error allocating memory or the type code is
cannam@120	1310 * greater than FLAC__MAX_METADATA_TYPE_CODE, else the new instance.
cannam@120	1311 */
cannam@120	1312 FLAC_API FLAC__StreamMetadata *FLAC__metadata_object_new(FLAC__MetadataType type);
cannam@120	1313
cannam@120	1314 /** Create a copy of an existing metadata object.
cannam@120	1315 *
cannam@120	1316 * The copy is a "deep" copy, i.e. dynamically allocated data within the
cannam@120	1317 * object is also copied. The caller takes ownership of the new block and
cannam@120	1318 * is responsible for freeing it with FLAC__metadata_object_delete().
cannam@120	1319 *
cannam@120	1320 * \param object Pointer to object to copy.
cannam@120	1321 * \assert
cannam@120	1322 * \code object != NULL \endcode
cannam@120	1323 * \retval FLAC__StreamMetadata*
cannam@120	1324 * \c NULL if there was an error allocating memory, else the new instance.
cannam@120	1325 */
cannam@120	1326 FLAC_API FLAC__StreamMetadata FLAC__metadata_object_clone(const FLAC__StreamMetadata object);
cannam@120	1327
cannam@120	1328 /** Free a metadata object. Deletes the object pointed to by \a object.
cannam@120	1329 *
cannam@120	1330 * The delete is a "deep" delete, i.e. dynamically allocated data within the
cannam@120	1331 * object is also deleted.
cannam@120	1332 *
cannam@120	1333 * \param object A pointer to an existing object.
cannam@120	1334 * \assert
cannam@120	1335 * \code object != NULL \endcode
cannam@120	1336 */
cannam@120	1337 FLAC_API void FLAC__metadata_object_delete(FLAC__StreamMetadata *object);
cannam@120	1338
cannam@120	1339 /** Compares two metadata objects.
cannam@120	1340 *
cannam@120	1341 * The compare is "deep", i.e. dynamically allocated data within the
cannam@120	1342 * object is also compared.
cannam@120	1343 *
cannam@120	1344 * \param block1 A pointer to an existing object.
cannam@120	1345 * \param block2 A pointer to an existing object.
cannam@120	1346 * \assert
cannam@120	1347 * \code block1 != NULL \endcode
cannam@120	1348 * \code block2 != NULL \endcode
cannam@120	1349 * \retval FLAC__bool
cannam@120	1350 * \c true if objects are identical, else \c false.
cannam@120	1351 */
cannam@120	1352 FLAC_API FLAC__bool FLAC__metadata_object_is_equal(const FLAC__StreamMetadata block1, const FLAC__StreamMetadata block2);
cannam@120	1353
cannam@120	1354 /** Sets the application data of an APPLICATION block.
cannam@120	1355 *
cannam@120	1356 * If \a copy is \c true, a copy of the data is stored; otherwise, the object
cannam@120	1357 * takes ownership of the pointer. The existing data will be freed if this
cannam@120	1358 * function is successful, otherwise the original data will remain if \a copy
cannam@120	1359 * is \c true and malloc() fails.
cannam@120	1360 *
cannam@120	1361 * \note It is safe to pass a const pointer to \a data if \a copy is \c true.
cannam@120	1362 *
cannam@120	1363 * \param object A pointer to an existing APPLICATION object.
cannam@120	1364 * \param data A pointer to the data to set.
cannam@120	1365 * \param length The length of \a data in bytes.
cannam@120	1366 * \param copy See above.
cannam@120	1367 * \assert
cannam@120	1368 * \code object != NULL \endcode
cannam@120	1369 * \code object->type == FLAC__METADATA_TYPE_APPLICATION \endcode
cannam@120	1370 * \code (data != NULL && length > 0) \|\|
cannam@120	1371 * (data == NULL && length == 0 && copy == false) \endcode
cannam@120	1372 * \retval FLAC__bool
cannam@120	1373 * \c false if \a copy is \c true and malloc() fails, else \c true.
cannam@120	1374 */
cannam@120	1375 FLAC_API FLAC__bool FLAC__metadata_object_application_set_data(FLAC__StreamMetadata object, FLAC__byte data, unsigned length, FLAC__bool copy);
cannam@120	1376
cannam@120	1377 /** Resize the seekpoint array.
cannam@120	1378 *
cannam@120	1379 * If the size shrinks, elements will truncated; if it grows, new placeholder
cannam@120	1380 * points will be added to the end.
cannam@120	1381 *
cannam@120	1382 * \param object A pointer to an existing SEEKTABLE object.
cannam@120	1383 * \param new_num_points The desired length of the array; may be \c 0.
cannam@120	1384 * \assert
cannam@120	1385 * \code object != NULL \endcode
cannam@120	1386 * \code object->type == FLAC__METADATA_TYPE_SEEKTABLE \endcode
cannam@120	1387 * \code (object->data.seek_table.points == NULL && object->data.seek_table.num_points == 0) \|\|
cannam@120	1388 * (object->data.seek_table.points != NULL && object->data.seek_table.num_points > 0) \endcode
cannam@120	1389 * \retval FLAC__bool
cannam@120	1390 * \c false if memory allocation error, else \c true.
cannam@120	1391 */
cannam@120	1392 FLAC_API FLAC__bool FLAC__metadata_object_seektable_resize_points(FLAC__StreamMetadata *object, unsigned new_num_points);
cannam@120	1393
cannam@120	1394 /** Set a seekpoint in a seektable.
cannam@120	1395 *
cannam@120	1396 * \param object A pointer to an existing SEEKTABLE object.
cannam@120	1397 * \param point_num Index into seekpoint array to set.
cannam@120	1398 * \param point The point to set.
cannam@120	1399 * \assert
cannam@120	1400 * \code object != NULL \endcode
cannam@120	1401 * \code object->type == FLAC__METADATA_TYPE_SEEKTABLE \endcode
cannam@120	1402 * \code object->data.seek_table.num_points > point_num \endcode
cannam@120	1403 */
cannam@120	1404 FLAC_API void FLAC__metadata_object_seektable_set_point(FLAC__StreamMetadata *object, unsigned point_num, FLAC__StreamMetadata_SeekPoint point);
cannam@120	1405
cannam@120	1406 /** Insert a seekpoint into a seektable.
cannam@120	1407 *
cannam@120	1408 * \param object A pointer to an existing SEEKTABLE object.
cannam@120	1409 * \param point_num Index into seekpoint array to set.
cannam@120	1410 * \param point The point to set.
cannam@120	1411 * \assert
cannam@120	1412 * \code object != NULL \endcode
cannam@120	1413 * \code object->type == FLAC__METADATA_TYPE_SEEKTABLE \endcode
cannam@120	1414 * \code object->data.seek_table.num_points >= point_num \endcode
cannam@120	1415 * \retval FLAC__bool
cannam@120	1416 * \c false if memory allocation error, else \c true.
cannam@120	1417 */
cannam@120	1418 FLAC_API FLAC__bool FLAC__metadata_object_seektable_insert_point(FLAC__StreamMetadata *object, unsigned point_num, FLAC__StreamMetadata_SeekPoint point);
cannam@120	1419
cannam@120	1420 /** Delete a seekpoint from a seektable.
cannam@120	1421 *
cannam@120	1422 * \param object A pointer to an existing SEEKTABLE object.
cannam@120	1423 * \param point_num Index into seekpoint array to set.
cannam@120	1424 * \assert
cannam@120	1425 * \code object != NULL \endcode
cannam@120	1426 * \code object->type == FLAC__METADATA_TYPE_SEEKTABLE \endcode
cannam@120	1427 * \code object->data.seek_table.num_points > point_num \endcode
cannam@120	1428 * \retval FLAC__bool
cannam@120	1429 * \c false if memory allocation error, else \c true.
cannam@120	1430 */
cannam@120	1431 FLAC_API FLAC__bool FLAC__metadata_object_seektable_delete_point(FLAC__StreamMetadata *object, unsigned point_num);
cannam@120	1432
cannam@120	1433 /** Check a seektable to see if it conforms to the FLAC specification.
cannam@120	1434 * See the format specification for limits on the contents of the
cannam@120	1435 * seektable.
cannam@120	1436 *
cannam@120	1437 * \param object A pointer to an existing SEEKTABLE object.
cannam@120	1438 * \assert
cannam@120	1439 * \code object != NULL \endcode
cannam@120	1440 * \code object->type == FLAC__METADATA_TYPE_SEEKTABLE \endcode
cannam@120	1441 * \retval FLAC__bool
cannam@120	1442 * \c false if seek table is illegal, else \c true.
cannam@120	1443 */
cannam@120	1444 FLAC_API FLAC__bool FLAC__metadata_object_seektable_is_legal(const FLAC__StreamMetadata *object);
cannam@120	1445
cannam@120	1446 /** Append a number of placeholder points to the end of a seek table.
cannam@120	1447 *
cannam@120	1448 * \note
cannam@120	1449 * As with the other ..._seektable_template_... functions, you should
cannam@120	1450 * call FLAC__metadata_object_seektable_template_sort() when finished
cannam@120	1451 * to make the seek table legal.
cannam@120	1452 *
cannam@120	1453 * \param object A pointer to an existing SEEKTABLE object.
cannam@120	1454 * \param num The number of placeholder points to append.
cannam@120	1455 * \assert
cannam@120	1456 * \code object != NULL \endcode
cannam@120	1457 * \code object->type == FLAC__METADATA_TYPE_SEEKTABLE \endcode
cannam@120	1458 * \retval FLAC__bool
cannam@120	1459 * \c false if memory allocation fails, else \c true.
cannam@120	1460 */
cannam@120	1461 FLAC_API FLAC__bool FLAC__metadata_object_seektable_template_append_placeholders(FLAC__StreamMetadata *object, unsigned num);
cannam@120	1462
cannam@120	1463 /** Append a specific seek point template to the end of a seek table.
cannam@120	1464 *
cannam@120	1465 * \note
cannam@120	1466 * As with the other ..._seektable_template_... functions, you should
cannam@120	1467 * call FLAC__metadata_object_seektable_template_sort() when finished
cannam@120	1468 * to make the seek table legal.
cannam@120	1469 *
cannam@120	1470 * \param object A pointer to an existing SEEKTABLE object.
cannam@120	1471 * \param sample_number The sample number of the seek point template.
cannam@120	1472 * \assert
cannam@120	1473 * \code object != NULL \endcode
cannam@120	1474 * \code object->type == FLAC__METADATA_TYPE_SEEKTABLE \endcode
cannam@120	1475 * \retval FLAC__bool
cannam@120	1476 * \c false if memory allocation fails, else \c true.
cannam@120	1477 */
cannam@120	1478 FLAC_API FLAC__bool FLAC__metadata_object_seektable_template_append_point(FLAC__StreamMetadata *object, FLAC__uint64 sample_number);
cannam@120	1479
cannam@120	1480 /** Append specific seek point templates to the end of a seek table.
cannam@120	1481 *
cannam@120	1482 * \note
cannam@120	1483 * As with the other ..._seektable_template_... functions, you should
cannam@120	1484 * call FLAC__metadata_object_seektable_template_sort() when finished
cannam@120	1485 * to make the seek table legal.
cannam@120	1486 *
cannam@120	1487 * \param object A pointer to an existing SEEKTABLE object.
cannam@120	1488 * \param sample_numbers An array of sample numbers for the seek points.
cannam@120	1489 * \param num The number of seek point templates to append.
cannam@120	1490 * \assert
cannam@120	1491 * \code object != NULL \endcode
cannam@120	1492 * \code object->type == FLAC__METADATA_TYPE_SEEKTABLE \endcode
cannam@120	1493 * \retval FLAC__bool
cannam@120	1494 * \c false if memory allocation fails, else \c true.
cannam@120	1495 */
cannam@120	1496 FLAC_API FLAC__bool FLAC__metadata_object_seektable_template_append_points(FLAC__StreamMetadata *object, FLAC__uint64 sample_numbers[], unsigned num);
cannam@120	1497
cannam@120	1498 /** Append a set of evenly-spaced seek point templates to the end of a
cannam@120	1499 * seek table.
cannam@120	1500 *
cannam@120	1501 * \note
cannam@120	1502 * As with the other ..._seektable_template_... functions, you should
cannam@120	1503 * call FLAC__metadata_object_seektable_template_sort() when finished
cannam@120	1504 * to make the seek table legal.
cannam@120	1505 *
cannam@120	1506 * \param object A pointer to an existing SEEKTABLE object.
cannam@120	1507 * \param num The number of placeholder points to append.
cannam@120	1508 * \param total_samples The total number of samples to be encoded;
cannam@120	1509 * the seekpoints will be spaced approximately
cannam@120	1510 * \a total_samples / \a num samples apart.
cannam@120	1511 * \assert
cannam@120	1512 * \code object != NULL \endcode
cannam@120	1513 * \code object->type == FLAC__METADATA_TYPE_SEEKTABLE \endcode
cannam@120	1514 * \code total_samples > 0 \endcode
cannam@120	1515 * \retval FLAC__bool
cannam@120	1516 * \c false if memory allocation fails, else \c true.
cannam@120	1517 */
cannam@120	1518 FLAC_API FLAC__bool FLAC__metadata_object_seektable_template_append_spaced_points(FLAC__StreamMetadata *object, unsigned num, FLAC__uint64 total_samples);
cannam@120	1519
cannam@120	1520 /** Append a set of evenly-spaced seek point templates to the end of a
cannam@120	1521 * seek table.
cannam@120	1522 *
cannam@120	1523 * \note
cannam@120	1524 * As with the other ..._seektable_template_... functions, you should
cannam@120	1525 * call FLAC__metadata_object_seektable_template_sort() when finished
cannam@120	1526 * to make the seek table legal.
cannam@120	1527 *
cannam@120	1528 * \param object A pointer to an existing SEEKTABLE object.
cannam@120	1529 * \param samples The number of samples apart to space the placeholder
cannam@120	1530 * points. The first point will be at sample \c 0, the
cannam@120	1531 * second at sample \a samples, then 2*\a samples, and
cannam@120	1532 * so on. As long as \a samples and \a total_samples
cannam@120	1533 * are greater than \c 0, there will always be at least
cannam@120	1534 * one seekpoint at sample \c 0.
cannam@120	1535 * \param total_samples The total number of samples to be encoded;
cannam@120	1536 * the seekpoints will be spaced
cannam@120	1537 * \a samples samples apart.
cannam@120	1538 * \assert
cannam@120	1539 * \code object != NULL \endcode
cannam@120	1540 * \code object->type == FLAC__METADATA_TYPE_SEEKTABLE \endcode
cannam@120	1541 * \code samples > 0 \endcode
cannam@120	1542 * \code total_samples > 0 \endcode
cannam@120	1543 * \retval FLAC__bool
cannam@120	1544 * \c false if memory allocation fails, else \c true.
cannam@120	1545 */
cannam@120	1546 FLAC_API FLAC__bool FLAC__metadata_object_seektable_template_append_spaced_points_by_samples(FLAC__StreamMetadata *object, unsigned samples, FLAC__uint64 total_samples);
cannam@120	1547
cannam@120	1548 /** Sort a seek table's seek points according to the format specification,
cannam@120	1549 * removing duplicates.
cannam@120	1550 *
cannam@120	1551 * \param object A pointer to a seek table to be sorted.
cannam@120	1552 * \param compact If \c false, behaves like FLAC__format_seektable_sort().
cannam@120	1553 * If \c true, duplicates are deleted and the seek table is
cannam@120	1554 * shrunk appropriately; the number of placeholder points
cannam@120	1555 * present in the seek table will be the same after the call
cannam@120	1556 * as before.
cannam@120	1557 * \assert
cannam@120	1558 * \code object != NULL \endcode
cannam@120	1559 * \code object->type == FLAC__METADATA_TYPE_SEEKTABLE \endcode
cannam@120	1560 * \retval FLAC__bool
cannam@120	1561 * \c false if realloc() fails, else \c true.
cannam@120	1562 */
cannam@120	1563 FLAC_API FLAC__bool FLAC__metadata_object_seektable_template_sort(FLAC__StreamMetadata *object, FLAC__bool compact);
cannam@120	1564
cannam@120	1565 /** Sets the vendor string in a VORBIS_COMMENT block.
cannam@120	1566 *
cannam@120	1567 * For convenience, a trailing NUL is added to the entry if it doesn't have
cannam@120	1568 * one already.
cannam@120	1569 *
cannam@120	1570 * If \a copy is \c true, a copy of the entry is stored; otherwise, the object
cannam@120	1571 * takes ownership of the \c entry.entry pointer.
cannam@120	1572 *
cannam@120	1573 * \note If this function returns \c false, the caller still owns the
cannam@120	1574 * pointer.
cannam@120	1575 *
cannam@120	1576 * \param object A pointer to an existing VORBIS_COMMENT object.
cannam@120	1577 * \param entry The entry to set the vendor string to.
cannam@120	1578 * \param copy See above.
cannam@120	1579 * \assert
cannam@120	1580 * \code object != NULL \endcode
cannam@120	1581 * \code object->type == FLAC__METADATA_TYPE_VORBIS_COMMENT \endcode
cannam@120	1582 * \code (entry.entry != NULL && entry.length > 0) \|\|
cannam@120	1583 * (entry.entry == NULL && entry.length == 0) \endcode
cannam@120	1584 * \retval FLAC__bool
cannam@120	1585 * \c false if memory allocation fails or \a entry does not comply with the
cannam@120	1586 * Vorbis comment specification, else \c true.
cannam@120	1587 */
cannam@120	1588 FLAC_API FLAC__bool FLAC__metadata_object_vorbiscomment_set_vendor_string(FLAC__StreamMetadata *object, FLAC__StreamMetadata_VorbisComment_Entry entry, FLAC__bool copy);
cannam@120	1589
cannam@120	1590 /** Resize the comment array.
cannam@120	1591 *
cannam@120	1592 * If the size shrinks, elements will truncated; if it grows, new empty
cannam@120	1593 * fields will be added to the end.
cannam@120	1594 *
cannam@120	1595 * \param object A pointer to an existing VORBIS_COMMENT object.
cannam@120	1596 * \param new_num_comments The desired length of the array; may be \c 0.
cannam@120	1597 * \assert
cannam@120	1598 * \code object != NULL \endcode
cannam@120	1599 * \code object->type == FLAC__METADATA_TYPE_VORBIS_COMMENT \endcode
cannam@120	1600 * \code (object->data.vorbis_comment.comments == NULL && object->data.vorbis_comment.num_comments == 0) \|\|
cannam@120	1601 * (object->data.vorbis_comment.comments != NULL && object->data.vorbis_comment.num_comments > 0) \endcode
cannam@120	1602 * \retval FLAC__bool
cannam@120	1603 * \c false if memory allocation fails, else \c true.
cannam@120	1604 */
cannam@120	1605 FLAC_API FLAC__bool FLAC__metadata_object_vorbiscomment_resize_comments(FLAC__StreamMetadata *object, unsigned new_num_comments);
cannam@120	1606
cannam@120	1607 /** Sets a comment in a VORBIS_COMMENT block.
cannam@120	1608 *
cannam@120	1609 * For convenience, a trailing NUL is added to the entry if it doesn't have
cannam@120	1610 * one already.
cannam@120	1611 *
cannam@120	1612 * If \a copy is \c true, a copy of the entry is stored; otherwise, the object
cannam@120	1613 * takes ownership of the \c entry.entry pointer.
cannam@120	1614 *
cannam@120	1615 * \note If this function returns \c false, the caller still owns the
cannam@120	1616 * pointer.
cannam@120	1617 *
cannam@120	1618 * \param object A pointer to an existing VORBIS_COMMENT object.
cannam@120	1619 * \param comment_num Index into comment array to set.
cannam@120	1620 * \param entry The entry to set the comment to.
cannam@120	1621 * \param copy See above.
cannam@120	1622 * \assert
cannam@120	1623 * \code object != NULL \endcode
cannam@120	1624 * \code object->type == FLAC__METADATA_TYPE_VORBIS_COMMENT \endcode
cannam@120	1625 * \code comment_num < object->data.vorbis_comment.num_comments \endcode
cannam@120	1626 * \code (entry.entry != NULL && entry.length > 0) \|\|
cannam@120	1627 * (entry.entry == NULL && entry.length == 0) \endcode
cannam@120	1628 * \retval FLAC__bool
cannam@120	1629 * \c false if memory allocation fails or \a entry does not comply with the
cannam@120	1630 * Vorbis comment specification, else \c true.
cannam@120	1631 */
cannam@120	1632 FLAC_API FLAC__bool FLAC__metadata_object_vorbiscomment_set_comment(FLAC__StreamMetadata *object, unsigned comment_num, FLAC__StreamMetadata_VorbisComment_Entry entry, FLAC__bool copy);
cannam@120	1633
cannam@120	1634 /** Insert a comment in a VORBIS_COMMENT block at the given index.
cannam@120	1635 *
cannam@120	1636 * For convenience, a trailing NUL is added to the entry if it doesn't have
cannam@120	1637 * one already.
cannam@120	1638 *
cannam@120	1639 * If \a copy is \c true, a copy of the entry is stored; otherwise, the object
cannam@120	1640 * takes ownership of the \c entry.entry pointer.
cannam@120	1641 *
cannam@120	1642 * \note If this function returns \c false, the caller still owns the
cannam@120	1643 * pointer.
cannam@120	1644 *
cannam@120	1645 * \param object A pointer to an existing VORBIS_COMMENT object.
cannam@120	1646 * \param comment_num The index at which to insert the comment. The comments
cannam@120	1647 * at and after \a comment_num move right one position.
cannam@120	1648 * To append a comment to the end, set \a comment_num to
cannam@120	1649 * \c object->data.vorbis_comment.num_comments .
cannam@120	1650 * \param entry The comment to insert.
cannam@120	1651 * \param copy See above.
cannam@120	1652 * \assert
cannam@120	1653 * \code object != NULL \endcode
cannam@120	1654 * \code object->type == FLAC__METADATA_TYPE_VORBIS_COMMENT \endcode
cannam@120	1655 * \code object->data.vorbis_comment.num_comments >= comment_num \endcode
cannam@120	1656 * \code (entry.entry != NULL && entry.length > 0) \|\|
cannam@120	1657 * (entry.entry == NULL && entry.length == 0 && copy == false) \endcode
cannam@120	1658 * \retval FLAC__bool
cannam@120	1659 * \c false if memory allocation fails or \a entry does not comply with the
cannam@120	1660 * Vorbis comment specification, else \c true.
cannam@120	1661 */
cannam@120	1662 FLAC_API FLAC__bool FLAC__metadata_object_vorbiscomment_insert_comment(FLAC__StreamMetadata *object, unsigned comment_num, FLAC__StreamMetadata_VorbisComment_Entry entry, FLAC__bool copy);
cannam@120	1663
cannam@120	1664 /** Appends a comment to a VORBIS_COMMENT block.
cannam@120	1665 *
cannam@120	1666 * For convenience, a trailing NUL is added to the entry if it doesn't have
cannam@120	1667 * one already.
cannam@120	1668 *
cannam@120	1669 * If \a copy is \c true, a copy of the entry is stored; otherwise, the object
cannam@120	1670 * takes ownership of the \c entry.entry pointer.
cannam@120	1671 *
cannam@120	1672 * \note If this function returns \c false, the caller still owns the
cannam@120	1673 * pointer.
cannam@120	1674 *
cannam@120	1675 * \param object A pointer to an existing VORBIS_COMMENT object.
cannam@120	1676 * \param entry The comment to insert.
cannam@120	1677 * \param copy See above.
cannam@120	1678 * \assert
cannam@120	1679 * \code object != NULL \endcode
cannam@120	1680 * \code object->type == FLAC__METADATA_TYPE_VORBIS_COMMENT \endcode
cannam@120	1681 * \code (entry.entry != NULL && entry.length > 0) \|\|
cannam@120	1682 * (entry.entry == NULL && entry.length == 0 && copy == false) \endcode
cannam@120	1683 * \retval FLAC__bool
cannam@120	1684 * \c false if memory allocation fails or \a entry does not comply with the
cannam@120	1685 * Vorbis comment specification, else \c true.
cannam@120	1686 */
cannam@120	1687 FLAC_API FLAC__bool FLAC__metadata_object_vorbiscomment_append_comment(FLAC__StreamMetadata *object, FLAC__StreamMetadata_VorbisComment_Entry entry, FLAC__bool copy);
cannam@120	1688
cannam@120	1689 /** Replaces comments in a VORBIS_COMMENT block with a new one.
cannam@120	1690 *
cannam@120	1691 * For convenience, a trailing NUL is added to the entry if it doesn't have
cannam@120	1692 * one already.
cannam@120	1693 *
cannam@120	1694 * Depending on the the value of \a all, either all or just the first comment
cannam@120	1695 * whose field name(s) match the given entry's name will be replaced by the
cannam@120	1696 * given entry. If no comments match, \a entry will simply be appended.
cannam@120	1697 *
cannam@120	1698 * If \a copy is \c true, a copy of the entry is stored; otherwise, the object
cannam@120	1699 * takes ownership of the \c entry.entry pointer.
cannam@120	1700 *
cannam@120	1701 * \note If this function returns \c false, the caller still owns the
cannam@120	1702 * pointer.
cannam@120	1703 *
cannam@120	1704 * \param object A pointer to an existing VORBIS_COMMENT object.
cannam@120	1705 * \param entry The comment to insert.
cannam@120	1706 * \param all If \c true, all comments whose field name matches
cannam@120	1707 * \a entry's field name will be removed, and \a entry will
cannam@120	1708 * be inserted at the position of the first matching
cannam@120	1709 * comment. If \c false, only the first comment whose
cannam@120	1710 * field name matches \a entry's field name will be
cannam@120	1711 * replaced with \a entry.
cannam@120	1712 * \param copy See above.
cannam@120	1713 * \assert
cannam@120	1714 * \code object != NULL \endcode
cannam@120	1715 * \code object->type == FLAC__METADATA_TYPE_VORBIS_COMMENT \endcode
cannam@120	1716 * \code (entry.entry != NULL && entry.length > 0) \|\|
cannam@120	1717 * (entry.entry == NULL && entry.length == 0 && copy == false) \endcode
cannam@120	1718 * \retval FLAC__bool
cannam@120	1719 * \c false if memory allocation fails or \a entry does not comply with the
cannam@120	1720 * Vorbis comment specification, else \c true.
cannam@120	1721 */
cannam@120	1722 FLAC_API FLAC__bool FLAC__metadata_object_vorbiscomment_replace_comment(FLAC__StreamMetadata *object, FLAC__StreamMetadata_VorbisComment_Entry entry, FLAC__bool all, FLAC__bool copy);
cannam@120	1723
cannam@120	1724 /** Delete a comment in a VORBIS_COMMENT block at the given index.
cannam@120	1725 *
cannam@120	1726 * \param object A pointer to an existing VORBIS_COMMENT object.
cannam@120	1727 * \param comment_num The index of the comment to delete.
cannam@120	1728 * \assert
cannam@120	1729 * \code object != NULL \endcode
cannam@120	1730 * \code object->type == FLAC__METADATA_TYPE_VORBIS_COMMENT \endcode
cannam@120	1731 * \code object->data.vorbis_comment.num_comments > comment_num \endcode
cannam@120	1732 * \retval FLAC__bool
cannam@120	1733 * \c false if realloc() fails, else \c true.
cannam@120	1734 */
cannam@120	1735 FLAC_API FLAC__bool FLAC__metadata_object_vorbiscomment_delete_comment(FLAC__StreamMetadata *object, unsigned comment_num);
cannam@120	1736
cannam@120	1737 /** Creates a Vorbis comment entry from NUL-terminated name and value strings.
cannam@120	1738 *
cannam@120	1739 * On return, the filled-in \a entry->entry pointer will point to malloc()ed
cannam@120	1740 * memory and shall be owned by the caller. For convenience the entry will
cannam@120	1741 * have a terminating NUL.
cannam@120	1742 *
cannam@120	1743 * \param entry A pointer to a Vorbis comment entry. The entry's
cannam@120	1744 * \c entry pointer should not point to allocated
cannam@120	1745 * memory as it will be overwritten.
cannam@120	1746 * \param field_name The field name in ASCII, \c NUL terminated.
cannam@120	1747 * \param field_value The field value in UTF-8, \c NUL terminated.
cannam@120	1748 * \assert
cannam@120	1749 * \code entry != NULL \endcode
cannam@120	1750 * \code field_name != NULL \endcode
cannam@120	1751 * \code field_value != NULL \endcode
cannam@120	1752 * \retval FLAC__bool
cannam@120	1753 * \c false if malloc() fails, or if \a field_name or \a field_value does
cannam@120	1754 * not comply with the Vorbis comment specification, else \c true.
cannam@120	1755 */
cannam@120	1756 FLAC_API FLAC__bool FLAC__metadata_object_vorbiscomment_entry_from_name_value_pair(FLAC__StreamMetadata_VorbisComment_Entry entry, const char field_name, const char *field_value);
cannam@120	1757
cannam@120	1758 /** Splits a Vorbis comment entry into NUL-terminated name and value strings.
cannam@120	1759 *
cannam@120	1760 * The returned pointers to name and value will be allocated by malloc()
cannam@120	1761 * and shall be owned by the caller.
cannam@120	1762 *
cannam@120	1763 * \param entry An existing Vorbis comment entry.
cannam@120	1764 * \param field_name The address of where the returned pointer to the
cannam@120	1765 * field name will be stored.
cannam@120	1766 * \param field_value The address of where the returned pointer to the
cannam@120	1767 * field value will be stored.
cannam@120	1768 * \assert
cannam@120	1769 * \code (entry.entry != NULL && entry.length > 0) \endcode
cannam@120	1770 * \code memchr(entry.entry, '=', entry.length) != NULL \endcode
cannam@120	1771 * \code field_name != NULL \endcode
cannam@120	1772 * \code field_value != NULL \endcode
cannam@120	1773 * \retval FLAC__bool
cannam@120	1774 * \c false if memory allocation fails or \a entry does not comply with the
cannam@120	1775 * Vorbis comment specification, else \c true.
cannam@120	1776 */
cannam@120	1777 FLAC_API FLAC__bool FLAC__metadata_object_vorbiscomment_entry_to_name_value_pair(const FLAC__StreamMetadata_VorbisComment_Entry entry, char field_name, char field_value);
cannam@120	1778
cannam@120	1779 /** Check if the given Vorbis comment entry's field name matches the given
cannam@120	1780 * field name.
cannam@120	1781 *
cannam@120	1782 * \param entry An existing Vorbis comment entry.
cannam@120	1783 * \param field_name The field name to check.
cannam@120	1784 * \param field_name_length The length of \a field_name, not including the
cannam@120	1785 * terminating \c NUL.
cannam@120	1786 * \assert
cannam@120	1787 * \code (entry.entry != NULL && entry.length > 0) \endcode
cannam@120	1788 * \retval FLAC__bool
cannam@120	1789 * \c true if the field names match, else \c false
cannam@120	1790 */
cannam@120	1791 FLAC_API FLAC__bool FLAC__metadata_object_vorbiscomment_entry_matches(const FLAC__StreamMetadata_VorbisComment_Entry entry, const char *field_name, unsigned field_name_length);
cannam@120	1792
cannam@120	1793 /** Find a Vorbis comment with the given field name.
cannam@120	1794 *
cannam@120	1795 * The search begins at entry number \a offset; use an offset of 0 to
cannam@120	1796 * search from the beginning of the comment array.
cannam@120	1797 *
cannam@120	1798 * \param object A pointer to an existing VORBIS_COMMENT object.
cannam@120	1799 * \param offset The offset into the comment array from where to start
cannam@120	1800 * the search.
cannam@120	1801 * \param field_name The field name of the comment to find.
cannam@120	1802 * \assert
cannam@120	1803 * \code object != NULL \endcode
cannam@120	1804 * \code object->type == FLAC__METADATA_TYPE_VORBIS_COMMENT \endcode
cannam@120	1805 * \code field_name != NULL \endcode
cannam@120	1806 * \retval int
cannam@120	1807 * The offset in the comment array of the first comment whose field
cannam@120	1808 * name matches \a field_name, or \c -1 if no match was found.
cannam@120	1809 */
cannam@120	1810 FLAC_API int FLAC__metadata_object_vorbiscomment_find_entry_from(const FLAC__StreamMetadata object, unsigned offset, const char field_name);
cannam@120	1811
cannam@120	1812 /** Remove first Vorbis comment matching the given field name.
cannam@120	1813 *
cannam@120	1814 * \param object A pointer to an existing VORBIS_COMMENT object.
cannam@120	1815 * \param field_name The field name of comment to delete.
cannam@120	1816 * \assert
cannam@120	1817 * \code object != NULL \endcode
cannam@120	1818 * \code object->type == FLAC__METADATA_TYPE_VORBIS_COMMENT \endcode
cannam@120	1819 * \retval int
cannam@120	1820 * \c -1 for memory allocation error, \c 0 for no matching entries,
cannam@120	1821 * \c 1 for one matching entry deleted.
cannam@120	1822 */
cannam@120	1823 FLAC_API int FLAC__metadata_object_vorbiscomment_remove_entry_matching(FLAC__StreamMetadata object, const char field_name);
cannam@120	1824
cannam@120	1825 /** Remove all Vorbis comments matching the given field name.
cannam@120	1826 *
cannam@120	1827 * \param object A pointer to an existing VORBIS_COMMENT object.
cannam@120	1828 * \param field_name The field name of comments to delete.
cannam@120	1829 * \assert
cannam@120	1830 * \code object != NULL \endcode
cannam@120	1831 * \code object->type == FLAC__METADATA_TYPE_VORBIS_COMMENT \endcode
cannam@120	1832 * \retval int
cannam@120	1833 * \c -1 for memory allocation error, \c 0 for no matching entries,
cannam@120	1834 * else the number of matching entries deleted.
cannam@120	1835 */
cannam@120	1836 FLAC_API int FLAC__metadata_object_vorbiscomment_remove_entries_matching(FLAC__StreamMetadata object, const char field_name);
cannam@120	1837
cannam@120	1838 /** Create a new CUESHEET track instance.
cannam@120	1839 *
cannam@120	1840 * The object will be "empty"; i.e. values and data pointers will be \c 0.
cannam@120	1841 *
cannam@120	1842 * \retval FLAC__StreamMetadata_CueSheet_Track*
cannam@120	1843 * \c NULL if there was an error allocating memory, else the new instance.
cannam@120	1844 */
cannam@120	1845 FLAC_API FLAC__StreamMetadata_CueSheet_Track *FLAC__metadata_object_cuesheet_track_new(void);
cannam@120	1846
cannam@120	1847 /** Create a copy of an existing CUESHEET track object.
cannam@120	1848 *
cannam@120	1849 * The copy is a "deep" copy, i.e. dynamically allocated data within the
cannam@120	1850 * object is also copied. The caller takes ownership of the new object and
cannam@120	1851 * is responsible for freeing it with
cannam@120	1852 * FLAC__metadata_object_cuesheet_track_delete().
cannam@120	1853 *
cannam@120	1854 * \param object Pointer to object to copy.
cannam@120	1855 * \assert
cannam@120	1856 * \code object != NULL \endcode
cannam@120	1857 * \retval FLAC__StreamMetadata_CueSheet_Track*
cannam@120	1858 * \c NULL if there was an error allocating memory, else the new instance.
cannam@120	1859 */
cannam@120	1860 FLAC_API FLAC__StreamMetadata_CueSheet_Track FLAC__metadata_object_cuesheet_track_clone(const FLAC__StreamMetadata_CueSheet_Track object);
cannam@120	1861
cannam@120	1862 /** Delete a CUESHEET track object
cannam@120	1863 *
cannam@120	1864 * \param object A pointer to an existing CUESHEET track object.
cannam@120	1865 * \assert
cannam@120	1866 * \code object != NULL \endcode
cannam@120	1867 */
cannam@120	1868 FLAC_API void FLAC__metadata_object_cuesheet_track_delete(FLAC__StreamMetadata_CueSheet_Track *object);
cannam@120	1869
cannam@120	1870 /** Resize a track's index point array.
cannam@120	1871 *
cannam@120	1872 * If the size shrinks, elements will truncated; if it grows, new blank
cannam@120	1873 * indices will be added to the end.
cannam@120	1874 *
cannam@120	1875 * \param object A pointer to an existing CUESHEET object.
cannam@120	1876 * \param track_num The index of the track to modify. NOTE: this is not
cannam@120	1877 * necessarily the same as the track's \a number field.
cannam@120	1878 * \param new_num_indices The desired length of the array; may be \c 0.
cannam@120	1879 * \assert
cannam@120	1880 * \code object != NULL \endcode
cannam@120	1881 * \code object->type == FLAC__METADATA_TYPE_CUESHEET \endcode
cannam@120	1882 * \code object->data.cue_sheet.num_tracks > track_num \endcode
cannam@120	1883 * \code (object->data.cue_sheet.tracks[track_num].indices == NULL && object->data.cue_sheet.tracks[track_num].num_indices == 0) \|\|
cannam@120	1884 * (object->data.cue_sheet.tracks[track_num].indices != NULL && object->data.cue_sheet.tracks[track_num].num_indices > 0) \endcode
cannam@120	1885 * \retval FLAC__bool
cannam@120	1886 * \c false if memory allocation error, else \c true.
cannam@120	1887 */
cannam@120	1888 FLAC_API FLAC__bool FLAC__metadata_object_cuesheet_track_resize_indices(FLAC__StreamMetadata *object, unsigned track_num, unsigned new_num_indices);
cannam@120	1889
cannam@120	1890 /** Insert an index point in a CUESHEET track at the given index.
cannam@120	1891 *
cannam@120	1892 * \param object A pointer to an existing CUESHEET object.
cannam@120	1893 * \param track_num The index of the track to modify. NOTE: this is not
cannam@120	1894 * necessarily the same as the track's \a number field.
cannam@120	1895 * \param index_num The index into the track's index array at which to
cannam@120	1896 * insert the index point. NOTE: this is not necessarily
cannam@120	1897 * the same as the index point's \a number field. The
cannam@120	1898 * indices at and after \a index_num move right one
cannam@120	1899 * position. To append an index point to the end, set
cannam@120	1900 * \a index_num to
cannam@120	1901 * \c object->data.cue_sheet.tracks[track_num].num_indices .
cannam@120	1902 * \param index The index point to insert.
cannam@120	1903 * \assert
cannam@120	1904 * \code object != NULL \endcode
cannam@120	1905 * \code object->type == FLAC__METADATA_TYPE_CUESHEET \endcode
cannam@120	1906 * \code object->data.cue_sheet.num_tracks > track_num \endcode
cannam@120	1907 * \code object->data.cue_sheet.tracks[track_num].num_indices >= index_num \endcode
cannam@120	1908 * \retval FLAC__bool
cannam@120	1909 * \c false if realloc() fails, else \c true.
cannam@120	1910 */
cannam@120	1911 FLAC_API FLAC__bool FLAC__metadata_object_cuesheet_track_insert_index(FLAC__StreamMetadata *object, unsigned track_num, unsigned index_num, FLAC__StreamMetadata_CueSheet_Index index);
cannam@120	1912
cannam@120	1913 /** Insert a blank index point in a CUESHEET track at the given index.
cannam@120	1914 *
cannam@120	1915 * A blank index point is one in which all field values are zero.
cannam@120	1916 *
cannam@120	1917 * \param object A pointer to an existing CUESHEET object.
cannam@120	1918 * \param track_num The index of the track to modify. NOTE: this is not
cannam@120	1919 * necessarily the same as the track's \a number field.
cannam@120	1920 * \param index_num The index into the track's index array at which to
cannam@120	1921 * insert the index point. NOTE: this is not necessarily
cannam@120	1922 * the same as the index point's \a number field. The
cannam@120	1923 * indices at and after \a index_num move right one
cannam@120	1924 * position. To append an index point to the end, set
cannam@120	1925 * \a index_num to
cannam@120	1926 * \c object->data.cue_sheet.tracks[track_num].num_indices .
cannam@120	1927 * \assert
cannam@120	1928 * \code object != NULL \endcode
cannam@120	1929 * \code object->type == FLAC__METADATA_TYPE_CUESHEET \endcode
cannam@120	1930 * \code object->data.cue_sheet.num_tracks > track_num \endcode
cannam@120	1931 * \code object->data.cue_sheet.tracks[track_num].num_indices >= index_num \endcode
cannam@120	1932 * \retval FLAC__bool
cannam@120	1933 * \c false if realloc() fails, else \c true.
cannam@120	1934 */
cannam@120	1935 FLAC_API FLAC__bool FLAC__metadata_object_cuesheet_track_insert_blank_index(FLAC__StreamMetadata *object, unsigned track_num, unsigned index_num);
cannam@120	1936
cannam@120	1937 /** Delete an index point in a CUESHEET track at the given index.
cannam@120	1938 *
cannam@120	1939 * \param object A pointer to an existing CUESHEET object.
cannam@120	1940 * \param track_num The index into the track array of the track to
cannam@120	1941 * modify. NOTE: this is not necessarily the same
cannam@120	1942 * as the track's \a number field.
cannam@120	1943 * \param index_num The index into the track's index array of the index
cannam@120	1944 * to delete. NOTE: this is not necessarily the same
cannam@120	1945 * as the index's \a number field.
cannam@120	1946 * \assert
cannam@120	1947 * \code object != NULL \endcode
cannam@120	1948 * \code object->type == FLAC__METADATA_TYPE_CUESHEET \endcode
cannam@120	1949 * \code object->data.cue_sheet.num_tracks > track_num \endcode
cannam@120	1950 * \code object->data.cue_sheet.tracks[track_num].num_indices > index_num \endcode
cannam@120	1951 * \retval FLAC__bool
cannam@120	1952 * \c false if realloc() fails, else \c true.
cannam@120	1953 */
cannam@120	1954 FLAC_API FLAC__bool FLAC__metadata_object_cuesheet_track_delete_index(FLAC__StreamMetadata *object, unsigned track_num, unsigned index_num);
cannam@120	1955
cannam@120	1956 /** Resize the track array.
cannam@120	1957 *
cannam@120	1958 * If the size shrinks, elements will truncated; if it grows, new blank
cannam@120	1959 * tracks will be added to the end.
cannam@120	1960 *
cannam@120	1961 * \param object A pointer to an existing CUESHEET object.
cannam@120	1962 * \param new_num_tracks The desired length of the array; may be \c 0.
cannam@120	1963 * \assert
cannam@120	1964 * \code object != NULL \endcode
cannam@120	1965 * \code object->type == FLAC__METADATA_TYPE_CUESHEET \endcode
cannam@120	1966 * \code (object->data.cue_sheet.tracks == NULL && object->data.cue_sheet.num_tracks == 0) \|\|
cannam@120	1967 * (object->data.cue_sheet.tracks != NULL && object->data.cue_sheet.num_tracks > 0) \endcode
cannam@120	1968 * \retval FLAC__bool
cannam@120	1969 * \c false if memory allocation error, else \c true.
cannam@120	1970 */
cannam@120	1971 FLAC_API FLAC__bool FLAC__metadata_object_cuesheet_resize_tracks(FLAC__StreamMetadata *object, unsigned new_num_tracks);
cannam@120	1972
cannam@120	1973 /** Sets a track in a CUESHEET block.
cannam@120	1974 *
cannam@120	1975 * If \a copy is \c true, a copy of the track is stored; otherwise, the object
cannam@120	1976 * takes ownership of the \a track pointer.
cannam@120	1977 *
cannam@120	1978 * \param object A pointer to an existing CUESHEET object.
cannam@120	1979 * \param track_num Index into track array to set. NOTE: this is not
cannam@120	1980 * necessarily the same as the track's \a number field.
cannam@120	1981 * \param track The track to set the track to. You may safely pass in
cannam@120	1982 * a const pointer if \a copy is \c true.
cannam@120	1983 * \param copy See above.
cannam@120	1984 * \assert
cannam@120	1985 * \code object != NULL \endcode
cannam@120	1986 * \code object->type == FLAC__METADATA_TYPE_CUESHEET \endcode
cannam@120	1987 * \code track_num < object->data.cue_sheet.num_tracks \endcode
cannam@120	1988 * \code (track->indices != NULL && track->num_indices > 0) \|\|
cannam@120	1989 * (track->indices == NULL && track->num_indices == 0)
cannam@120	1990 * \retval FLAC__bool
cannam@120	1991 * \c false if \a copy is \c true and malloc() fails, else \c true.
cannam@120	1992 */
cannam@120	1993 FLAC_API FLAC__bool FLAC__metadata_object_cuesheet_set_track(FLAC__StreamMetadata object, unsigned track_num, FLAC__StreamMetadata_CueSheet_Track track, FLAC__bool copy);
cannam@120	1994
cannam@120	1995 /** Insert a track in a CUESHEET block at the given index.
cannam@120	1996 *
cannam@120	1997 * If \a copy is \c true, a copy of the track is stored; otherwise, the object
cannam@120	1998 * takes ownership of the \a track pointer.
cannam@120	1999 *
cannam@120	2000 * \param object A pointer to an existing CUESHEET object.
cannam@120	2001 * \param track_num The index at which to insert the track. NOTE: this
cannam@120	2002 * is not necessarily the same as the track's \a number
cannam@120	2003 * field. The tracks at and after \a track_num move right
cannam@120	2004 * one position. To append a track to the end, set
cannam@120	2005 * \a track_num to \c object->data.cue_sheet.num_tracks .
cannam@120	2006 * \param track The track to insert. You may safely pass in a const
cannam@120	2007 * pointer if \a copy is \c true.
cannam@120	2008 * \param copy See above.
cannam@120	2009 * \assert
cannam@120	2010 * \code object != NULL \endcode
cannam@120	2011 * \code object->type == FLAC__METADATA_TYPE_CUESHEET \endcode
cannam@120	2012 * \code object->data.cue_sheet.num_tracks >= track_num \endcode
cannam@120	2013 * \retval FLAC__bool
cannam@120	2014 * \c false if \a copy is \c true and malloc() fails, else \c true.
cannam@120	2015 */
cannam@120	2016 FLAC_API FLAC__bool FLAC__metadata_object_cuesheet_insert_track(FLAC__StreamMetadata object, unsigned track_num, FLAC__StreamMetadata_CueSheet_Track track, FLAC__bool copy);
cannam@120	2017
cannam@120	2018 /** Insert a blank track in a CUESHEET block at the given index.
cannam@120	2019 *
cannam@120	2020 * A blank track is one in which all field values are zero.
cannam@120	2021 *
cannam@120	2022 * \param object A pointer to an existing CUESHEET object.
cannam@120	2023 * \param track_num The index at which to insert the track. NOTE: this
cannam@120	2024 * is not necessarily the same as the track's \a number
cannam@120	2025 * field. The tracks at and after \a track_num move right
cannam@120	2026 * one position. To append a track to the end, set
cannam@120	2027 * \a track_num to \c object->data.cue_sheet.num_tracks .
cannam@120	2028 * \assert
cannam@120	2029 * \code object != NULL \endcode
cannam@120	2030 * \code object->type == FLAC__METADATA_TYPE_CUESHEET \endcode
cannam@120	2031 * \code object->data.cue_sheet.num_tracks >= track_num \endcode
cannam@120	2032 * \retval FLAC__bool
cannam@120	2033 * \c false if \a copy is \c true and malloc() fails, else \c true.
cannam@120	2034 */
cannam@120	2035 FLAC_API FLAC__bool FLAC__metadata_object_cuesheet_insert_blank_track(FLAC__StreamMetadata *object, unsigned track_num);
cannam@120	2036
cannam@120	2037 /** Delete a track in a CUESHEET block at the given index.
cannam@120	2038 *
cannam@120	2039 * \param object A pointer to an existing CUESHEET object.
cannam@120	2040 * \param track_num The index into the track array of the track to
cannam@120	2041 * delete. NOTE: this is not necessarily the same
cannam@120	2042 * as the track's \a number field.
cannam@120	2043 * \assert
cannam@120	2044 * \code object != NULL \endcode
cannam@120	2045 * \code object->type == FLAC__METADATA_TYPE_CUESHEET \endcode
cannam@120	2046 * \code object->data.cue_sheet.num_tracks > track_num \endcode
cannam@120	2047 * \retval FLAC__bool
cannam@120	2048 * \c false if realloc() fails, else \c true.
cannam@120	2049 */
cannam@120	2050 FLAC_API FLAC__bool FLAC__metadata_object_cuesheet_delete_track(FLAC__StreamMetadata *object, unsigned track_num);
cannam@120	2051
cannam@120	2052 /** Check a cue sheet to see if it conforms to the FLAC specification.
cannam@120	2053 * See the format specification for limits on the contents of the
cannam@120	2054 * cue sheet.
cannam@120	2055 *
cannam@120	2056 * \param object A pointer to an existing CUESHEET object.
cannam@120	2057 * \param check_cd_da_subset If \c true, check CUESHEET against more
cannam@120	2058 * stringent requirements for a CD-DA (audio) disc.
cannam@120	2059 * \param violation Address of a pointer to a string. If there is a
cannam@120	2060 * violation, a pointer to a string explanation of the
cannam@120	2061 * violation will be returned here. \a violation may be
cannam@120	2062 * \c NULL if you don't need the returned string. Do not
cannam@120	2063 * free the returned string; it will always point to static
cannam@120	2064 * data.
cannam@120	2065 * \assert
cannam@120	2066 * \code object != NULL \endcode
cannam@120	2067 * \code object->type == FLAC__METADATA_TYPE_CUESHEET \endcode
cannam@120	2068 * \retval FLAC__bool
cannam@120	2069 * \c false if cue sheet is illegal, else \c true.
cannam@120	2070 */
cannam@120	2071 FLAC_API FLAC__bool FLAC__metadata_object_cuesheet_is_legal(const FLAC__StreamMetadata object, FLAC__bool check_cd_da_subset, const char *violation);
cannam@120	2072
cannam@120	2073 /** Calculate and return the CDDB/freedb ID for a cue sheet. The function
cannam@120	2074 * assumes the cue sheet corresponds to a CD; the result is undefined
cannam@120	2075 * if the cuesheet's is_cd bit is not set.
cannam@120	2076 *
cannam@120	2077 * \param object A pointer to an existing CUESHEET object.
cannam@120	2078 * \assert
cannam@120	2079 * \code object != NULL \endcode
cannam@120	2080 * \code object->type == FLAC__METADATA_TYPE_CUESHEET \endcode
cannam@120	2081 * \retval FLAC__uint32
cannam@120	2082 * The unsigned integer representation of the CDDB/freedb ID
cannam@120	2083 */
cannam@120	2084 FLAC_API FLAC__uint32 FLAC__metadata_object_cuesheet_calculate_cddb_id(const FLAC__StreamMetadata *object);
cannam@120	2085
cannam@120	2086 /** Sets the MIME type of a PICTURE block.
cannam@120	2087 *
cannam@120	2088 * If \a copy is \c true, a copy of the string is stored; otherwise, the object
cannam@120	2089 * takes ownership of the pointer. The existing string will be freed if this
cannam@120	2090 * function is successful, otherwise the original string will remain if \a copy
cannam@120	2091 * is \c true and malloc() fails.
cannam@120	2092 *
cannam@120	2093 * \note It is safe to pass a const pointer to \a mime_type if \a copy is \c true.
cannam@120	2094 *
cannam@120	2095 * \param object A pointer to an existing PICTURE object.
cannam@120	2096 * \param mime_type A pointer to the MIME type string. The string must be
cannam@120	2097 * ASCII characters 0x20-0x7e, NUL-terminated. No validation
cannam@120	2098 * is done.
cannam@120	2099 * \param copy See above.
cannam@120	2100 * \assert
cannam@120	2101 * \code object != NULL \endcode
cannam@120	2102 * \code object->type == FLAC__METADATA_TYPE_PICTURE \endcode
cannam@120	2103 * \code (mime_type != NULL) \endcode
cannam@120	2104 * \retval FLAC__bool
cannam@120	2105 * \c false if \a copy is \c true and malloc() fails, else \c true.
cannam@120	2106 */
cannam@120	2107 FLAC_API FLAC__bool FLAC__metadata_object_picture_set_mime_type(FLAC__StreamMetadata object, char mime_type, FLAC__bool copy);
cannam@120	2108
cannam@120	2109 /** Sets the description of a PICTURE block.
cannam@120	2110 *
cannam@120	2111 * If \a copy is \c true, a copy of the string is stored; otherwise, the object
cannam@120	2112 * takes ownership of the pointer. The existing string will be freed if this
cannam@120	2113 * function is successful, otherwise the original string will remain if \a copy
cannam@120	2114 * is \c true and malloc() fails.
cannam@120	2115 *
cannam@120	2116 * \note It is safe to pass a const pointer to \a description if \a copy is \c true.
cannam@120	2117 *
cannam@120	2118 * \param object A pointer to an existing PICTURE object.
cannam@120	2119 * \param description A pointer to the description string. The string must be
cannam@120	2120 * valid UTF-8, NUL-terminated. No validation is done.
cannam@120	2121 * \param copy See above.
cannam@120	2122 * \assert
cannam@120	2123 * \code object != NULL \endcode
cannam@120	2124 * \code object->type == FLAC__METADATA_TYPE_PICTURE \endcode
cannam@120	2125 * \code (description != NULL) \endcode
cannam@120	2126 * \retval FLAC__bool
cannam@120	2127 * \c false if \a copy is \c true and malloc() fails, else \c true.
cannam@120	2128 */
cannam@120	2129 FLAC_API FLAC__bool FLAC__metadata_object_picture_set_description(FLAC__StreamMetadata object, FLAC__byte description, FLAC__bool copy);
cannam@120	2130
cannam@120	2131 /** Sets the picture data of a PICTURE block.
cannam@120	2132 *
cannam@120	2133 * If \a copy is \c true, a copy of the data is stored; otherwise, the object
cannam@120	2134 * takes ownership of the pointer. Also sets the \a data_length field of the
cannam@120	2135 * metadata object to what is passed in as the \a length parameter. The
cannam@120	2136 * existing data will be freed if this function is successful, otherwise the
cannam@120	2137 * original data and data_length will remain if \a copy is \c true and
cannam@120	2138 * malloc() fails.
cannam@120	2139 *
cannam@120	2140 * \note It is safe to pass a const pointer to \a data if \a copy is \c true.
cannam@120	2141 *
cannam@120	2142 * \param object A pointer to an existing PICTURE object.
cannam@120	2143 * \param data A pointer to the data to set.
cannam@120	2144 * \param length The length of \a data in bytes.
cannam@120	2145 * \param copy See above.
cannam@120	2146 * \assert
cannam@120	2147 * \code object != NULL \endcode
cannam@120	2148 * \code object->type == FLAC__METADATA_TYPE_PICTURE \endcode
cannam@120	2149 * \code (data != NULL && length > 0) \|\|
cannam@120	2150 * (data == NULL && length == 0 && copy == false) \endcode
cannam@120	2151 * \retval FLAC__bool
cannam@120	2152 * \c false if \a copy is \c true and malloc() fails, else \c true.
cannam@120	2153 */
cannam@120	2154 FLAC_API FLAC__bool FLAC__metadata_object_picture_set_data(FLAC__StreamMetadata object, FLAC__byte data, FLAC__uint32 length, FLAC__bool copy);
cannam@120	2155
cannam@120	2156 /** Check a PICTURE block to see if it conforms to the FLAC specification.
cannam@120	2157 * See the format specification for limits on the contents of the
cannam@120	2158 * PICTURE block.
cannam@120	2159 *
cannam@120	2160 * \param object A pointer to existing PICTURE block to be checked.
cannam@120	2161 * \param violation Address of a pointer to a string. If there is a
cannam@120	2162 * violation, a pointer to a string explanation of the
cannam@120	2163 * violation will be returned here. \a violation may be
cannam@120	2164 * \c NULL if you don't need the returned string. Do not
cannam@120	2165 * free the returned string; it will always point to static
cannam@120	2166 * data.
cannam@120	2167 * \assert
cannam@120	2168 * \code object != NULL \endcode
cannam@120	2169 * \code object->type == FLAC__METADATA_TYPE_PICTURE \endcode
cannam@120	2170 * \retval FLAC__bool
cannam@120	2171 * \c false if PICTURE block is illegal, else \c true.
cannam@120	2172 */
cannam@120	2173 FLAC_API FLAC__bool FLAC__metadata_object_picture_is_legal(const FLAC__StreamMetadata object, const char *violation);
cannam@120	2174
cannam@120	2175 /* \} */
cannam@120	2176
cannam@120	2177 #ifdef __cplusplus
cannam@120	2178 }
cannam@120	2179 #endif
cannam@120	2180
cannam@120	2181 #endif

Mercurial > hg > sv-dependency-builds

annotate win64-mingw/include/FLAC/metadata.h @ 132:42a73082be24