sv-dependency-builds: src/bzip2-1.0.6/manual.xml annotate

annotate src/bzip2-1.0.6/manual.xml @ 23:619f715526df sv_v2.1

Update Vamp plugin SDK to 2.5

author	Chris Cannam
date	Thu, 09 May 2013 10:52:46 +0100
parents	e13257ea84a4
children

rev	line source
Chris@4	1 <?xml version="1.0"?> <!-- -- sgml -- -->
Chris@4	2 <!DOCTYPE book PUBLIC "-//OASIS//DTD DocBook XML V4.2//EN"
Chris@4	3 "http://www.oasis-open.org/docbook/xml/4.2/docbookx.dtd"[
Chris@4	4
Chris@4	5 <!-- various strings, dates etc. common to all docs -->
Chris@4	6 <!ENTITY % common-ents SYSTEM "entities.xml"> %common-ents;
Chris@4	7 ]>
Chris@4	8
Chris@4	9 <book lang="en" id="userman" xreflabel="bzip2 Manual">
Chris@4	10
Chris@4	11 <bookinfo>
Chris@4	12 <title>bzip2 and libbzip2, version 1.0.6</title>
Chris@4	13 <subtitle>A program and library for data compression</subtitle>
Chris@4	14 <copyright>
Chris@4	15 <year>&bz-lifespan;</year>
Chris@4	16 <holder>Julian Seward</holder>
Chris@4	17 </copyright>
Chris@4	18 <releaseinfo>Version &bz-version; of &bz-date;</releaseinfo>
Chris@4	19
Chris@4	20 <authorgroup>
Chris@4	21 <author>
Chris@4	22 <firstname>Julian</firstname>
Chris@4	23 <surname>Seward</surname>
Chris@4	24 <affiliation>
Chris@4	25 <orgname>&bz-url;</orgname>
Chris@4	26 </affiliation>
Chris@4	27 </author>
Chris@4	28 </authorgroup>
Chris@4	29
Chris@4	30 <legalnotice>
Chris@4	31
Chris@4	32 <para>This program, <computeroutput>bzip2</computeroutput>, the
Chris@4	33 associated library <computeroutput>libbzip2</computeroutput>, and
Chris@4	34 all documentation, are copyright © &bz-lifespan; Julian Seward.
Chris@4	35 All rights reserved.</para>
Chris@4	36
Chris@4	37 <para>Redistribution and use in source and binary forms, with
Chris@4	38 or without modification, are permitted provided that the
Chris@4	39 following conditions are met:</para>
Chris@4	40
Chris@4	41 <itemizedlist mark='bullet'>
Chris@4	42
Chris@4	43 <listitem><para>Redistributions of source code must retain the
Chris@4	44 above copyright notice, this list of conditions and the
Chris@4	45 following disclaimer.</para></listitem>
Chris@4	46
Chris@4	47 <listitem><para>The origin of this software must not be
Chris@4	48 misrepresented; you must not claim that you wrote the original
Chris@4	49 software. If you use this software in a product, an
Chris@4	50 acknowledgment in the product documentation would be
Chris@4	51 appreciated but is not required.</para></listitem>
Chris@4	52
Chris@4	53 <listitem><para>Altered source versions must be plainly marked
Chris@4	54 as such, and must not be misrepresented as being the original
Chris@4	55 software.</para></listitem>
Chris@4	56
Chris@4	57 <listitem><para>The name of the author may not be used to
Chris@4	58 endorse or promote products derived from this software without
Chris@4	59 specific prior written permission.</para></listitem>
Chris@4	60
Chris@4	61 </itemizedlist>
Chris@4	62
Chris@4	63 <para>THIS SOFTWARE IS PROVIDED BY THE AUTHOR "AS IS" AND ANY
Chris@4	64 EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
Chris@4	65 THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A
Chris@4	66 PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
Chris@4	67 AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
Chris@4	68 EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED
Chris@4	69 TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
Chris@4	70 DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
Chris@4	71 ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
Chris@4	72 LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING
Chris@4	73 IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
Chris@4	74 THE POSSIBILITY OF SUCH DAMAGE.</para>
Chris@4	75
Chris@4	76 <para>PATENTS: To the best of my knowledge,
Chris@4	77 <computeroutput>bzip2</computeroutput> and
Chris@4	78 <computeroutput>libbzip2</computeroutput> do not use any patented
Chris@4	79 algorithms. However, I do not have the resources to carry
Chris@4	80 out a patent search. Therefore I cannot give any guarantee of
Chris@4	81 the above statement.
Chris@4	82 </para>
Chris@4	83
Chris@4	84 </legalnotice>
Chris@4	85
Chris@4	86 </bookinfo>
Chris@4	87
Chris@4	88
Chris@4	89
Chris@4	90 <chapter id="intro" xreflabel="Introduction">
Chris@4	91 <title>Introduction</title>
Chris@4	92
Chris@4	93 <para><computeroutput>bzip2</computeroutput> compresses files
Chris@4	94 using the Burrows-Wheeler block-sorting text compression
Chris@4	95 algorithm, and Huffman coding. Compression is generally
Chris@4	96 considerably better than that achieved by more conventional
Chris@4	97 LZ77/LZ78-based compressors, and approaches the performance of
Chris@4	98 the PPM family of statistical compressors.</para>
Chris@4	99
Chris@4	100 <para><computeroutput>bzip2</computeroutput> is built on top of
Chris@4	101 <computeroutput>libbzip2</computeroutput>, a flexible library for
Chris@4	102 handling compressed data in the
Chris@4	103 <computeroutput>bzip2</computeroutput> format. This manual
Chris@4	104 describes both how to use the program and how to work with the
Chris@4	105 library interface. Most of the manual is devoted to this
Chris@4	106 library, not the program, which is good news if your interest is
Chris@4	107 only in the program.</para>
Chris@4	108
Chris@4	109 <itemizedlist mark='bullet'>
Chris@4	110
Chris@4	111 <listitem><para><xref linkend="using"/> describes how to use
Chris@4	112 <computeroutput>bzip2</computeroutput>; this is the only part
Chris@4	113 you need to read if you just want to know how to operate the
Chris@4	114 program.</para></listitem>
Chris@4	115
Chris@4	116 <listitem><para><xref linkend="libprog"/> describes the
Chris@4	117 programming interfaces in detail, and</para></listitem>
Chris@4	118
Chris@4	119 <listitem><para><xref linkend="misc"/> records some
Chris@4	120 miscellaneous notes which I thought ought to be recorded
Chris@4	121 somewhere.</para></listitem>
Chris@4	122
Chris@4	123 </itemizedlist>
Chris@4	124
Chris@4	125 </chapter>
Chris@4	126
Chris@4	127
Chris@4	128 <chapter id="using" xreflabel="How to use bzip2">
Chris@4	129 <title>How to use bzip2</title>
Chris@4	130
Chris@4	131 <para>This chapter contains a copy of the
Chris@4	132 <computeroutput>bzip2</computeroutput> man page, and nothing
Chris@4	133 else.</para>
Chris@4	134
Chris@4	135 <sect1 id="name" xreflabel="NAME">
Chris@4	136 <title>NAME</title>
Chris@4	137
Chris@4	138 <itemizedlist mark='bullet'>
Chris@4	139
Chris@4	140 <listitem><para><computeroutput>bzip2</computeroutput>,
Chris@4	141 <computeroutput>bunzip2</computeroutput> - a block-sorting file
Chris@4	142 compressor, v1.0.6</para></listitem>
Chris@4	143
Chris@4	144 <listitem><para><computeroutput>bzcat</computeroutput> -
Chris@4	145 decompresses files to stdout</para></listitem>
Chris@4	146
Chris@4	147 <listitem><para><computeroutput>bzip2recover</computeroutput> -
Chris@4	148 recovers data from damaged bzip2 files</para></listitem>
Chris@4	149
Chris@4	150 </itemizedlist>
Chris@4	151
Chris@4	152 </sect1>
Chris@4	153
Chris@4	154
Chris@4	155 <sect1 id="synopsis" xreflabel="SYNOPSIS">
Chris@4	156 <title>SYNOPSIS</title>
Chris@4	157
Chris@4	158 <itemizedlist mark='bullet'>
Chris@4	159
Chris@4	160 <listitem><para><computeroutput>bzip2</computeroutput> [
Chris@4	161 -cdfkqstvzVL123456789 ] [ filenames ... ]</para></listitem>
Chris@4	162
Chris@4	163 <listitem><para><computeroutput>bunzip2</computeroutput> [
Chris@4	164 -fkvsVL ] [ filenames ... ]</para></listitem>
Chris@4	165
Chris@4	166 <listitem><para><computeroutput>bzcat</computeroutput> [ -s ] [
Chris@4	167 filenames ... ]</para></listitem>
Chris@4	168
Chris@4	169 <listitem><para><computeroutput>bzip2recover</computeroutput>
Chris@4	170 filename</para></listitem>
Chris@4	171
Chris@4	172 </itemizedlist>
Chris@4	173
Chris@4	174 </sect1>
Chris@4	175
Chris@4	176
Chris@4	177 <sect1 id="description" xreflabel="DESCRIPTION">
Chris@4	178 <title>DESCRIPTION</title>
Chris@4	179
Chris@4	180 <para><computeroutput>bzip2</computeroutput> compresses files
Chris@4	181 using the Burrows-Wheeler block sorting text compression
Chris@4	182 algorithm, and Huffman coding. Compression is generally
Chris@4	183 considerably better than that achieved by more conventional
Chris@4	184 LZ77/LZ78-based compressors, and approaches the performance of
Chris@4	185 the PPM family of statistical compressors.</para>
Chris@4	186
Chris@4	187 <para>The command-line options are deliberately very similar to
Chris@4	188 those of GNU <computeroutput>gzip</computeroutput>, but they are
Chris@4	189 not identical.</para>
Chris@4	190
Chris@4	191 <para><computeroutput>bzip2</computeroutput> expects a list of
Chris@4	192 file names to accompany the command-line flags. Each file is
Chris@4	193 replaced by a compressed version of itself, with the name
Chris@4	194 <computeroutput>original_name.bz2</computeroutput>. Each
Chris@4	195 compressed file has the same modification date, permissions, and,
Chris@4	196 when possible, ownership as the corresponding original, so that
Chris@4	197 these properties can be correctly restored at decompression time.
Chris@4	198 File name handling is naive in the sense that there is no
Chris@4	199 mechanism for preserving original file names, permissions,
Chris@4	200 ownerships or dates in filesystems which lack these concepts, or
Chris@4	201 have serious file name length restrictions, such as
Chris@4	202 MS-DOS.</para>
Chris@4	203
Chris@4	204 <para><computeroutput>bzip2</computeroutput> and
Chris@4	205 <computeroutput>bunzip2</computeroutput> will by default not
Chris@4	206 overwrite existing files. If you want this to happen, specify
Chris@4	207 the <computeroutput>-f</computeroutput> flag.</para>
Chris@4	208
Chris@4	209 <para>If no file names are specified,
Chris@4	210 <computeroutput>bzip2</computeroutput> compresses from standard
Chris@4	211 input to standard output. In this case,
Chris@4	212 <computeroutput>bzip2</computeroutput> will decline to write
Chris@4	213 compressed output to a terminal, as this would be entirely
Chris@4	214 incomprehensible and therefore pointless.</para>
Chris@4	215
Chris@4	216 <para><computeroutput>bunzip2</computeroutput> (or
Chris@4	217 <computeroutput>bzip2 -d</computeroutput>) decompresses all
Chris@4	218 specified files. Files which were not created by
Chris@4	219 <computeroutput>bzip2</computeroutput> will be detected and
Chris@4	220 ignored, and a warning issued.
Chris@4	221 <computeroutput>bzip2</computeroutput> attempts to guess the
Chris@4	222 filename for the decompressed file from that of the compressed
Chris@4	223 file as follows:</para>
Chris@4	224
Chris@4	225 <itemizedlist mark='bullet'>
Chris@4	226
Chris@4	227 <listitem><para><computeroutput>filename.bz2 </computeroutput>
Chris@4	228 becomes
Chris@4	229 <computeroutput>filename</computeroutput></para></listitem>
Chris@4	230
Chris@4	231 <listitem><para><computeroutput>filename.bz </computeroutput>
Chris@4	232 becomes
Chris@4	233 <computeroutput>filename</computeroutput></para></listitem>
Chris@4	234
Chris@4	235 <listitem><para><computeroutput>filename.tbz2</computeroutput>
Chris@4	236 becomes
Chris@4	237 <computeroutput>filename.tar</computeroutput></para></listitem>
Chris@4	238
Chris@4	239 <listitem><para><computeroutput>filename.tbz </computeroutput>
Chris@4	240 becomes
Chris@4	241 <computeroutput>filename.tar</computeroutput></para></listitem>
Chris@4	242
Chris@4	243 <listitem><para><computeroutput>anyothername </computeroutput>
Chris@4	244 becomes
Chris@4	245 <computeroutput>anyothername.out</computeroutput></para></listitem>
Chris@4	246
Chris@4	247 </itemizedlist>
Chris@4	248
Chris@4	249 <para>If the file does not end in one of the recognised endings,
Chris@4	250 <computeroutput>.bz2</computeroutput>,
Chris@4	251 <computeroutput>.bz</computeroutput>,
Chris@4	252 <computeroutput>.tbz2</computeroutput> or
Chris@4	253 <computeroutput>.tbz</computeroutput>,
Chris@4	254 <computeroutput>bzip2</computeroutput> complains that it cannot
Chris@4	255 guess the name of the original file, and uses the original name
Chris@4	256 with <computeroutput>.out</computeroutput> appended.</para>
Chris@4	257
Chris@4	258 <para>As with compression, supplying no filenames causes
Chris@4	259 decompression from standard input to standard output.</para>
Chris@4	260
Chris@4	261 <para><computeroutput>bunzip2</computeroutput> will correctly
Chris@4	262 decompress a file which is the concatenation of two or more
Chris@4	263 compressed files. The result is the concatenation of the
Chris@4	264 corresponding uncompressed files. Integrity testing
Chris@4	265 (<computeroutput>-t</computeroutput>) of concatenated compressed
Chris@4	266 files is also supported.</para>
Chris@4	267
Chris@4	268 <para>You can also compress or decompress files to the standard
Chris@4	269 output by giving the <computeroutput>-c</computeroutput> flag.
Chris@4	270 Multiple files may be compressed and decompressed like this. The
Chris@4	271 resulting outputs are fed sequentially to stdout. Compression of
Chris@4	272 multiple files in this manner generates a stream containing
Chris@4	273 multiple compressed file representations. Such a stream can be
Chris@4	274 decompressed correctly only by
Chris@4	275 <computeroutput>bzip2</computeroutput> version 0.9.0 or later.
Chris@4	276 Earlier versions of <computeroutput>bzip2</computeroutput> will
Chris@4	277 stop after decompressing the first file in the stream.</para>
Chris@4	278
Chris@4	279 <para><computeroutput>bzcat</computeroutput> (or
Chris@4	280 <computeroutput>bzip2 -dc</computeroutput>) decompresses all
Chris@4	281 specified files to the standard output.</para>
Chris@4	282
Chris@4	283 <para><computeroutput>bzip2</computeroutput> will read arguments
Chris@4	284 from the environment variables
Chris@4	285 <computeroutput>BZIP2</computeroutput> and
Chris@4	286 <computeroutput>BZIP</computeroutput>, in that order, and will
Chris@4	287 process them before any arguments read from the command line.
Chris@4	288 This gives a convenient way to supply default arguments.</para>
Chris@4	289
Chris@4	290 <para>Compression is always performed, even if the compressed
Chris@4	291 file is slightly larger than the original. Files of less than
Chris@4	292 about one hundred bytes tend to get larger, since the compression
Chris@4	293 mechanism has a constant overhead in the region of 50 bytes.
Chris@4	294 Random data (including the output of most file compressors) is
Chris@4	295 coded at about 8.05 bits per byte, giving an expansion of around
Chris@4	296 0.5%.</para>
Chris@4	297
Chris@4	298 <para>As a self-check for your protection,
Chris@4	299 <computeroutput>bzip2</computeroutput> uses 32-bit CRCs to make
Chris@4	300 sure that the decompressed version of a file is identical to the
Chris@4	301 original. This guards against corruption of the compressed data,
Chris@4	302 and against undetected bugs in
Chris@4	303 <computeroutput>bzip2</computeroutput> (hopefully very unlikely).
Chris@4	304 The chances of data corruption going undetected is microscopic,
Chris@4	305 about one chance in four billion for each file processed. Be
Chris@4	306 aware, though, that the check occurs upon decompression, so it
Chris@4	307 can only tell you that something is wrong. It can't help you
Chris@4	308 recover the original uncompressed data. You can use
Chris@4	309 <computeroutput>bzip2recover</computeroutput> to try to recover
Chris@4	310 data from damaged files.</para>
Chris@4	311
Chris@4	312 <para>Return values: 0 for a normal exit, 1 for environmental
Chris@4	313 problems (file not found, invalid flags, I/O errors, etc.), 2
Chris@4	314 to indicate a corrupt compressed file, 3 for an internal
Chris@4	315 consistency error (eg, bug) which caused
Chris@4	316 <computeroutput>bzip2</computeroutput> to panic.</para>
Chris@4	317
Chris@4	318 </sect1>
Chris@4	319
Chris@4	320
Chris@4	321 <sect1 id="options" xreflabel="OPTIONS">
Chris@4	322 <title>OPTIONS</title>
Chris@4	323
Chris@4	324 <variablelist>
Chris@4	325
Chris@4	326 <varlistentry>
Chris@4	327 <term><computeroutput>-c --stdout</computeroutput></term>
Chris@4	328 <listitem><para>Compress or decompress to standard
Chris@4	329 output.</para></listitem>
Chris@4	330 </varlistentry>
Chris@4	331
Chris@4	332 <varlistentry>
Chris@4	333 <term><computeroutput>-d --decompress</computeroutput></term>
Chris@4	334 <listitem><para>Force decompression.
Chris@4	335 <computeroutput>bzip2</computeroutput>,
Chris@4	336 <computeroutput>bunzip2</computeroutput> and
Chris@4	337 <computeroutput>bzcat</computeroutput> are really the same
Chris@4	338 program, and the decision about what actions to take is done on
Chris@4	339 the basis of which name is used. This flag overrides that
Chris@4	340 mechanism, and forces bzip2 to decompress.</para></listitem>
Chris@4	341 </varlistentry>
Chris@4	342
Chris@4	343 <varlistentry>
Chris@4	344 <term><computeroutput>-z --compress</computeroutput></term>
Chris@4	345 <listitem><para>The complement to
Chris@4	346 <computeroutput>-d</computeroutput>: forces compression,
Chris@4	347 regardless of the invokation name.</para></listitem>
Chris@4	348 </varlistentry>
Chris@4	349
Chris@4	350 <varlistentry>
Chris@4	351 <term><computeroutput>-t --test</computeroutput></term>
Chris@4	352 <listitem><para>Check integrity of the specified file(s), but
Chris@4	353 don't decompress them. This really performs a trial
Chris@4	354 decompression and throws away the result.</para></listitem>
Chris@4	355 </varlistentry>
Chris@4	356
Chris@4	357 <varlistentry>
Chris@4	358 <term><computeroutput>-f --force</computeroutput></term>
Chris@4	359 <listitem><para>Force overwrite of output files. Normally,
Chris@4	360 <computeroutput>bzip2</computeroutput> will not overwrite
Chris@4	361 existing output files. Also forces
Chris@4	362 <computeroutput>bzip2</computeroutput> to break hard links to
Chris@4	363 files, which it otherwise wouldn't do.</para>
Chris@4	364 <para><computeroutput>bzip2</computeroutput> normally declines
Chris@4	365 to decompress files which don't have the correct magic header
Chris@4	366 bytes. If forced (<computeroutput>-f</computeroutput>),
Chris@4	367 however, it will pass such files through unmodified. This is
Chris@4	368 how GNU <computeroutput>gzip</computeroutput> behaves.</para>
Chris@4	369 </listitem>
Chris@4	370 </varlistentry>
Chris@4	371
Chris@4	372 <varlistentry>
Chris@4	373 <term><computeroutput>-k --keep</computeroutput></term>
Chris@4	374 <listitem><para>Keep (don't delete) input files during
Chris@4	375 compression or decompression.</para></listitem>
Chris@4	376 </varlistentry>
Chris@4	377
Chris@4	378 <varlistentry>
Chris@4	379 <term><computeroutput>-s --small</computeroutput></term>
Chris@4	380 <listitem><para>Reduce memory usage, for compression,
Chris@4	381 decompression and testing. Files are decompressed and tested
Chris@4	382 using a modified algorithm which only requires 2.5 bytes per
Chris@4	383 block byte. This means any file can be decompressed in 2300k
Chris@4	384 of memory, albeit at about half the normal speed.</para>
Chris@4	385 <para>During compression, <computeroutput>-s</computeroutput>
Chris@4	386 selects a block size of 200k, which limits memory use to around
Chris@4	387 the same figure, at the expense of your compression ratio. In
Chris@4	388 short, if your machine is low on memory (8 megabytes or less),
Chris@4	389 use <computeroutput>-s</computeroutput> for everything. See
Chris@4	390 <xref linkend="memory-management"/> below.</para></listitem>
Chris@4	391 </varlistentry>
Chris@4	392
Chris@4	393 <varlistentry>
Chris@4	394 <term><computeroutput>-q --quiet</computeroutput></term>
Chris@4	395 <listitem><para>Suppress non-essential warning messages.
Chris@4	396 Messages pertaining to I/O errors and other critical events
Chris@4	397 will not be suppressed.</para></listitem>
Chris@4	398 </varlistentry>
Chris@4	399
Chris@4	400 <varlistentry>
Chris@4	401 <term><computeroutput>-v --verbose</computeroutput></term>
Chris@4	402 <listitem><para>Verbose mode -- show the compression ratio for
Chris@4	403 each file processed. Further
Chris@4	404 <computeroutput>-v</computeroutput>'s increase the verbosity
Chris@4	405 level, spewing out lots of information which is primarily of
Chris@4	406 interest for diagnostic purposes.</para></listitem>
Chris@4	407 </varlistentry>
Chris@4	408
Chris@4	409 <varlistentry>
Chris@4	410 <term><computeroutput>-L --license -V --version</computeroutput></term>
Chris@4	411 <listitem><para>Display the software version, license terms and
Chris@4	412 conditions.</para></listitem>
Chris@4	413 </varlistentry>
Chris@4	414
Chris@4	415 <varlistentry>
Chris@4	416 <term><computeroutput>-1</computeroutput> (or
Chris@4	417 <computeroutput>--fast</computeroutput>) to
Chris@4	418 <computeroutput>-9</computeroutput> (or
Chris@4	419 <computeroutput>-best</computeroutput>)</term>
Chris@4	420 <listitem><para>Set the block size to 100 k, 200 k ... 900 k
Chris@4	421 when compressing. Has no effect when decompressing. See <xref
Chris@4	422 linkend="memory-management" /> below. The
Chris@4	423 <computeroutput>--fast</computeroutput> and
Chris@4	424 <computeroutput>--best</computeroutput> aliases are primarily
Chris@4	425 for GNU <computeroutput>gzip</computeroutput> compatibility.
Chris@4	426 In particular, <computeroutput>--fast</computeroutput> doesn't
Chris@4	427 make things significantly faster. And
Chris@4	428 <computeroutput>--best</computeroutput> merely selects the
Chris@4	429 default behaviour.</para></listitem>
Chris@4	430 </varlistentry>
Chris@4	431
Chris@4	432 <varlistentry>
Chris@4	433 <term><computeroutput>--</computeroutput></term>
Chris@4	434 <listitem><para>Treats all subsequent arguments as file names,
Chris@4	435 even if they start with a dash. This is so you can handle
Chris@4	436 files with names beginning with a dash, for example:
Chris@4	437 <computeroutput>bzip2 --
Chris@4	438 -myfilename</computeroutput>.</para></listitem>
Chris@4	439 </varlistentry>
Chris@4	440
Chris@4	441 <varlistentry>
Chris@4	442 <term><computeroutput>--repetitive-fast</computeroutput></term>
Chris@4	443 <term><computeroutput>--repetitive-best</computeroutput></term>
Chris@4	444 <listitem><para>These flags are redundant in versions 0.9.5 and
Chris@4	445 above. They provided some coarse control over the behaviour of
Chris@4	446 the sorting algorithm in earlier versions, which was sometimes
Chris@4	447 useful. 0.9.5 and above have an improved algorithm which
Chris@4	448 renders these flags irrelevant.</para></listitem>
Chris@4	449 </varlistentry>
Chris@4	450
Chris@4	451 </variablelist>
Chris@4	452
Chris@4	453 </sect1>
Chris@4	454
Chris@4	455
Chris@4	456 <sect1 id="memory-management" xreflabel="MEMORY MANAGEMENT">
Chris@4	457 <title>MEMORY MANAGEMENT</title>
Chris@4	458
Chris@4	459 <para><computeroutput>bzip2</computeroutput> compresses large
Chris@4	460 files in blocks. The block size affects both the compression
Chris@4	461 ratio achieved, and the amount of memory needed for compression
Chris@4	462 and decompression. The flags <computeroutput>-1</computeroutput>
Chris@4	463 through <computeroutput>-9</computeroutput> specify the block
Chris@4	464 size to be 100,000 bytes through 900,000 bytes (the default)
Chris@4	465 respectively. At decompression time, the block size used for
Chris@4	466 compression is read from the header of the compressed file, and
Chris@4	467 <computeroutput>bunzip2</computeroutput> then allocates itself
Chris@4	468 just enough memory to decompress the file. Since block sizes are
Chris@4	469 stored in compressed files, it follows that the flags
Chris@4	470 <computeroutput>-1</computeroutput> to
Chris@4	471 <computeroutput>-9</computeroutput> are irrelevant to and so
Chris@4	472 ignored during decompression.</para>
Chris@4	473
Chris@4	474 <para>Compression and decompression requirements, in bytes, can be
Chris@4	475 estimated as:</para>
Chris@4	476 <programlisting>
Chris@4	477 Compression: 400k + ( 8 x block size )
Chris@4	478
Chris@4	479 Decompression: 100k + ( 4 x block size ), or
Chris@4	480 100k + ( 2.5 x block size )
Chris@4	481 </programlisting>
Chris@4	482
Chris@4	483 <para>Larger block sizes give rapidly diminishing marginal
Chris@4	484 returns. Most of the compression comes from the first two or
Chris@4	485 three hundred k of block size, a fact worth bearing in mind when
Chris@4	486 using <computeroutput>bzip2</computeroutput> on small machines.
Chris@4	487 It is also important to appreciate that the decompression memory
Chris@4	488 requirement is set at compression time by the choice of block
Chris@4	489 size.</para>
Chris@4	490
Chris@4	491 <para>For files compressed with the default 900k block size,
Chris@4	492 <computeroutput>bunzip2</computeroutput> will require about 3700
Chris@4	493 kbytes to decompress. To support decompression of any file on a
Chris@4	494 4 megabyte machine, <computeroutput>bunzip2</computeroutput> has
Chris@4	495 an option to decompress using approximately half this amount of
Chris@4	496 memory, about 2300 kbytes. Decompression speed is also halved,
Chris@4	497 so you should use this option only where necessary. The relevant
Chris@4	498 flag is <computeroutput>-s</computeroutput>.</para>
Chris@4	499
Chris@4	500 <para>In general, try and use the largest block size memory
Chris@4	501 constraints allow, since that maximises the compression achieved.
Chris@4	502 Compression and decompression speed are virtually unaffected by
Chris@4	503 block size.</para>
Chris@4	504
Chris@4	505 <para>Another significant point applies to files which fit in a
Chris@4	506 single block -- that means most files you'd encounter using a
Chris@4	507 large block size. The amount of real memory touched is
Chris@4	508 proportional to the size of the file, since the file is smaller
Chris@4	509 than a block. For example, compressing a file 20,000 bytes long
Chris@4	510 with the flag <computeroutput>-9</computeroutput> will cause the
Chris@4	511 compressor to allocate around 7600k of memory, but only touch
Chris@4	512 400k + 20000 * 8 = 560 kbytes of it. Similarly, the decompressor
Chris@4	513 will allocate 3700k but only touch 100k + 20000 * 4 = 180
Chris@4	514 kbytes.</para>
Chris@4	515
Chris@4	516 <para>Here is a table which summarises the maximum memory usage
Chris@4	517 for different block sizes. Also recorded is the total compressed
Chris@4	518 size for 14 files of the Calgary Text Compression Corpus
Chris@4	519 totalling 3,141,622 bytes. This column gives some feel for how
Chris@4	520 compression varies with block size. These figures tend to
Chris@4	521 understate the advantage of larger block sizes for larger files,
Chris@4	522 since the Corpus is dominated by smaller files.</para>
Chris@4	523
Chris@4	524 <programlisting>
Chris@4	525 Compress Decompress Decompress Corpus
Chris@4	526 Flag usage usage -s usage Size
Chris@4	527
Chris@4	528 -1 1200k 500k 350k 914704
Chris@4	529 -2 2000k 900k 600k 877703
Chris@4	530 -3 2800k 1300k 850k 860338
Chris@4	531 -4 3600k 1700k 1100k 846899
Chris@4	532 -5 4400k 2100k 1350k 845160
Chris@4	533 -6 5200k 2500k 1600k 838626
Chris@4	534 -7 6100k 2900k 1850k 834096
Chris@4	535 -8 6800k 3300k 2100k 828642
Chris@4	536 -9 7600k 3700k 2350k 828642
Chris@4	537 </programlisting>
Chris@4	538
Chris@4	539 </sect1>
Chris@4	540
Chris@4	541
Chris@4	542 <sect1 id="recovering" xreflabel="RECOVERING DATA FROM DAMAGED FILES">
Chris@4	543 <title>RECOVERING DATA FROM DAMAGED FILES</title>
Chris@4	544
Chris@4	545 <para><computeroutput>bzip2</computeroutput> compresses files in
Chris@4	546 blocks, usually 900kbytes long. Each block is handled
Chris@4	547 independently. If a media or transmission error causes a
Chris@4	548 multi-block <computeroutput>.bz2</computeroutput> file to become
Chris@4	549 damaged, it may be possible to recover data from the undamaged
Chris@4	550 blocks in the file.</para>
Chris@4	551
Chris@4	552 <para>The compressed representation of each block is delimited by
Chris@4	553 a 48-bit pattern, which makes it possible to find the block
Chris@4	554 boundaries with reasonable certainty. Each block also carries
Chris@4	555 its own 32-bit CRC, so damaged blocks can be distinguished from
Chris@4	556 undamaged ones.</para>
Chris@4	557
Chris@4	558 <para><computeroutput>bzip2recover</computeroutput> is a simple
Chris@4	559 program whose purpose is to search for blocks in
Chris@4	560 <computeroutput>.bz2</computeroutput> files, and write each block
Chris@4	561 out into its own <computeroutput>.bz2</computeroutput> file. You
Chris@4	562 can then use <computeroutput>bzip2 -t</computeroutput> to test
Chris@4	563 the integrity of the resulting files, and decompress those which
Chris@4	564 are undamaged.</para>
Chris@4	565
Chris@4	566 <para><computeroutput>bzip2recover</computeroutput> takes a
Chris@4	567 single argument, the name of the damaged file, and writes a
Chris@4	568 number of files <computeroutput>rec0001file.bz2</computeroutput>,
Chris@4	569 <computeroutput>rec0002file.bz2</computeroutput>, etc, containing
Chris@4	570 the extracted blocks. The output filenames are designed so that
Chris@4	571 the use of wildcards in subsequent processing -- for example,
Chris@4	572 <computeroutput>bzip2 -dc rec*file.bz2 >
Chris@4	573 recovered_data</computeroutput> -- lists the files in the correct
Chris@4	574 order.</para>
Chris@4	575
Chris@4	576 <para><computeroutput>bzip2recover</computeroutput> should be of
Chris@4	577 most use dealing with large <computeroutput>.bz2</computeroutput>
Chris@4	578 files, as these will contain many blocks. It is clearly futile
Chris@4	579 to use it on damaged single-block files, since a damaged block
Chris@4	580 cannot be recovered. If you wish to minimise any potential data
Chris@4	581 loss through media or transmission errors, you might consider
Chris@4	582 compressing with a smaller block size.</para>
Chris@4	583
Chris@4	584 </sect1>
Chris@4	585
Chris@4	586
Chris@4	587 <sect1 id="performance" xreflabel="PERFORMANCE NOTES">
Chris@4	588 <title>PERFORMANCE NOTES</title>
Chris@4	589
Chris@4	590 <para>The sorting phase of compression gathers together similar
Chris@4	591 strings in the file. Because of this, files containing very long
Chris@4	592 runs of repeated symbols, like "aabaabaabaab ..." (repeated
Chris@4	593 several hundred times) may compress more slowly than normal.
Chris@4	594 Versions 0.9.5 and above fare much better than previous versions
Chris@4	595 in this respect. The ratio between worst-case and average-case
Chris@4	596 compression time is in the region of 10:1. For previous
Chris@4	597 versions, this figure was more like 100:1. You can use the
Chris@4	598 <computeroutput>-vvvv</computeroutput> option to monitor progress
Chris@4	599 in great detail, if you want.</para>
Chris@4	600
Chris@4	601 <para>Decompression speed is unaffected by these
Chris@4	602 phenomena.</para>
Chris@4	603
Chris@4	604 <para><computeroutput>bzip2</computeroutput> usually allocates
Chris@4	605 several megabytes of memory to operate in, and then charges all
Chris@4	606 over it in a fairly random fashion. This means that performance,
Chris@4	607 both for compressing and decompressing, is largely determined by
Chris@4	608 the speed at which your machine can service cache misses.
Chris@4	609 Because of this, small changes to the code to reduce the miss
Chris@4	610 rate have been observed to give disproportionately large
Chris@4	611 performance improvements. I imagine
Chris@4	612 <computeroutput>bzip2</computeroutput> will perform best on
Chris@4	613 machines with very large caches.</para>
Chris@4	614
Chris@4	615 </sect1>
Chris@4	616
Chris@4	617
Chris@4	618
Chris@4	619 <sect1 id="caveats" xreflabel="CAVEATS">
Chris@4	620 <title>CAVEATS</title>
Chris@4	621
Chris@4	622 <para>I/O error messages are not as helpful as they could be.
Chris@4	623 <computeroutput>bzip2</computeroutput> tries hard to detect I/O
Chris@4	624 errors and exit cleanly, but the details of what the problem is
Chris@4	625 sometimes seem rather misleading.</para>
Chris@4	626
Chris@4	627 <para>This manual page pertains to version &bz-version; of
Chris@4	628 <computeroutput>bzip2</computeroutput>. Compressed data created by
Chris@4	629 this version is entirely forwards and backwards compatible with the
Chris@4	630 previous public releases, versions 0.1pl2, 0.9.0 and 0.9.5, 1.0.0,
Chris@4	631 1.0.1, 1.0.2 and 1.0.3, but with the following exception: 0.9.0 and
Chris@4	632 above can correctly decompress multiple concatenated compressed files.
Chris@4	633 0.1pl2 cannot do this; it will stop after decompressing just the first
Chris@4	634 file in the stream.</para>
Chris@4	635
Chris@4	636 <para><computeroutput>bzip2recover</computeroutput> versions
Chris@4	637 prior to 1.0.2 used 32-bit integers to represent bit positions in
Chris@4	638 compressed files, so it could not handle compressed files more
Chris@4	639 than 512 megabytes long. Versions 1.0.2 and above use 64-bit ints
Chris@4	640 on some platforms which support them (GNU supported targets, and
Chris@4	641 Windows). To establish whether or not
Chris@4	642 <computeroutput>bzip2recover</computeroutput> was built with such
Chris@4	643 a limitation, run it without arguments. In any event you can
Chris@4	644 build yourself an unlimited version if you can recompile it with
Chris@4	645 <computeroutput>MaybeUInt64</computeroutput> set to be an
Chris@4	646 unsigned 64-bit integer.</para>
Chris@4	647
Chris@4	648 </sect1>
Chris@4	649
Chris@4	650
Chris@4	651
Chris@4	652 <sect1 id="author" xreflabel="AUTHOR">
Chris@4	653 <title>AUTHOR</title>
Chris@4	654
Chris@4	655 <para>Julian Seward,
Chris@4	656 <computeroutput>&bz-email;</computeroutput></para>
Chris@4	657
Chris@4	658 <para>The ideas embodied in
Chris@4	659 <computeroutput>bzip2</computeroutput> are due to (at least) the
Chris@4	660 following people: Michael Burrows and David Wheeler (for the
Chris@4	661 block sorting transformation), David Wheeler (again, for the
Chris@4	662 Huffman coder), Peter Fenwick (for the structured coding model in
Chris@4	663 the original <computeroutput>bzip</computeroutput>, and many
Chris@4	664 refinements), and Alistair Moffat, Radford Neal and Ian Witten
Chris@4	665 (for the arithmetic coder in the original
Chris@4	666 <computeroutput>bzip</computeroutput>). I am much indebted for
Chris@4	667 their help, support and advice. See the manual in the source
Chris@4	668 distribution for pointers to sources of documentation. Christian
Chris@4	669 von Roques encouraged me to look for faster sorting algorithms,
Chris@4	670 so as to speed up compression. Bela Lubkin encouraged me to
Chris@4	671 improve the worst-case compression performance.
Chris@4	672 Donna Robinson XMLised the documentation.
Chris@4	673 Many people sent
Chris@4	674 patches, helped with portability problems, lent machines, gave
Chris@4	675 advice and were generally helpful.</para>
Chris@4	676
Chris@4	677 </sect1>
Chris@4	678
Chris@4	679 </chapter>
Chris@4	680
Chris@4	681
Chris@4	682
Chris@4	683 <chapter id="libprog" xreflabel="Programming with libbzip2">
Chris@4	684 <title>
Chris@4	685 Programming with <computeroutput>libbzip2</computeroutput>
Chris@4	686 </title>
Chris@4	687
Chris@4	688 <para>This chapter describes the programming interface to
Chris@4	689 <computeroutput>libbzip2</computeroutput>.</para>
Chris@4	690
Chris@4	691 <para>For general background information, particularly about
Chris@4	692 memory use and performance aspects, you'd be well advised to read
Chris@4	693 <xref linkend="using"/> as well.</para>
Chris@4	694
Chris@4	695
Chris@4	696 <sect1 id="top-level" xreflabel="Top-level structure">
Chris@4	697 <title>Top-level structure</title>
Chris@4	698
Chris@4	699 <para><computeroutput>libbzip2</computeroutput> is a flexible
Chris@4	700 library for compressing and decompressing data in the
Chris@4	701 <computeroutput>bzip2</computeroutput> data format. Although
Chris@4	702 packaged as a single entity, it helps to regard the library as
Chris@4	703 three separate parts: the low level interface, and the high level
Chris@4	704 interface, and some utility functions.</para>
Chris@4	705
Chris@4	706 <para>The structure of
Chris@4	707 <computeroutput>libbzip2</computeroutput>'s interfaces is similar
Chris@4	708 to that of Jean-loup Gailly's and Mark Adler's excellent
Chris@4	709 <computeroutput>zlib</computeroutput> library.</para>
Chris@4	710
Chris@4	711 <para>All externally visible symbols have names beginning
Chris@4	712 <computeroutput>BZ2_</computeroutput>. This is new in version
Chris@4	713 1.0. The intention is to minimise pollution of the namespaces of
Chris@4	714 library clients.</para>
Chris@4	715
Chris@4	716 <para>To use any part of the library, you need to
Chris@4	717 <computeroutput>#include <bzlib.h></computeroutput>
Chris@4	718 into your sources.</para>
Chris@4	719
Chris@4	720
Chris@4	721
Chris@4	722 <sect2 id="ll-summary" xreflabel="Low-level summary">
Chris@4	723 <title>Low-level summary</title>
Chris@4	724
Chris@4	725 <para>This interface provides services for compressing and
Chris@4	726 decompressing data in memory. There's no provision for dealing
Chris@4	727 with files, streams or any other I/O mechanisms, just straight
Chris@4	728 memory-to-memory work. In fact, this part of the library can be
Chris@4	729 compiled without inclusion of
Chris@4	730 <computeroutput>stdio.h</computeroutput>, which may be helpful
Chris@4	731 for embedded applications.</para>
Chris@4	732
Chris@4	733 <para>The low-level part of the library has no global variables
Chris@4	734 and is therefore thread-safe.</para>
Chris@4	735
Chris@4	736 <para>Six routines make up the low level interface:
Chris@4	737 <computeroutput>BZ2_bzCompressInit</computeroutput>,
Chris@4	738 <computeroutput>BZ2_bzCompress</computeroutput>, and
Chris@4	739 <computeroutput>BZ2_bzCompressEnd</computeroutput> for
Chris@4	740 compression, and a corresponding trio
Chris@4	741 <computeroutput>BZ2_bzDecompressInit</computeroutput>,
Chris@4	742 <computeroutput>BZ2_bzDecompress</computeroutput> and
Chris@4	743 <computeroutput>BZ2_bzDecompressEnd</computeroutput> for
Chris@4	744 decompression. The <computeroutput>*Init</computeroutput>
Chris@4	745 functions allocate memory for compression/decompression and do
Chris@4	746 other initialisations, whilst the
Chris@4	747 <computeroutput>*End</computeroutput> functions close down
Chris@4	748 operations and release memory.</para>
Chris@4	749
Chris@4	750 <para>The real work is done by
Chris@4	751 <computeroutput>BZ2_bzCompress</computeroutput> and
Chris@4	752 <computeroutput>BZ2_bzDecompress</computeroutput>. These
Chris@4	753 compress and decompress data from a user-supplied input buffer to
Chris@4	754 a user-supplied output buffer. These buffers can be any size;
Chris@4	755 arbitrary quantities of data are handled by making repeated calls
Chris@4	756 to these functions. This is a flexible mechanism allowing a
Chris@4	757 consumer-pull style of activity, or producer-push, or a mixture
Chris@4	758 of both.</para>
Chris@4	759
Chris@4	760 </sect2>
Chris@4	761
Chris@4	762
Chris@4	763 <sect2 id="hl-summary" xreflabel="High-level summary">
Chris@4	764 <title>High-level summary</title>
Chris@4	765
Chris@4	766 <para>This interface provides some handy wrappers around the
Chris@4	767 low-level interface to facilitate reading and writing
Chris@4	768 <computeroutput>bzip2</computeroutput> format files
Chris@4	769 (<computeroutput>.bz2</computeroutput> files). The routines
Chris@4	770 provide hooks to facilitate reading files in which the
Chris@4	771 <computeroutput>bzip2</computeroutput> data stream is embedded
Chris@4	772 within some larger-scale file structure, or where there are
Chris@4	773 multiple <computeroutput>bzip2</computeroutput> data streams
Chris@4	774 concatenated end-to-end.</para>
Chris@4	775
Chris@4	776 <para>For reading files,
Chris@4	777 <computeroutput>BZ2_bzReadOpen</computeroutput>,
Chris@4	778 <computeroutput>BZ2_bzRead</computeroutput>,
Chris@4	779 <computeroutput>BZ2_bzReadClose</computeroutput> and
Chris@4	780 <computeroutput>BZ2_bzReadGetUnused</computeroutput> are
Chris@4	781 supplied. For writing files,
Chris@4	782 <computeroutput>BZ2_bzWriteOpen</computeroutput>,
Chris@4	783 <computeroutput>BZ2_bzWrite</computeroutput> and
Chris@4	784 <computeroutput>BZ2_bzWriteFinish</computeroutput> are
Chris@4	785 available.</para>
Chris@4	786
Chris@4	787 <para>As with the low-level library, no global variables are used
Chris@4	788 so the library is per se thread-safe. However, if I/O errors
Chris@4	789 occur whilst reading or writing the underlying compressed files,
Chris@4	790 you may have to consult <computeroutput>errno</computeroutput> to
Chris@4	791 determine the cause of the error. In that case, you'd need a C
Chris@4	792 library which correctly supports
Chris@4	793 <computeroutput>errno</computeroutput> in a multithreaded
Chris@4	794 environment.</para>
Chris@4	795
Chris@4	796 <para>To make the library a little simpler and more portable,
Chris@4	797 <computeroutput>BZ2_bzReadOpen</computeroutput> and
Chris@4	798 <computeroutput>BZ2_bzWriteOpen</computeroutput> require you to
Chris@4	799 pass them file handles (<computeroutput>FILE*</computeroutput>s)
Chris@4	800 which have previously been opened for reading or writing
Chris@4	801 respectively. That avoids portability problems associated with
Chris@4	802 file operations and file attributes, whilst not being much of an
Chris@4	803 imposition on the programmer.</para>
Chris@4	804
Chris@4	805 </sect2>
Chris@4	806
Chris@4	807
Chris@4	808 <sect2 id="util-fns-summary" xreflabel="Utility functions summary">
Chris@4	809 <title>Utility functions summary</title>
Chris@4	810
Chris@4	811 <para>For very simple needs,
Chris@4	812 <computeroutput>BZ2_bzBuffToBuffCompress</computeroutput> and
Chris@4	813 <computeroutput>BZ2_bzBuffToBuffDecompress</computeroutput> are
Chris@4	814 provided. These compress data in memory from one buffer to
Chris@4	815 another buffer in a single function call. You should assess
Chris@4	816 whether these functions fulfill your memory-to-memory
Chris@4	817 compression/decompression requirements before investing effort in
Chris@4	818 understanding the more general but more complex low-level
Chris@4	819 interface.</para>
Chris@4	820
Chris@4	821 <para>Yoshioka Tsuneo
Chris@4	822 (<computeroutput>tsuneo@rr.iij4u.or.jp</computeroutput>) has
Chris@4	823 contributed some functions to give better
Chris@4	824 <computeroutput>zlib</computeroutput> compatibility. These
Chris@4	825 functions are <computeroutput>BZ2_bzopen</computeroutput>,
Chris@4	826 <computeroutput>BZ2_bzread</computeroutput>,
Chris@4	827 <computeroutput>BZ2_bzwrite</computeroutput>,
Chris@4	828 <computeroutput>BZ2_bzflush</computeroutput>,
Chris@4	829 <computeroutput>BZ2_bzclose</computeroutput>,
Chris@4	830 <computeroutput>BZ2_bzerror</computeroutput> and
Chris@4	831 <computeroutput>BZ2_bzlibVersion</computeroutput>. You may find
Chris@4	832 these functions more convenient for simple file reading and
Chris@4	833 writing, than those in the high-level interface. These functions
Chris@4	834 are not (yet) officially part of the library, and are minimally
Chris@4	835 documented here. If they break, you get to keep all the pieces.
Chris@4	836 I hope to document them properly when time permits.</para>
Chris@4	837
Chris@4	838 <para>Yoshioka also contributed modifications to allow the
Chris@4	839 library to be built as a Windows DLL.</para>
Chris@4	840
Chris@4	841 </sect2>
Chris@4	842
Chris@4	843 </sect1>
Chris@4	844
Chris@4	845
Chris@4	846 <sect1 id="err-handling" xreflabel="Error handling">
Chris@4	847 <title>Error handling</title>
Chris@4	848
Chris@4	849 <para>The library is designed to recover cleanly in all
Chris@4	850 situations, including the worst-case situation of decompressing
Chris@4	851 random data. I'm not 100% sure that it can always do this, so
Chris@4	852 you might want to add a signal handler to catch segmentation
Chris@4	853 violations during decompression if you are feeling especially
Chris@4	854 paranoid. I would be interested in hearing more about the
Chris@4	855 robustness of the library to corrupted compressed data.</para>
Chris@4	856
Chris@4	857 <para>Version 1.0.3 more robust in this respect than any
Chris@4	858 previous version. Investigations with Valgrind (a tool for detecting
Chris@4	859 problems with memory management) indicate
Chris@4	860 that, at least for the few files I tested, all single-bit errors
Chris@4	861 in the decompressed data are caught properly, with no
Chris@4	862 segmentation faults, no uses of uninitialised data, no out of
Chris@4	863 range reads or writes, and no infinite looping in the decompressor.
Chris@4	864 So it's certainly pretty robust, although
Chris@4	865 I wouldn't claim it to be totally bombproof.</para>
Chris@4	866
Chris@4	867 <para>The file <computeroutput>bzlib.h</computeroutput> contains
Chris@4	868 all definitions needed to use the library. In particular, you
Chris@4	869 should definitely not include
Chris@4	870 <computeroutput>bzlib_private.h</computeroutput>.</para>
Chris@4	871
Chris@4	872 <para>In <computeroutput>bzlib.h</computeroutput>, the various
Chris@4	873 return values are defined. The following list is not intended as
Chris@4	874 an exhaustive description of the circumstances in which a given
Chris@4	875 value may be returned -- those descriptions are given later.
Chris@4	876 Rather, it is intended to convey the rough meaning of each return
Chris@4	877 value. The first five actions are normal and not intended to
Chris@4	878 denote an error situation.</para>
Chris@4	879
Chris@4	880 <variablelist>
Chris@4	881
Chris@4	882 <varlistentry>
Chris@4	883 <term><computeroutput>BZ_OK</computeroutput></term>
Chris@4	884 <listitem><para>The requested action was completed
Chris@4	885 successfully.</para></listitem>
Chris@4	886 </varlistentry>
Chris@4	887
Chris@4	888 <varlistentry>
Chris@4	889 <term><computeroutput>BZ_RUN_OK, BZ_FLUSH_OK,
Chris@4	890 BZ_FINISH_OK</computeroutput></term>
Chris@4	891 <listitem><para>In
Chris@4	892 <computeroutput>BZ2_bzCompress</computeroutput>, the requested
Chris@4	893 flush/finish/nothing-special action was completed
Chris@4	894 successfully.</para></listitem>
Chris@4	895 </varlistentry>
Chris@4	896
Chris@4	897 <varlistentry>
Chris@4	898 <term><computeroutput>BZ_STREAM_END</computeroutput></term>
Chris@4	899 <listitem><para>Compression of data was completed, or the
Chris@4	900 logical stream end was detected during
Chris@4	901 decompression.</para></listitem>
Chris@4	902 </varlistentry>
Chris@4	903
Chris@4	904 </variablelist>
Chris@4	905
Chris@4	906 <para>The following return values indicate an error of some
Chris@4	907 kind.</para>
Chris@4	908
Chris@4	909 <variablelist>
Chris@4	910
Chris@4	911 <varlistentry>
Chris@4	912 <term><computeroutput>BZ_CONFIG_ERROR</computeroutput></term>
Chris@4	913 <listitem><para>Indicates that the library has been improperly
Chris@4	914 compiled on your platform -- a major configuration error.
Chris@4	915 Specifically, it means that
Chris@4	916 <computeroutput>sizeof(char)</computeroutput>,
Chris@4	917 <computeroutput>sizeof(short)</computeroutput> and
Chris@4	918 <computeroutput>sizeof(int)</computeroutput> are not 1, 2 and
Chris@4	919 4 respectively, as they should be. Note that the library
Chris@4	920 should still work properly on 64-bit platforms which follow
Chris@4	921 the LP64 programming model -- that is, where
Chris@4	922 <computeroutput>sizeof(long)</computeroutput> and
Chris@4	923 <computeroutput>sizeof(void*)</computeroutput> are 8. Under
Chris@4	924 LP64, <computeroutput>sizeof(int)</computeroutput> is still 4,
Chris@4	925 so <computeroutput>libbzip2</computeroutput>, which doesn't
Chris@4	926 use the <computeroutput>long</computeroutput> type, is
Chris@4	927 OK.</para></listitem>
Chris@4	928 </varlistentry>
Chris@4	929
Chris@4	930 <varlistentry>
Chris@4	931 <term><computeroutput>BZ_SEQUENCE_ERROR</computeroutput></term>
Chris@4	932 <listitem><para>When using the library, it is important to call
Chris@4	933 the functions in the correct sequence and with data structures
Chris@4	934 (buffers etc) in the correct states.
Chris@4	935 <computeroutput>libbzip2</computeroutput> checks as much as it
Chris@4	936 can to ensure this is happening, and returns
Chris@4	937 <computeroutput>BZ_SEQUENCE_ERROR</computeroutput> if not.
Chris@4	938 Code which complies precisely with the function semantics, as
Chris@4	939 detailed below, should never receive this value; such an event
Chris@4	940 denotes buggy code which you should
Chris@4	941 investigate.</para></listitem>
Chris@4	942 </varlistentry>
Chris@4	943
Chris@4	944 <varlistentry>
Chris@4	945 <term><computeroutput>BZ_PARAM_ERROR</computeroutput></term>
Chris@4	946 <listitem><para>Returned when a parameter to a function call is
Chris@4	947 out of range or otherwise manifestly incorrect. As with
Chris@4	948 <computeroutput>BZ_SEQUENCE_ERROR</computeroutput>, this
Chris@4	949 denotes a bug in the client code. The distinction between
Chris@4	950 <computeroutput>BZ_PARAM_ERROR</computeroutput> and
Chris@4	951 <computeroutput>BZ_SEQUENCE_ERROR</computeroutput> is a bit
Chris@4	952 hazy, but still worth making.</para></listitem>
Chris@4	953 </varlistentry>
Chris@4	954
Chris@4	955 <varlistentry>
Chris@4	956 <term><computeroutput>BZ_MEM_ERROR</computeroutput></term>
Chris@4	957 <listitem><para>Returned when a request to allocate memory
Chris@4	958 failed. Note that the quantity of memory needed to decompress
Chris@4	959 a stream cannot be determined until the stream's header has
Chris@4	960 been read. So
Chris@4	961 <computeroutput>BZ2_bzDecompress</computeroutput> and
Chris@4	962 <computeroutput>BZ2_bzRead</computeroutput> may return
Chris@4	963 <computeroutput>BZ_MEM_ERROR</computeroutput> even though some
Chris@4	964 of the compressed data has been read. The same is not true
Chris@4	965 for compression; once
Chris@4	966 <computeroutput>BZ2_bzCompressInit</computeroutput> or
Chris@4	967 <computeroutput>BZ2_bzWriteOpen</computeroutput> have
Chris@4	968 successfully completed,
Chris@4	969 <computeroutput>BZ_MEM_ERROR</computeroutput> cannot
Chris@4	970 occur.</para></listitem>
Chris@4	971 </varlistentry>
Chris@4	972
Chris@4	973 <varlistentry>
Chris@4	974 <term><computeroutput>BZ_DATA_ERROR</computeroutput></term>
Chris@4	975 <listitem><para>Returned when a data integrity error is
Chris@4	976 detected during decompression. Most importantly, this means
Chris@4	977 when stored and computed CRCs for the data do not match. This
Chris@4	978 value is also returned upon detection of any other anomaly in
Chris@4	979 the compressed data.</para></listitem>
Chris@4	980 </varlistentry>
Chris@4	981
Chris@4	982 <varlistentry>
Chris@4	983 <term><computeroutput>BZ_DATA_ERROR_MAGIC</computeroutput></term>
Chris@4	984 <listitem><para>As a special case of
Chris@4	985 <computeroutput>BZ_DATA_ERROR</computeroutput>, it is
Chris@4	986 sometimes useful to know when the compressed stream does not
Chris@4	987 start with the correct magic bytes (<computeroutput>'B' 'Z'
Chris@4	988 'h'</computeroutput>).</para></listitem>
Chris@4	989 </varlistentry>
Chris@4	990
Chris@4	991 <varlistentry>
Chris@4	992 <term><computeroutput>BZ_IO_ERROR</computeroutput></term>
Chris@4	993 <listitem><para>Returned by
Chris@4	994 <computeroutput>BZ2_bzRead</computeroutput> and
Chris@4	995 <computeroutput>BZ2_bzWrite</computeroutput> when there is an
Chris@4	996 error reading or writing in the compressed file, and by
Chris@4	997 <computeroutput>BZ2_bzReadOpen</computeroutput> and
Chris@4	998 <computeroutput>BZ2_bzWriteOpen</computeroutput> for attempts
Chris@4	999 to use a file for which the error indicator (viz,
Chris@4	1000 <computeroutput>ferror(f)</computeroutput>) is set. On
Chris@4	1001 receipt of <computeroutput>BZ_IO_ERROR</computeroutput>, the
Chris@4	1002 caller should consult <computeroutput>errno</computeroutput>
Chris@4	1003 and/or <computeroutput>perror</computeroutput> to acquire
Chris@4	1004 operating-system specific information about the
Chris@4	1005 problem.</para></listitem>
Chris@4	1006 </varlistentry>
Chris@4	1007
Chris@4	1008 <varlistentry>
Chris@4	1009 <term><computeroutput>BZ_UNEXPECTED_EOF</computeroutput></term>
Chris@4	1010 <listitem><para>Returned by
Chris@4	1011 <computeroutput>BZ2_bzRead</computeroutput> when the
Chris@4	1012 compressed file finishes before the logical end of stream is
Chris@4	1013 detected.</para></listitem>
Chris@4	1014 </varlistentry>
Chris@4	1015
Chris@4	1016 <varlistentry>
Chris@4	1017 <term><computeroutput>BZ_OUTBUFF_FULL</computeroutput></term>
Chris@4	1018 <listitem><para>Returned by
Chris@4	1019 <computeroutput>BZ2_bzBuffToBuffCompress</computeroutput> and
Chris@4	1020 <computeroutput>BZ2_bzBuffToBuffDecompress</computeroutput> to
Chris@4	1021 indicate that the output data will not fit into the output
Chris@4	1022 buffer provided.</para></listitem>
Chris@4	1023 </varlistentry>
Chris@4	1024
Chris@4	1025 </variablelist>
Chris@4	1026
Chris@4	1027 </sect1>
Chris@4	1028
Chris@4	1029
Chris@4	1030
Chris@4	1031 <sect1 id="low-level" xreflabel=">Low-level interface">
Chris@4	1032 <title>Low-level interface</title>
Chris@4	1033
Chris@4	1034
Chris@4	1035 <sect2 id="bzcompress-init" xreflabel="BZ2_bzCompressInit">
Chris@4	1036 <title>BZ2_bzCompressInit</title>
Chris@4	1037
Chris@4	1038 <programlisting>
Chris@4	1039 typedef struct {
Chris@4	1040 char *next_in;
Chris@4	1041 unsigned int avail_in;
Chris@4	1042 unsigned int total_in_lo32;
Chris@4	1043 unsigned int total_in_hi32;
Chris@4	1044
Chris@4	1045 char *next_out;
Chris@4	1046 unsigned int avail_out;
Chris@4	1047 unsigned int total_out_lo32;
Chris@4	1048 unsigned int total_out_hi32;
Chris@4	1049
Chris@4	1050 void *state;
Chris@4	1051
Chris@4	1052 void (bzalloc)(void *,int,int);
Chris@4	1053 void (bzfree)(void ,void *);
Chris@4	1054 void *opaque;
Chris@4	1055 } bz_stream;
Chris@4	1056
Chris@4	1057 int BZ2_bzCompressInit ( bz_stream *strm,
Chris@4	1058 int blockSize100k,
Chris@4	1059 int verbosity,
Chris@4	1060 int workFactor );
Chris@4	1061 </programlisting>
Chris@4	1062
Chris@4	1063 <para>Prepares for compression. The
Chris@4	1064 <computeroutput>bz_stream</computeroutput> structure holds all
Chris@4	1065 data pertaining to the compression activity. A
Chris@4	1066 <computeroutput>bz_stream</computeroutput> structure should be
Chris@4	1067 allocated and initialised prior to the call. The fields of
Chris@4	1068 <computeroutput>bz_stream</computeroutput> comprise the entirety
Chris@4	1069 of the user-visible data. <computeroutput>state</computeroutput>
Chris@4	1070 is a pointer to the private data structures required for
Chris@4	1071 compression.</para>
Chris@4	1072
Chris@4	1073 <para>Custom memory allocators are supported, via fields
Chris@4	1074 <computeroutput>bzalloc</computeroutput>,
Chris@4	1075 <computeroutput>bzfree</computeroutput>, and
Chris@4	1076 <computeroutput>opaque</computeroutput>. The value
Chris@4	1077 <computeroutput>opaque</computeroutput> is passed to as the first
Chris@4	1078 argument to all calls to <computeroutput>bzalloc</computeroutput>
Chris@4	1079 and <computeroutput>bzfree</computeroutput>, but is otherwise
Chris@4	1080 ignored by the library. The call <computeroutput>bzalloc (
Chris@4	1081 opaque, n, m )</computeroutput> is expected to return a pointer
Chris@4	1082 <computeroutput>p</computeroutput> to <computeroutput>n *
Chris@4	1083 m</computeroutput> bytes of memory, and <computeroutput>bzfree (
Chris@4	1084 opaque, p )</computeroutput> should free that memory.</para>
Chris@4	1085
Chris@4	1086 <para>If you don't want to use a custom memory allocator, set
Chris@4	1087 <computeroutput>bzalloc</computeroutput>,
Chris@4	1088 <computeroutput>bzfree</computeroutput> and
Chris@4	1089 <computeroutput>opaque</computeroutput> to
Chris@4	1090 <computeroutput>NULL</computeroutput>, and the library will then
Chris@4	1091 use the standard <computeroutput>malloc</computeroutput> /
Chris@4	1092 <computeroutput>free</computeroutput> routines.</para>
Chris@4	1093
Chris@4	1094 <para>Before calling
Chris@4	1095 <computeroutput>BZ2_bzCompressInit</computeroutput>, fields
Chris@4	1096 <computeroutput>bzalloc</computeroutput>,
Chris@4	1097 <computeroutput>bzfree</computeroutput> and
Chris@4	1098 <computeroutput>opaque</computeroutput> should be filled
Chris@4	1099 appropriately, as just described. Upon return, the internal
Chris@4	1100 state will have been allocated and initialised, and
Chris@4	1101 <computeroutput>total_in_lo32</computeroutput>,
Chris@4	1102 <computeroutput>total_in_hi32</computeroutput>,
Chris@4	1103 <computeroutput>total_out_lo32</computeroutput> and
Chris@4	1104 <computeroutput>total_out_hi32</computeroutput> will have been
Chris@4	1105 set to zero. These four fields are used by the library to inform
Chris@4	1106 the caller of the total amount of data passed into and out of the
Chris@4	1107 library, respectively. You should not try to change them. As of
Chris@4	1108 version 1.0, 64-bit counts are maintained, even on 32-bit
Chris@4	1109 platforms, using the <computeroutput>_hi32</computeroutput>
Chris@4	1110 fields to store the upper 32 bits of the count. So, for example,
Chris@4	1111 the total amount of data in is <computeroutput>(total_in_hi32
Chris@4	1112 << 32) + total_in_lo32</computeroutput>.</para>
Chris@4	1113
Chris@4	1114 <para>Parameter <computeroutput>blockSize100k</computeroutput>
Chris@4	1115 specifies the block size to be used for compression. It should
Chris@4	1116 be a value between 1 and 9 inclusive, and the actual block size
Chris@4	1117 used is 100000 x this figure. 9 gives the best compression but
Chris@4	1118 takes most memory.</para>
Chris@4	1119
Chris@4	1120 <para>Parameter <computeroutput>verbosity</computeroutput> should
Chris@4	1121 be set to a number between 0 and 4 inclusive. 0 is silent, and
Chris@4	1122 greater numbers give increasingly verbose monitoring/debugging
Chris@4	1123 output. If the library has been compiled with
Chris@4	1124 <computeroutput>-DBZ_NO_STDIO</computeroutput>, no such output
Chris@4	1125 will appear for any verbosity setting.</para>
Chris@4	1126
Chris@4	1127 <para>Parameter <computeroutput>workFactor</computeroutput>
Chris@4	1128 controls how the compression phase behaves when presented with
Chris@4	1129 worst case, highly repetitive, input data. If compression runs
Chris@4	1130 into difficulties caused by repetitive data, the library switches
Chris@4	1131 from the standard sorting algorithm to a fallback algorithm. The
Chris@4	1132 fallback is slower than the standard algorithm by perhaps a
Chris@4	1133 factor of three, but always behaves reasonably, no matter how bad
Chris@4	1134 the input.</para>
Chris@4	1135
Chris@4	1136 <para>Lower values of <computeroutput>workFactor</computeroutput>
Chris@4	1137 reduce the amount of effort the standard algorithm will expend
Chris@4	1138 before resorting to the fallback. You should set this parameter
Chris@4	1139 carefully; too low, and many inputs will be handled by the
Chris@4	1140 fallback algorithm and so compress rather slowly, too high, and
Chris@4	1141 your average-to-worst case compression times can become very
Chris@4	1142 large. The default value of 30 gives reasonable behaviour over a
Chris@4	1143 wide range of circumstances.</para>
Chris@4	1144
Chris@4	1145 <para>Allowable values range from 0 to 250 inclusive. 0 is a
Chris@4	1146 special case, equivalent to using the default value of 30.</para>
Chris@4	1147
Chris@4	1148 <para>Note that the compressed output generated is the same
Chris@4	1149 regardless of whether or not the fallback algorithm is
Chris@4	1150 used.</para>
Chris@4	1151
Chris@4	1152 <para>Be aware also that this parameter may disappear entirely in
Chris@4	1153 future versions of the library. In principle it should be
Chris@4	1154 possible to devise a good way to automatically choose which
Chris@4	1155 algorithm to use. Such a mechanism would render the parameter
Chris@4	1156 obsolete.</para>
Chris@4	1157
Chris@4	1158 <para>Possible return values:</para>
Chris@4	1159
Chris@4	1160 <programlisting>
Chris@4	1161 BZ_CONFIG_ERROR
Chris@4	1162 if the library has been mis-compiled
Chris@4	1163 BZ_PARAM_ERROR
Chris@4	1164 if strm is NULL
Chris@4	1165 or blockSize < 1 or blockSize > 9
Chris@4	1166 or verbosity < 0 or verbosity > 4
Chris@4	1167 or workFactor < 0 or workFactor > 250
Chris@4	1168 BZ_MEM_ERROR
Chris@4	1169 if not enough memory is available
Chris@4	1170 BZ_OK
Chris@4	1171 otherwise
Chris@4	1172 </programlisting>
Chris@4	1173
Chris@4	1174 <para>Allowable next actions:</para>
Chris@4	1175
Chris@4	1176 <programlisting>
Chris@4	1177 BZ2_bzCompress
Chris@4	1178 if BZ_OK is returned
Chris@4	1179 no specific action needed in case of error
Chris@4	1180 </programlisting>
Chris@4	1181
Chris@4	1182 </sect2>
Chris@4	1183
Chris@4	1184
Chris@4	1185 <sect2 id="bzCompress" xreflabel="BZ2_bzCompress">
Chris@4	1186 <title>BZ2_bzCompress</title>
Chris@4	1187
Chris@4	1188 <programlisting>
Chris@4	1189 int BZ2_bzCompress ( bz_stream *strm, int action );
Chris@4	1190 </programlisting>
Chris@4	1191
Chris@4	1192 <para>Provides more input and/or output buffer space for the
Chris@4	1193 library. The caller maintains input and output buffers, and
Chris@4	1194 calls <computeroutput>BZ2_bzCompress</computeroutput> to transfer
Chris@4	1195 data between them.</para>
Chris@4	1196
Chris@4	1197 <para>Before each call to
Chris@4	1198 <computeroutput>BZ2_bzCompress</computeroutput>,
Chris@4	1199 <computeroutput>next_in</computeroutput> should point at the data
Chris@4	1200 to be compressed, and <computeroutput>avail_in</computeroutput>
Chris@4	1201 should indicate how many bytes the library may read.
Chris@4	1202 <computeroutput>BZ2_bzCompress</computeroutput> updates
Chris@4	1203 <computeroutput>next_in</computeroutput>,
Chris@4	1204 <computeroutput>avail_in</computeroutput> and
Chris@4	1205 <computeroutput>total_in</computeroutput> to reflect the number
Chris@4	1206 of bytes it has read.</para>
Chris@4	1207
Chris@4	1208 <para>Similarly, <computeroutput>next_out</computeroutput> should
Chris@4	1209 point to a buffer in which the compressed data is to be placed,
Chris@4	1210 with <computeroutput>avail_out</computeroutput> indicating how
Chris@4	1211 much output space is available.
Chris@4	1212 <computeroutput>BZ2_bzCompress</computeroutput> updates
Chris@4	1213 <computeroutput>next_out</computeroutput>,
Chris@4	1214 <computeroutput>avail_out</computeroutput> and
Chris@4	1215 <computeroutput>total_out</computeroutput> to reflect the number
Chris@4	1216 of bytes output.</para>
Chris@4	1217
Chris@4	1218 <para>You may provide and remove as little or as much data as you
Chris@4	1219 like on each call of
Chris@4	1220 <computeroutput>BZ2_bzCompress</computeroutput>. In the limit,
Chris@4	1221 it is acceptable to supply and remove data one byte at a time,
Chris@4	1222 although this would be terribly inefficient. You should always
Chris@4	1223 ensure that at least one byte of output space is available at
Chris@4	1224 each call.</para>
Chris@4	1225
Chris@4	1226 <para>A second purpose of
Chris@4	1227 <computeroutput>BZ2_bzCompress</computeroutput> is to request a
Chris@4	1228 change of mode of the compressed stream.</para>
Chris@4	1229
Chris@4	1230 <para>Conceptually, a compressed stream can be in one of four
Chris@4	1231 states: IDLE, RUNNING, FLUSHING and FINISHING. Before
Chris@4	1232 initialisation
Chris@4	1233 (<computeroutput>BZ2_bzCompressInit</computeroutput>) and after
Chris@4	1234 termination (<computeroutput>BZ2_bzCompressEnd</computeroutput>),
Chris@4	1235 a stream is regarded as IDLE.</para>
Chris@4	1236
Chris@4	1237 <para>Upon initialisation
Chris@4	1238 (<computeroutput>BZ2_bzCompressInit</computeroutput>), the stream
Chris@4	1239 is placed in the RUNNING state. Subsequent calls to
Chris@4	1240 <computeroutput>BZ2_bzCompress</computeroutput> should pass
Chris@4	1241 <computeroutput>BZ_RUN</computeroutput> as the requested action;
Chris@4	1242 other actions are illegal and will result in
Chris@4	1243 <computeroutput>BZ_SEQUENCE_ERROR</computeroutput>.</para>
Chris@4	1244
Chris@4	1245 <para>At some point, the calling program will have provided all
Chris@4	1246 the input data it wants to. It will then want to finish up -- in
Chris@4	1247 effect, asking the library to process any data it might have
Chris@4	1248 buffered internally. In this state,
Chris@4	1249 <computeroutput>BZ2_bzCompress</computeroutput> will no longer
Chris@4	1250 attempt to read data from
Chris@4	1251 <computeroutput>next_in</computeroutput>, but it will want to
Chris@4	1252 write data to <computeroutput>next_out</computeroutput>. Because
Chris@4	1253 the output buffer supplied by the user can be arbitrarily small,
Chris@4	1254 the finishing-up operation cannot necessarily be done with a
Chris@4	1255 single call of
Chris@4	1256 <computeroutput>BZ2_bzCompress</computeroutput>.</para>
Chris@4	1257
Chris@4	1258 <para>Instead, the calling program passes
Chris@4	1259 <computeroutput>BZ_FINISH</computeroutput> as an action to
Chris@4	1260 <computeroutput>BZ2_bzCompress</computeroutput>. This changes
Chris@4	1261 the stream's state to FINISHING. Any remaining input (ie,
Chris@4	1262 <computeroutput>next_in[0 .. avail_in-1]</computeroutput>) is
Chris@4	1263 compressed and transferred to the output buffer. To do this,
Chris@4	1264 <computeroutput>BZ2_bzCompress</computeroutput> must be called
Chris@4	1265 repeatedly until all the output has been consumed. At that
Chris@4	1266 point, <computeroutput>BZ2_bzCompress</computeroutput> returns
Chris@4	1267 <computeroutput>BZ_STREAM_END</computeroutput>, and the stream's
Chris@4	1268 state is set back to IDLE.
Chris@4	1269 <computeroutput>BZ2_bzCompressEnd</computeroutput> should then be
Chris@4	1270 called.</para>
Chris@4	1271
Chris@4	1272 <para>Just to make sure the calling program does not cheat, the
Chris@4	1273 library makes a note of <computeroutput>avail_in</computeroutput>
Chris@4	1274 at the time of the first call to
Chris@4	1275 <computeroutput>BZ2_bzCompress</computeroutput> which has
Chris@4	1276 <computeroutput>BZ_FINISH</computeroutput> as an action (ie, at
Chris@4	1277 the time the program has announced its intention to not supply
Chris@4	1278 any more input). By comparing this value with that of
Chris@4	1279 <computeroutput>avail_in</computeroutput> over subsequent calls
Chris@4	1280 to <computeroutput>BZ2_bzCompress</computeroutput>, the library
Chris@4	1281 can detect any attempts to slip in more data to compress. Any
Chris@4	1282 calls for which this is detected will return
Chris@4	1283 <computeroutput>BZ_SEQUENCE_ERROR</computeroutput>. This
Chris@4	1284 indicates a programming mistake which should be corrected.</para>
Chris@4	1285
Chris@4	1286 <para>Instead of asking to finish, the calling program may ask
Chris@4	1287 <computeroutput>BZ2_bzCompress</computeroutput> to take all the
Chris@4	1288 remaining input, compress it and terminate the current
Chris@4	1289 (Burrows-Wheeler) compression block. This could be useful for
Chris@4	1290 error control purposes. The mechanism is analogous to that for
Chris@4	1291 finishing: call <computeroutput>BZ2_bzCompress</computeroutput>
Chris@4	1292 with an action of <computeroutput>BZ_FLUSH</computeroutput>,
Chris@4	1293 remove output data, and persist with the
Chris@4	1294 <computeroutput>BZ_FLUSH</computeroutput> action until the value
Chris@4	1295 <computeroutput>BZ_RUN</computeroutput> is returned. As with
Chris@4	1296 finishing, <computeroutput>BZ2_bzCompress</computeroutput>
Chris@4	1297 detects any attempt to provide more input data once the flush has
Chris@4	1298 begun.</para>
Chris@4	1299
Chris@4	1300 <para>Once the flush is complete, the stream returns to the
Chris@4	1301 normal RUNNING state.</para>
Chris@4	1302
Chris@4	1303 <para>This all sounds pretty complex, but isn't really. Here's a
Chris@4	1304 table which shows which actions are allowable in each state, what
Chris@4	1305 action will be taken, what the next state is, and what the
Chris@4	1306 non-error return values are. Note that you can't explicitly ask
Chris@4	1307 what state the stream is in, but nor do you need to -- it can be
Chris@4	1308 inferred from the values returned by
Chris@4	1309 <computeroutput>BZ2_bzCompress</computeroutput>.</para>
Chris@4	1310
Chris@4	1311 <programlisting>
Chris@4	1312 IDLE/any
Chris@4	1313 Illegal. IDLE state only exists after BZ2_bzCompressEnd or
Chris@4	1314 before BZ2_bzCompressInit.
Chris@4	1315 Return value = BZ_SEQUENCE_ERROR
Chris@4	1316
Chris@4	1317 RUNNING/BZ_RUN
Chris@4	1318 Compress from next_in to next_out as much as possible.
Chris@4	1319 Next state = RUNNING
Chris@4	1320 Return value = BZ_RUN_OK
Chris@4	1321
Chris@4	1322 RUNNING/BZ_FLUSH
Chris@4	1323 Remember current value of next_in. Compress from next_in
Chris@4	1324 to next_out as much as possible, but do not accept any more input.
Chris@4	1325 Next state = FLUSHING
Chris@4	1326 Return value = BZ_FLUSH_OK
Chris@4	1327
Chris@4	1328 RUNNING/BZ_FINISH
Chris@4	1329 Remember current value of next_in. Compress from next_in
Chris@4	1330 to next_out as much as possible, but do not accept any more input.
Chris@4	1331 Next state = FINISHING
Chris@4	1332 Return value = BZ_FINISH_OK
Chris@4	1333
Chris@4	1334 FLUSHING/BZ_FLUSH
Chris@4	1335 Compress from next_in to next_out as much as possible,
Chris@4	1336 but do not accept any more input.
Chris@4	1337 If all the existing input has been used up and all compressed
Chris@4	1338 output has been removed
Chris@4	1339 Next state = RUNNING; Return value = BZ_RUN_OK
Chris@4	1340 else
Chris@4	1341 Next state = FLUSHING; Return value = BZ_FLUSH_OK
Chris@4	1342
Chris@4	1343 FLUSHING/other
Chris@4	1344 Illegal.
Chris@4	1345 Return value = BZ_SEQUENCE_ERROR
Chris@4	1346
Chris@4	1347 FINISHING/BZ_FINISH
Chris@4	1348 Compress from next_in to next_out as much as possible,
Chris@4	1349 but to not accept any more input.
Chris@4	1350 If all the existing input has been used up and all compressed
Chris@4	1351 output has been removed
Chris@4	1352 Next state = IDLE; Return value = BZ_STREAM_END
Chris@4	1353 else
Chris@4	1354 Next state = FINISHING; Return value = BZ_FINISH_OK
Chris@4	1355
Chris@4	1356 FINISHING/other
Chris@4	1357 Illegal.
Chris@4	1358 Return value = BZ_SEQUENCE_ERROR
Chris@4	1359 </programlisting>
Chris@4	1360
Chris@4	1361
Chris@4	1362 <para>That still looks complicated? Well, fair enough. The
Chris@4	1363 usual sequence of calls for compressing a load of data is:</para>
Chris@4	1364
Chris@4	1365 <orderedlist>
Chris@4	1366
Chris@4	1367 <listitem><para>Get started with
Chris@4	1368 <computeroutput>BZ2_bzCompressInit</computeroutput>.</para></listitem>
Chris@4	1369
Chris@4	1370 <listitem><para>Shovel data in and shlurp out its compressed form
Chris@4	1371 using zero or more calls of
Chris@4	1372 <computeroutput>BZ2_bzCompress</computeroutput> with action =
Chris@4	1373 <computeroutput>BZ_RUN</computeroutput>.</para></listitem>
Chris@4	1374
Chris@4	1375 <listitem><para>Finish up. Repeatedly call
Chris@4	1376 <computeroutput>BZ2_bzCompress</computeroutput> with action =
Chris@4	1377 <computeroutput>BZ_FINISH</computeroutput>, copying out the
Chris@4	1378 compressed output, until
Chris@4	1379 <computeroutput>BZ_STREAM_END</computeroutput> is
Chris@4	1380 returned.</para></listitem> <listitem><para>Close up and go home. Call
Chris@4	1381 <computeroutput>BZ2_bzCompressEnd</computeroutput>.</para></listitem>
Chris@4	1382
Chris@4	1383 </orderedlist>
Chris@4	1384
Chris@4	1385 <para>If the data you want to compress fits into your input
Chris@4	1386 buffer all at once, you can skip the calls of
Chris@4	1387 <computeroutput>BZ2_bzCompress ( ..., BZ_RUN )</computeroutput>
Chris@4	1388 and just do the <computeroutput>BZ2_bzCompress ( ..., BZ_FINISH
Chris@4	1389 )</computeroutput> calls.</para>
Chris@4	1390
Chris@4	1391 <para>All required memory is allocated by
Chris@4	1392 <computeroutput>BZ2_bzCompressInit</computeroutput>. The
Chris@4	1393 compression library can accept any data at all (obviously). So
Chris@4	1394 you shouldn't get any error return values from the
Chris@4	1395 <computeroutput>BZ2_bzCompress</computeroutput> calls. If you
Chris@4	1396 do, they will be
Chris@4	1397 <computeroutput>BZ_SEQUENCE_ERROR</computeroutput>, and indicate
Chris@4	1398 a bug in your programming.</para>
Chris@4	1399
Chris@4	1400 <para>Trivial other possible return values:</para>
Chris@4	1401
Chris@4	1402 <programlisting>
Chris@4	1403 BZ_PARAM_ERROR
Chris@4	1404 if strm is NULL, or strm->s is NULL
Chris@4	1405 </programlisting>
Chris@4	1406
Chris@4	1407 </sect2>
Chris@4	1408
Chris@4	1409
Chris@4	1410 <sect2 id="bzCompress-end" xreflabel="BZ2_bzCompressEnd">
Chris@4	1411 <title>BZ2_bzCompressEnd</title>
Chris@4	1412
Chris@4	1413 <programlisting>
Chris@4	1414 int BZ2_bzCompressEnd ( bz_stream *strm );
Chris@4	1415 </programlisting>
Chris@4	1416
Chris@4	1417 <para>Releases all memory associated with a compression
Chris@4	1418 stream.</para>
Chris@4	1419
Chris@4	1420 <para>Possible return values:</para>
Chris@4	1421
Chris@4	1422 <programlisting>
Chris@4	1423 BZ_PARAM_ERROR if strm is NULL or strm->s is NULL
Chris@4	1424 BZ_OK otherwise
Chris@4	1425 </programlisting>
Chris@4	1426
Chris@4	1427 </sect2>
Chris@4	1428
Chris@4	1429
Chris@4	1430 <sect2 id="bzDecompress-init" xreflabel="BZ2_bzDecompressInit">
Chris@4	1431 <title>BZ2_bzDecompressInit</title>
Chris@4	1432
Chris@4	1433 <programlisting>
Chris@4	1434 int BZ2_bzDecompressInit ( bz_stream *strm, int verbosity, int small );
Chris@4	1435 </programlisting>
Chris@4	1436
Chris@4	1437 <para>Prepares for decompression. As with
Chris@4	1438 <computeroutput>BZ2_bzCompressInit</computeroutput>, a
Chris@4	1439 <computeroutput>bz_stream</computeroutput> record should be
Chris@4	1440 allocated and initialised before the call. Fields
Chris@4	1441 <computeroutput>bzalloc</computeroutput>,
Chris@4	1442 <computeroutput>bzfree</computeroutput> and
Chris@4	1443 <computeroutput>opaque</computeroutput> should be set if a custom
Chris@4	1444 memory allocator is required, or made
Chris@4	1445 <computeroutput>NULL</computeroutput> for the normal
Chris@4	1446 <computeroutput>malloc</computeroutput> /
Chris@4	1447 <computeroutput>free</computeroutput> routines. Upon return, the
Chris@4	1448 internal state will have been initialised, and
Chris@4	1449 <computeroutput>total_in</computeroutput> and
Chris@4	1450 <computeroutput>total_out</computeroutput> will be zero.</para>
Chris@4	1451
Chris@4	1452 <para>For the meaning of parameter
Chris@4	1453 <computeroutput>verbosity</computeroutput>, see
Chris@4	1454 <computeroutput>BZ2_bzCompressInit</computeroutput>.</para>
Chris@4	1455
Chris@4	1456 <para>If <computeroutput>small</computeroutput> is nonzero, the
Chris@4	1457 library will use an alternative decompression algorithm which
Chris@4	1458 uses less memory but at the cost of decompressing more slowly
Chris@4	1459 (roughly speaking, half the speed, but the maximum memory
Chris@4	1460 requirement drops to around 2300k). See <xref linkend="using"/>
Chris@4	1461 for more information on memory management.</para>
Chris@4	1462
Chris@4	1463 <para>Note that the amount of memory needed to decompress a
Chris@4	1464 stream cannot be determined until the stream's header has been
Chris@4	1465 read, so even if
Chris@4	1466 <computeroutput>BZ2_bzDecompressInit</computeroutput> succeeds, a
Chris@4	1467 subsequent <computeroutput>BZ2_bzDecompress</computeroutput>
Chris@4	1468 could fail with
Chris@4	1469 <computeroutput>BZ_MEM_ERROR</computeroutput>.</para>
Chris@4	1470
Chris@4	1471 <para>Possible return values:</para>
Chris@4	1472
Chris@4	1473 <programlisting>
Chris@4	1474 BZ_CONFIG_ERROR
Chris@4	1475 if the library has been mis-compiled
Chris@4	1476 BZ_PARAM_ERROR
Chris@4	1477 if ( small != 0 && small != 1 )
Chris@4	1478 or (verbosity <; 0 \|\| verbosity > 4)
Chris@4	1479 BZ_MEM_ERROR
Chris@4	1480 if insufficient memory is available
Chris@4	1481 </programlisting>
Chris@4	1482
Chris@4	1483 <para>Allowable next actions:</para>
Chris@4	1484
Chris@4	1485 <programlisting>
Chris@4	1486 BZ2_bzDecompress
Chris@4	1487 if BZ_OK was returned
Chris@4	1488 no specific action required in case of error
Chris@4	1489 </programlisting>
Chris@4	1490
Chris@4	1491 </sect2>
Chris@4	1492
Chris@4	1493
Chris@4	1494 <sect2 id="bzDecompress" xreflabel="BZ2_bzDecompress">
Chris@4	1495 <title>BZ2_bzDecompress</title>
Chris@4	1496
Chris@4	1497 <programlisting>
Chris@4	1498 int BZ2_bzDecompress ( bz_stream *strm );
Chris@4	1499 </programlisting>
Chris@4	1500
Chris@4	1501 <para>Provides more input and/out output buffer space for the
Chris@4	1502 library. The caller maintains input and output buffers, and uses
Chris@4	1503 <computeroutput>BZ2_bzDecompress</computeroutput> to transfer
Chris@4	1504 data between them.</para>
Chris@4	1505
Chris@4	1506 <para>Before each call to
Chris@4	1507 <computeroutput>BZ2_bzDecompress</computeroutput>,
Chris@4	1508 <computeroutput>next_in</computeroutput> should point at the
Chris@4	1509 compressed data, and <computeroutput>avail_in</computeroutput>
Chris@4	1510 should indicate how many bytes the library may read.
Chris@4	1511 <computeroutput>BZ2_bzDecompress</computeroutput> updates
Chris@4	1512 <computeroutput>next_in</computeroutput>,
Chris@4	1513 <computeroutput>avail_in</computeroutput> and
Chris@4	1514 <computeroutput>total_in</computeroutput> to reflect the number
Chris@4	1515 of bytes it has read.</para>
Chris@4	1516
Chris@4	1517 <para>Similarly, <computeroutput>next_out</computeroutput> should
Chris@4	1518 point to a buffer in which the uncompressed output is to be
Chris@4	1519 placed, with <computeroutput>avail_out</computeroutput>
Chris@4	1520 indicating how much output space is available.
Chris@4	1521 <computeroutput>BZ2_bzCompress</computeroutput> updates
Chris@4	1522 <computeroutput>next_out</computeroutput>,
Chris@4	1523 <computeroutput>avail_out</computeroutput> and
Chris@4	1524 <computeroutput>total_out</computeroutput> to reflect the number
Chris@4	1525 of bytes output.</para>
Chris@4	1526
Chris@4	1527 <para>You may provide and remove as little or as much data as you
Chris@4	1528 like on each call of
Chris@4	1529 <computeroutput>BZ2_bzDecompress</computeroutput>. In the limit,
Chris@4	1530 it is acceptable to supply and remove data one byte at a time,
Chris@4	1531 although this would be terribly inefficient. You should always
Chris@4	1532 ensure that at least one byte of output space is available at
Chris@4	1533 each call.</para>
Chris@4	1534
Chris@4	1535 <para>Use of <computeroutput>BZ2_bzDecompress</computeroutput> is
Chris@4	1536 simpler than
Chris@4	1537 <computeroutput>BZ2_bzCompress</computeroutput>.</para>
Chris@4	1538
Chris@4	1539 <para>You should provide input and remove output as described
Chris@4	1540 above, and repeatedly call
Chris@4	1541 <computeroutput>BZ2_bzDecompress</computeroutput> until
Chris@4	1542 <computeroutput>BZ_STREAM_END</computeroutput> is returned.
Chris@4	1543 Appearance of <computeroutput>BZ_STREAM_END</computeroutput>
Chris@4	1544 denotes that <computeroutput>BZ2_bzDecompress</computeroutput>
Chris@4	1545 has detected the logical end of the compressed stream.
Chris@4	1546 <computeroutput>BZ2_bzDecompress</computeroutput> will not
Chris@4	1547 produce <computeroutput>BZ_STREAM_END</computeroutput> until all
Chris@4	1548 output data has been placed into the output buffer, so once
Chris@4	1549 <computeroutput>BZ_STREAM_END</computeroutput> appears, you are
Chris@4	1550 guaranteed to have available all the decompressed output, and
Chris@4	1551 <computeroutput>BZ2_bzDecompressEnd</computeroutput> can safely
Chris@4	1552 be called.</para>
Chris@4	1553
Chris@4	1554 <para>If case of an error return value, you should call
Chris@4	1555 <computeroutput>BZ2_bzDecompressEnd</computeroutput> to clean up
Chris@4	1556 and release memory.</para>
Chris@4	1557
Chris@4	1558 <para>Possible return values:</para>
Chris@4	1559
Chris@4	1560 <programlisting>
Chris@4	1561 BZ_PARAM_ERROR
Chris@4	1562 if strm is NULL or strm->s is NULL
Chris@4	1563 or strm->avail_out < 1
Chris@4	1564 BZ_DATA_ERROR
Chris@4	1565 if a data integrity error is detected in the compressed stream
Chris@4	1566 BZ_DATA_ERROR_MAGIC
Chris@4	1567 if the compressed stream doesn't begin with the right magic bytes
Chris@4	1568 BZ_MEM_ERROR
Chris@4	1569 if there wasn't enough memory available
Chris@4	1570 BZ_STREAM_END
Chris@4	1571 if the logical end of the data stream was detected and all
Chris@4	1572 output in has been consumed, eg s-->avail_out > 0
Chris@4	1573 BZ_OK
Chris@4	1574 otherwise
Chris@4	1575 </programlisting>
Chris@4	1576
Chris@4	1577 <para>Allowable next actions:</para>
Chris@4	1578
Chris@4	1579 <programlisting>
Chris@4	1580 BZ2_bzDecompress
Chris@4	1581 if BZ_OK was returned
Chris@4	1582 BZ2_bzDecompressEnd
Chris@4	1583 otherwise
Chris@4	1584 </programlisting>
Chris@4	1585
Chris@4	1586 </sect2>
Chris@4	1587
Chris@4	1588
Chris@4	1589 <sect2 id="bzDecompress-end" xreflabel="BZ2_bzDecompressEnd">
Chris@4	1590 <title>BZ2_bzDecompressEnd</title>
Chris@4	1591
Chris@4	1592 <programlisting>
Chris@4	1593 int BZ2_bzDecompressEnd ( bz_stream *strm );
Chris@4	1594 </programlisting>
Chris@4	1595
Chris@4	1596 <para>Releases all memory associated with a decompression
Chris@4	1597 stream.</para>
Chris@4	1598
Chris@4	1599 <para>Possible return values:</para>
Chris@4	1600
Chris@4	1601 <programlisting>
Chris@4	1602 BZ_PARAM_ERROR
Chris@4	1603 if strm is NULL or strm->s is NULL
Chris@4	1604 BZ_OK
Chris@4	1605 otherwise
Chris@4	1606 </programlisting>
Chris@4	1607
Chris@4	1608 <para>Allowable next actions:</para>
Chris@4	1609
Chris@4	1610 <programlisting>
Chris@4	1611 None.
Chris@4	1612 </programlisting>
Chris@4	1613
Chris@4	1614 </sect2>
Chris@4	1615
Chris@4	1616 </sect1>
Chris@4	1617
Chris@4	1618
Chris@4	1619 <sect1 id="hl-interface" xreflabel="High-level interface">
Chris@4	1620 <title>High-level interface</title>
Chris@4	1621
Chris@4	1622 <para>This interface provides functions for reading and writing
Chris@4	1623 <computeroutput>bzip2</computeroutput> format files. First, some
Chris@4	1624 general points.</para>
Chris@4	1625
Chris@4	1626 <itemizedlist mark='bullet'>
Chris@4	1627
Chris@4	1628 <listitem><para>All of the functions take an
Chris@4	1629 <computeroutput>int*</computeroutput> first argument,
Chris@4	1630 <computeroutput>bzerror</computeroutput>. After each call,
Chris@4	1631 <computeroutput>bzerror</computeroutput> should be consulted
Chris@4	1632 first to determine the outcome of the call. If
Chris@4	1633 <computeroutput>bzerror</computeroutput> is
Chris@4	1634 <computeroutput>BZ_OK</computeroutput>, the call completed
Chris@4	1635 successfully, and only then should the return value of the
Chris@4	1636 function (if any) be consulted. If
Chris@4	1637 <computeroutput>bzerror</computeroutput> is
Chris@4	1638 <computeroutput>BZ_IO_ERROR</computeroutput>, there was an
Chris@4	1639 error reading/writing the underlying compressed file, and you
Chris@4	1640 should then consult <computeroutput>errno</computeroutput> /
Chris@4	1641 <computeroutput>perror</computeroutput> to determine the cause
Chris@4	1642 of the difficulty. <computeroutput>bzerror</computeroutput>
Chris@4	1643 may also be set to various other values; precise details are
Chris@4	1644 given on a per-function basis below.</para></listitem>
Chris@4	1645
Chris@4	1646 <listitem><para>If <computeroutput>bzerror</computeroutput> indicates
Chris@4	1647 an error (ie, anything except
Chris@4	1648 <computeroutput>BZ_OK</computeroutput> and
Chris@4	1649 <computeroutput>BZ_STREAM_END</computeroutput>), you should
Chris@4	1650 immediately call
Chris@4	1651 <computeroutput>BZ2_bzReadClose</computeroutput> (or
Chris@4	1652 <computeroutput>BZ2_bzWriteClose</computeroutput>, depending on
Chris@4	1653 whether you are attempting to read or to write) to free up all
Chris@4	1654 resources associated with the stream. Once an error has been
Chris@4	1655 indicated, behaviour of all calls except
Chris@4	1656 <computeroutput>BZ2_bzReadClose</computeroutput>
Chris@4	1657 (<computeroutput>BZ2_bzWriteClose</computeroutput>) is
Chris@4	1658 undefined. The implication is that (1)
Chris@4	1659 <computeroutput>bzerror</computeroutput> should be checked
Chris@4	1660 after each call, and (2) if
Chris@4	1661 <computeroutput>bzerror</computeroutput> indicates an error,
Chris@4	1662 <computeroutput>BZ2_bzReadClose</computeroutput>
Chris@4	1663 (<computeroutput>BZ2_bzWriteClose</computeroutput>) should then
Chris@4	1664 be called to clean up.</para></listitem>
Chris@4	1665
Chris@4	1666 <listitem><para>The <computeroutput>FILE*</computeroutput> arguments
Chris@4	1667 passed to <computeroutput>BZ2_bzReadOpen</computeroutput> /
Chris@4	1668 <computeroutput>BZ2_bzWriteOpen</computeroutput> should be set
Chris@4	1669 to binary mode. Most Unix systems will do this by default, but
Chris@4	1670 other platforms, including Windows and Mac, will not. If you
Chris@4	1671 omit this, you may encounter problems when moving code to new
Chris@4	1672 platforms.</para></listitem>
Chris@4	1673
Chris@4	1674 <listitem><para>Memory allocation requests are handled by
Chris@4	1675 <computeroutput>malloc</computeroutput> /
Chris@4	1676 <computeroutput>free</computeroutput>. At present there is no
Chris@4	1677 facility for user-defined memory allocators in the file I/O
Chris@4	1678 functions (could easily be added, though).</para></listitem>
Chris@4	1679
Chris@4	1680 </itemizedlist>
Chris@4	1681
Chris@4	1682
Chris@4	1683
Chris@4	1684 <sect2 id="bzreadopen" xreflabel="BZ2_bzReadOpen">
Chris@4	1685 <title>BZ2_bzReadOpen</title>
Chris@4	1686
Chris@4	1687 <programlisting>
Chris@4	1688 typedef void BZFILE;
Chris@4	1689
Chris@4	1690 BZFILE BZ2_bzReadOpen( int bzerror, FILE *f,
Chris@4	1691 int verbosity, int small,
Chris@4	1692 void *unused, int nUnused );
Chris@4	1693 </programlisting>
Chris@4	1694
Chris@4	1695 <para>Prepare to read compressed data from file handle
Chris@4	1696 <computeroutput>f</computeroutput>.
Chris@4	1697 <computeroutput>f</computeroutput> should refer to a file which
Chris@4	1698 has been opened for reading, and for which the error indicator
Chris@4	1699 (<computeroutput>ferror(f)</computeroutput>)is not set. If
Chris@4	1700 <computeroutput>small</computeroutput> is 1, the library will try
Chris@4	1701 to decompress using less memory, at the expense of speed.</para>
Chris@4	1702
Chris@4	1703 <para>For reasons explained below,
Chris@4	1704 <computeroutput>BZ2_bzRead</computeroutput> will decompress the
Chris@4	1705 <computeroutput>nUnused</computeroutput> bytes starting at
Chris@4	1706 <computeroutput>unused</computeroutput>, before starting to read
Chris@4	1707 from the file <computeroutput>f</computeroutput>. At most
Chris@4	1708 <computeroutput>BZ_MAX_UNUSED</computeroutput> bytes may be
Chris@4	1709 supplied like this. If this facility is not required, you should
Chris@4	1710 pass <computeroutput>NULL</computeroutput> and
Chris@4	1711 <computeroutput>0</computeroutput> for
Chris@4	1712 <computeroutput>unused</computeroutput> and
Chris@4	1713 n<computeroutput>Unused</computeroutput> respectively.</para>
Chris@4	1714
Chris@4	1715 <para>For the meaning of parameters
Chris@4	1716 <computeroutput>small</computeroutput> and
Chris@4	1717 <computeroutput>verbosity</computeroutput>, see
Chris@4	1718 <computeroutput>BZ2_bzDecompressInit</computeroutput>.</para>
Chris@4	1719
Chris@4	1720 <para>The amount of memory needed to decompress a file cannot be
Chris@4	1721 determined until the file's header has been read. So it is
Chris@4	1722 possible that <computeroutput>BZ2_bzReadOpen</computeroutput>
Chris@4	1723 returns <computeroutput>BZ_OK</computeroutput> but a subsequent
Chris@4	1724 call of <computeroutput>BZ2_bzRead</computeroutput> will return
Chris@4	1725 <computeroutput>BZ_MEM_ERROR</computeroutput>.</para>
Chris@4	1726
Chris@4	1727 <para>Possible assignments to
Chris@4	1728 <computeroutput>bzerror</computeroutput>:</para>
Chris@4	1729
Chris@4	1730 <programlisting>
Chris@4	1731 BZ_CONFIG_ERROR
Chris@4	1732 if the library has been mis-compiled
Chris@4	1733 BZ_PARAM_ERROR
Chris@4	1734 if f is NULL
Chris@4	1735 or small is neither 0 nor 1
Chris@4	1736 or ( unused == NULL && nUnused != 0 )
Chris@4	1737 or ( unused != NULL && !(0 <= nUnused <= BZ_MAX_UNUSED) )
Chris@4	1738 BZ_IO_ERROR
Chris@4	1739 if ferror(f) is nonzero
Chris@4	1740 BZ_MEM_ERROR
Chris@4	1741 if insufficient memory is available
Chris@4	1742 BZ_OK
Chris@4	1743 otherwise.
Chris@4	1744 </programlisting>
Chris@4	1745
Chris@4	1746 <para>Possible return values:</para>
Chris@4	1747
Chris@4	1748 <programlisting>
Chris@4	1749 Pointer to an abstract BZFILE
Chris@4	1750 if bzerror is BZ_OK
Chris@4	1751 NULL
Chris@4	1752 otherwise
Chris@4	1753 </programlisting>
Chris@4	1754
Chris@4	1755 <para>Allowable next actions:</para>
Chris@4	1756
Chris@4	1757 <programlisting>
Chris@4	1758 BZ2_bzRead
Chris@4	1759 if bzerror is BZ_OK
Chris@4	1760 BZ2_bzClose
Chris@4	1761 otherwise
Chris@4	1762 </programlisting>
Chris@4	1763
Chris@4	1764 </sect2>
Chris@4	1765
Chris@4	1766
Chris@4	1767 <sect2 id="bzread" xreflabel="BZ2_bzRead">
Chris@4	1768 <title>BZ2_bzRead</title>
Chris@4	1769
Chris@4	1770 <programlisting>
Chris@4	1771 int BZ2_bzRead ( int bzerror, BZFILE b, void *buf, int len );
Chris@4	1772 </programlisting>
Chris@4	1773
Chris@4	1774 <para>Reads up to <computeroutput>len</computeroutput>
Chris@4	1775 (uncompressed) bytes from the compressed file
Chris@4	1776 <computeroutput>b</computeroutput> into the buffer
Chris@4	1777 <computeroutput>buf</computeroutput>. If the read was
Chris@4	1778 successful, <computeroutput>bzerror</computeroutput> is set to
Chris@4	1779 <computeroutput>BZ_OK</computeroutput> and the number of bytes
Chris@4	1780 read is returned. If the logical end-of-stream was detected,
Chris@4	1781 <computeroutput>bzerror</computeroutput> will be set to
Chris@4	1782 <computeroutput>BZ_STREAM_END</computeroutput>, and the number of
Chris@4	1783 bytes read is returned. All other
Chris@4	1784 <computeroutput>bzerror</computeroutput> values denote an
Chris@4	1785 error.</para>
Chris@4	1786
Chris@4	1787 <para><computeroutput>BZ2_bzRead</computeroutput> will supply
Chris@4	1788 <computeroutput>len</computeroutput> bytes, unless the logical
Chris@4	1789 stream end is detected or an error occurs. Because of this, it
Chris@4	1790 is possible to detect the stream end by observing when the number
Chris@4	1791 of bytes returned is less than the number requested.
Chris@4	1792 Nevertheless, this is regarded as inadvisable; you should instead
Chris@4	1793 check <computeroutput>bzerror</computeroutput> after every call
Chris@4	1794 and watch out for
Chris@4	1795 <computeroutput>BZ_STREAM_END</computeroutput>.</para>
Chris@4	1796
Chris@4	1797 <para>Internally, <computeroutput>BZ2_bzRead</computeroutput>
Chris@4	1798 copies data from the compressed file in chunks of size
Chris@4	1799 <computeroutput>BZ_MAX_UNUSED</computeroutput> bytes before
Chris@4	1800 decompressing it. If the file contains more bytes than strictly
Chris@4	1801 needed to reach the logical end-of-stream,
Chris@4	1802 <computeroutput>BZ2_bzRead</computeroutput> will almost certainly
Chris@4	1803 read some of the trailing data before signalling
Chris@4	1804 <computeroutput>BZ_SEQUENCE_END</computeroutput>. To collect the
Chris@4	1805 read but unused data once
Chris@4	1806 <computeroutput>BZ_SEQUENCE_END</computeroutput> has appeared,
Chris@4	1807 call <computeroutput>BZ2_bzReadGetUnused</computeroutput>
Chris@4	1808 immediately before
Chris@4	1809 <computeroutput>BZ2_bzReadClose</computeroutput>.</para>
Chris@4	1810
Chris@4	1811 <para>Possible assignments to
Chris@4	1812 <computeroutput>bzerror</computeroutput>:</para>
Chris@4	1813
Chris@4	1814 <programlisting>
Chris@4	1815 BZ_PARAM_ERROR
Chris@4	1816 if b is NULL or buf is NULL or len < 0
Chris@4	1817 BZ_SEQUENCE_ERROR
Chris@4	1818 if b was opened with BZ2_bzWriteOpen
Chris@4	1819 BZ_IO_ERROR
Chris@4	1820 if there is an error reading from the compressed file
Chris@4	1821 BZ_UNEXPECTED_EOF
Chris@4	1822 if the compressed file ended before
Chris@4	1823 the logical end-of-stream was detected
Chris@4	1824 BZ_DATA_ERROR
Chris@4	1825 if a data integrity error was detected in the compressed stream
Chris@4	1826 BZ_DATA_ERROR_MAGIC
Chris@4	1827 if the stream does not begin with the requisite header bytes
Chris@4	1828 (ie, is not a bzip2 data file). This is really
Chris@4	1829 a special case of BZ_DATA_ERROR.
Chris@4	1830 BZ_MEM_ERROR
Chris@4	1831 if insufficient memory was available
Chris@4	1832 BZ_STREAM_END
Chris@4	1833 if the logical end of stream was detected.
Chris@4	1834 BZ_OK
Chris@4	1835 otherwise.
Chris@4	1836 </programlisting>
Chris@4	1837
Chris@4	1838 <para>Possible return values:</para>
Chris@4	1839
Chris@4	1840 <programlisting>
Chris@4	1841 number of bytes read
Chris@4	1842 if bzerror is BZ_OK or BZ_STREAM_END
Chris@4	1843 undefined
Chris@4	1844 otherwise
Chris@4	1845 </programlisting>
Chris@4	1846
Chris@4	1847 <para>Allowable next actions:</para>
Chris@4	1848
Chris@4	1849 <programlisting>
Chris@4	1850 collect data from buf, then BZ2_bzRead or BZ2_bzReadClose
Chris@4	1851 if bzerror is BZ_OK
Chris@4	1852 collect data from buf, then BZ2_bzReadClose or BZ2_bzReadGetUnused
Chris@4	1853 if bzerror is BZ_SEQUENCE_END
Chris@4	1854 BZ2_bzReadClose
Chris@4	1855 otherwise
Chris@4	1856 </programlisting>
Chris@4	1857
Chris@4	1858 </sect2>
Chris@4	1859
Chris@4	1860
Chris@4	1861 <sect2 id="bzreadgetunused" xreflabel="BZ2_bzReadGetUnused">
Chris@4	1862 <title>BZ2_bzReadGetUnused</title>
Chris@4	1863
Chris@4	1864 <programlisting>
Chris@4	1865 void BZ2_bzReadGetUnused( int* bzerror, BZFILE *b,
Chris@4	1866 void** unused, int* nUnused );
Chris@4	1867 </programlisting>
Chris@4	1868
Chris@4	1869 <para>Returns data which was read from the compressed file but
Chris@4	1870 was not needed to get to the logical end-of-stream.
Chris@4	1871 <computeroutput>*unused</computeroutput> is set to the address of
Chris@4	1872 the data, and <computeroutput>*nUnused</computeroutput> to the
Chris@4	1873 number of bytes. <computeroutput>*nUnused</computeroutput> will
Chris@4	1874 be set to a value between <computeroutput>0</computeroutput> and
Chris@4	1875 <computeroutput>BZ_MAX_UNUSED</computeroutput> inclusive.</para>
Chris@4	1876
Chris@4	1877 <para>This function may only be called once
Chris@4	1878 <computeroutput>BZ2_bzRead</computeroutput> has signalled
Chris@4	1879 <computeroutput>BZ_STREAM_END</computeroutput> but before
Chris@4	1880 <computeroutput>BZ2_bzReadClose</computeroutput>.</para>
Chris@4	1881
Chris@4	1882 <para>Possible assignments to
Chris@4	1883 <computeroutput>bzerror</computeroutput>:</para>
Chris@4	1884
Chris@4	1885 <programlisting>
Chris@4	1886 BZ_PARAM_ERROR
Chris@4	1887 if b is NULL
Chris@4	1888 or unused is NULL or nUnused is NULL
Chris@4	1889 BZ_SEQUENCE_ERROR
Chris@4	1890 if BZ_STREAM_END has not been signalled
Chris@4	1891 or if b was opened with BZ2_bzWriteOpen
Chris@4	1892 BZ_OK
Chris@4	1893 otherwise
Chris@4	1894 </programlisting>
Chris@4	1895
Chris@4	1896 <para>Allowable next actions:</para>
Chris@4	1897
Chris@4	1898 <programlisting>
Chris@4	1899 BZ2_bzReadClose
Chris@4	1900 </programlisting>
Chris@4	1901
Chris@4	1902 </sect2>
Chris@4	1903
Chris@4	1904
Chris@4	1905 <sect2 id="bzreadclose" xreflabel="BZ2_bzReadClose">
Chris@4	1906 <title>BZ2_bzReadClose</title>
Chris@4	1907
Chris@4	1908 <programlisting>
Chris@4	1909 void BZ2_bzReadClose ( int bzerror, BZFILE b );
Chris@4	1910 </programlisting>
Chris@4	1911
Chris@4	1912 <para>Releases all memory pertaining to the compressed file
Chris@4	1913 <computeroutput>b</computeroutput>.
Chris@4	1914 <computeroutput>BZ2_bzReadClose</computeroutput> does not call
Chris@4	1915 <computeroutput>fclose</computeroutput> on the underlying file
Chris@4	1916 handle, so you should do that yourself if appropriate.
Chris@4	1917 <computeroutput>BZ2_bzReadClose</computeroutput> should be called
Chris@4	1918 to clean up after all error situations.</para>
Chris@4	1919
Chris@4	1920 <para>Possible assignments to
Chris@4	1921 <computeroutput>bzerror</computeroutput>:</para>
Chris@4	1922
Chris@4	1923 <programlisting>
Chris@4	1924 BZ_SEQUENCE_ERROR
Chris@4	1925 if b was opened with BZ2_bzOpenWrite
Chris@4	1926 BZ_OK
Chris@4	1927 otherwise
Chris@4	1928 </programlisting>
Chris@4	1929
Chris@4	1930 <para>Allowable next actions:</para>
Chris@4	1931
Chris@4	1932 <programlisting>
Chris@4	1933 none
Chris@4	1934 </programlisting>
Chris@4	1935
Chris@4	1936 </sect2>
Chris@4	1937
Chris@4	1938
Chris@4	1939 <sect2 id="bzwriteopen" xreflabel="BZ2_bzWriteOpen">
Chris@4	1940 <title>BZ2_bzWriteOpen</title>
Chris@4	1941
Chris@4	1942 <programlisting>
Chris@4	1943 BZFILE BZ2_bzWriteOpen( int bzerror, FILE *f,
Chris@4	1944 int blockSize100k, int verbosity,
Chris@4	1945 int workFactor );
Chris@4	1946 </programlisting>
Chris@4	1947
Chris@4	1948 <para>Prepare to write compressed data to file handle
Chris@4	1949 <computeroutput>f</computeroutput>.
Chris@4	1950 <computeroutput>f</computeroutput> should refer to a file which
Chris@4	1951 has been opened for writing, and for which the error indicator
Chris@4	1952 (<computeroutput>ferror(f)</computeroutput>)is not set.</para>
Chris@4	1953
Chris@4	1954 <para>For the meaning of parameters
Chris@4	1955 <computeroutput>blockSize100k</computeroutput>,
Chris@4	1956 <computeroutput>verbosity</computeroutput> and
Chris@4	1957 <computeroutput>workFactor</computeroutput>, see
Chris@4	1958 <computeroutput>BZ2_bzCompressInit</computeroutput>.</para>
Chris@4	1959
Chris@4	1960 <para>All required memory is allocated at this stage, so if the
Chris@4	1961 call completes successfully,
Chris@4	1962 <computeroutput>BZ_MEM_ERROR</computeroutput> cannot be signalled
Chris@4	1963 by a subsequent call to
Chris@4	1964 <computeroutput>BZ2_bzWrite</computeroutput>.</para>
Chris@4	1965
Chris@4	1966 <para>Possible assignments to
Chris@4	1967 <computeroutput>bzerror</computeroutput>:</para>
Chris@4	1968
Chris@4	1969 <programlisting>
Chris@4	1970 BZ_CONFIG_ERROR
Chris@4	1971 if the library has been mis-compiled
Chris@4	1972 BZ_PARAM_ERROR
Chris@4	1973 if f is NULL
Chris@4	1974 or blockSize100k < 1 or blockSize100k > 9
Chris@4	1975 BZ_IO_ERROR
Chris@4	1976 if ferror(f) is nonzero
Chris@4	1977 BZ_MEM_ERROR
Chris@4	1978 if insufficient memory is available
Chris@4	1979 BZ_OK
Chris@4	1980 otherwise
Chris@4	1981 </programlisting>
Chris@4	1982
Chris@4	1983 <para>Possible return values:</para>
Chris@4	1984
Chris@4	1985 <programlisting>
Chris@4	1986 Pointer to an abstract BZFILE
Chris@4	1987 if bzerror is BZ_OK
Chris@4	1988 NULL
Chris@4	1989 otherwise
Chris@4	1990 </programlisting>
Chris@4	1991
Chris@4	1992 <para>Allowable next actions:</para>
Chris@4	1993
Chris@4	1994 <programlisting>
Chris@4	1995 BZ2_bzWrite
Chris@4	1996 if bzerror is BZ_OK
Chris@4	1997 (you could go directly to BZ2_bzWriteClose, but this would be pretty pointless)
Chris@4	1998 BZ2_bzWriteClose
Chris@4	1999 otherwise
Chris@4	2000 </programlisting>
Chris@4	2001
Chris@4	2002 </sect2>
Chris@4	2003
Chris@4	2004
Chris@4	2005 <sect2 id="bzwrite" xreflabel="BZ2_bzWrite">
Chris@4	2006 <title>BZ2_bzWrite</title>
Chris@4	2007
Chris@4	2008 <programlisting>
Chris@4	2009 void BZ2_bzWrite ( int bzerror, BZFILE b, void *buf, int len );
Chris@4	2010 </programlisting>
Chris@4	2011
Chris@4	2012 <para>Absorbs <computeroutput>len</computeroutput> bytes from the
Chris@4	2013 buffer <computeroutput>buf</computeroutput>, eventually to be
Chris@4	2014 compressed and written to the file.</para>
Chris@4	2015
Chris@4	2016 <para>Possible assignments to
Chris@4	2017 <computeroutput>bzerror</computeroutput>:</para>
Chris@4	2018
Chris@4	2019 <programlisting>
Chris@4	2020 BZ_PARAM_ERROR
Chris@4	2021 if b is NULL or buf is NULL or len < 0
Chris@4	2022 BZ_SEQUENCE_ERROR
Chris@4	2023 if b was opened with BZ2_bzReadOpen
Chris@4	2024 BZ_IO_ERROR
Chris@4	2025 if there is an error writing the compressed file.
Chris@4	2026 BZ_OK
Chris@4	2027 otherwise
Chris@4	2028 </programlisting>
Chris@4	2029
Chris@4	2030 </sect2>
Chris@4	2031
Chris@4	2032
Chris@4	2033 <sect2 id="bzwriteclose" xreflabel="BZ2_bzWriteClose">
Chris@4	2034 <title>BZ2_bzWriteClose</title>
Chris@4	2035
Chris@4	2036 <programlisting>
Chris@4	2037 void BZ2_bzWriteClose( int bzerror, BZFILE f,
Chris@4	2038 int abandon,
Chris@4	2039 unsigned int* nbytes_in,
Chris@4	2040 unsigned int* nbytes_out );
Chris@4	2041
Chris@4	2042 void BZ2_bzWriteClose64( int bzerror, BZFILE f,
Chris@4	2043 int abandon,
Chris@4	2044 unsigned int* nbytes_in_lo32,
Chris@4	2045 unsigned int* nbytes_in_hi32,
Chris@4	2046 unsigned int* nbytes_out_lo32,
Chris@4	2047 unsigned int* nbytes_out_hi32 );
Chris@4	2048 </programlisting>
Chris@4	2049
Chris@4	2050 <para>Compresses and flushes to the compressed file all data so
Chris@4	2051 far supplied by <computeroutput>BZ2_bzWrite</computeroutput>.
Chris@4	2052 The logical end-of-stream markers are also written, so subsequent
Chris@4	2053 calls to <computeroutput>BZ2_bzWrite</computeroutput> are
Chris@4	2054 illegal. All memory associated with the compressed file
Chris@4	2055 <computeroutput>b</computeroutput> is released.
Chris@4	2056 <computeroutput>fflush</computeroutput> is called on the
Chris@4	2057 compressed file, but it is not
Chris@4	2058 <computeroutput>fclose</computeroutput>'d.</para>
Chris@4	2059
Chris@4	2060 <para>If <computeroutput>BZ2_bzWriteClose</computeroutput> is
Chris@4	2061 called to clean up after an error, the only action is to release
Chris@4	2062 the memory. The library records the error codes issued by
Chris@4	2063 previous calls, so this situation will be detected automatically.
Chris@4	2064 There is no attempt to complete the compression operation, nor to
Chris@4	2065 <computeroutput>fflush</computeroutput> the compressed file. You
Chris@4	2066 can force this behaviour to happen even in the case of no error,
Chris@4	2067 by passing a nonzero value to
Chris@4	2068 <computeroutput>abandon</computeroutput>.</para>
Chris@4	2069
Chris@4	2070 <para>If <computeroutput>nbytes_in</computeroutput> is non-null,
Chris@4	2071 <computeroutput>*nbytes_in</computeroutput> will be set to be the
Chris@4	2072 total volume of uncompressed data handled. Similarly,
Chris@4	2073 <computeroutput>nbytes_out</computeroutput> will be set to the
Chris@4	2074 total volume of compressed data written. For compatibility with
Chris@4	2075 older versions of the library,
Chris@4	2076 <computeroutput>BZ2_bzWriteClose</computeroutput> only yields the
Chris@4	2077 lower 32 bits of these counts. Use
Chris@4	2078 <computeroutput>BZ2_bzWriteClose64</computeroutput> if you want
Chris@4	2079 the full 64 bit counts. These two functions are otherwise
Chris@4	2080 absolutely identical.</para>
Chris@4	2081
Chris@4	2082 <para>Possible assignments to
Chris@4	2083 <computeroutput>bzerror</computeroutput>:</para>
Chris@4	2084
Chris@4	2085 <programlisting>
Chris@4	2086 BZ_SEQUENCE_ERROR
Chris@4	2087 if b was opened with BZ2_bzReadOpen
Chris@4	2088 BZ_IO_ERROR
Chris@4	2089 if there is an error writing the compressed file
Chris@4	2090 BZ_OK
Chris@4	2091 otherwise
Chris@4	2092 </programlisting>
Chris@4	2093
Chris@4	2094 </sect2>
Chris@4	2095
Chris@4	2096
Chris@4	2097 <sect2 id="embed" xreflabel="Handling embedded compressed data streams">
Chris@4	2098 <title>Handling embedded compressed data streams</title>
Chris@4	2099
Chris@4	2100 <para>The high-level library facilitates use of
Chris@4	2101 <computeroutput>bzip2</computeroutput> data streams which form
Chris@4	2102 some part of a surrounding, larger data stream.</para>
Chris@4	2103
Chris@4	2104 <itemizedlist mark='bullet'>
Chris@4	2105
Chris@4	2106 <listitem><para>For writing, the library takes an open file handle,
Chris@4	2107 writes compressed data to it,
Chris@4	2108 <computeroutput>fflush</computeroutput>es it but does not
Chris@4	2109 <computeroutput>fclose</computeroutput> it. The calling
Chris@4	2110 application can write its own data before and after the
Chris@4	2111 compressed data stream, using that same file handle.</para></listitem>
Chris@4	2112
Chris@4	2113 <listitem><para>Reading is more complex, and the facilities are not as
Chris@4	2114 general as they could be since generality is hard to reconcile
Chris@4	2115 with efficiency. <computeroutput>BZ2_bzRead</computeroutput>
Chris@4	2116 reads from the compressed file in blocks of size
Chris@4	2117 <computeroutput>BZ_MAX_UNUSED</computeroutput> bytes, and in
Chris@4	2118 doing so probably will overshoot the logical end of compressed
Chris@4	2119 stream. To recover this data once decompression has ended,
Chris@4	2120 call <computeroutput>BZ2_bzReadGetUnused</computeroutput> after
Chris@4	2121 the last call of <computeroutput>BZ2_bzRead</computeroutput>
Chris@4	2122 (the one returning
Chris@4	2123 <computeroutput>BZ_STREAM_END</computeroutput>) but before
Chris@4	2124 calling
Chris@4	2125 <computeroutput>BZ2_bzReadClose</computeroutput>.</para></listitem>
Chris@4	2126
Chris@4	2127 </itemizedlist>
Chris@4	2128
Chris@4	2129 <para>This mechanism makes it easy to decompress multiple
Chris@4	2130 <computeroutput>bzip2</computeroutput> streams placed end-to-end.
Chris@4	2131 As the end of one stream, when
Chris@4	2132 <computeroutput>BZ2_bzRead</computeroutput> returns
Chris@4	2133 <computeroutput>BZ_STREAM_END</computeroutput>, call
Chris@4	2134 <computeroutput>BZ2_bzReadGetUnused</computeroutput> to collect
Chris@4	2135 the unused data (copy it into your own buffer somewhere). That
Chris@4	2136 data forms the start of the next compressed stream. To start
Chris@4	2137 uncompressing that next stream, call
Chris@4	2138 <computeroutput>BZ2_bzReadOpen</computeroutput> again, feeding in
Chris@4	2139 the unused data via the <computeroutput>unused</computeroutput> /
Chris@4	2140 <computeroutput>nUnused</computeroutput> parameters. Keep doing
Chris@4	2141 this until <computeroutput>BZ_STREAM_END</computeroutput> return
Chris@4	2142 coincides with the physical end of file
Chris@4	2143 (<computeroutput>feof(f)</computeroutput>). In this situation
Chris@4	2144 <computeroutput>BZ2_bzReadGetUnused</computeroutput> will of
Chris@4	2145 course return no data.</para>
Chris@4	2146
Chris@4	2147 <para>This should give some feel for how the high-level interface
Chris@4	2148 can be used. If you require extra flexibility, you'll have to
Chris@4	2149 bite the bullet and get to grips with the low-level
Chris@4	2150 interface.</para>
Chris@4	2151
Chris@4	2152 </sect2>
Chris@4	2153
Chris@4	2154
Chris@4	2155 <sect2 id="std-rdwr" xreflabel="Standard file-reading/writing code">
Chris@4	2156 <title>Standard file-reading/writing code</title>
Chris@4	2157
Chris@4	2158 <para>Here's how you'd write data to a compressed file:</para>
Chris@4	2159
Chris@4	2160 <programlisting>
Chris@4	2161 FILE* f;
Chris@4	2162 BZFILE* b;
Chris@4	2163 int nBuf;
Chris@4	2164 char buf[ /* whatever size you like */ ];
Chris@4	2165 int bzerror;
Chris@4	2166 int nWritten;
Chris@4	2167
Chris@4	2168 f = fopen ( "myfile.bz2", "w" );
Chris@4	2169 if ( !f ) {
Chris@4	2170 /* handle error */
Chris@4	2171 }
Chris@4	2172 b = BZ2_bzWriteOpen( &bzerror, f, 9 );
Chris@4	2173 if (bzerror != BZ_OK) {
Chris@4	2174 BZ2_bzWriteClose ( b );
Chris@4	2175 /* handle error */
Chris@4	2176 }
Chris@4	2177
Chris@4	2178 while ( /* condition */ ) {
Chris@4	2179 /* get data to write into buf, and set nBuf appropriately */
Chris@4	2180 nWritten = BZ2_bzWrite ( &bzerror, b, buf, nBuf );
Chris@4	2181 if (bzerror == BZ_IO_ERROR) {
Chris@4	2182 BZ2_bzWriteClose ( &bzerror, b );
Chris@4	2183 /* handle error */
Chris@4	2184 }
Chris@4	2185 }
Chris@4	2186
Chris@4	2187 BZ2_bzWriteClose( &bzerror, b );
Chris@4	2188 if (bzerror == BZ_IO_ERROR) {
Chris@4	2189 /* handle error */
Chris@4	2190 }
Chris@4	2191 </programlisting>
Chris@4	2192
Chris@4	2193 <para>And to read from a compressed file:</para>
Chris@4	2194
Chris@4	2195 <programlisting>
Chris@4	2196 FILE* f;
Chris@4	2197 BZFILE* b;
Chris@4	2198 int nBuf;
Chris@4	2199 char buf[ /* whatever size you like */ ];
Chris@4	2200 int bzerror;
Chris@4	2201 int nWritten;
Chris@4	2202
Chris@4	2203 f = fopen ( "myfile.bz2", "r" );
Chris@4	2204 if ( !f ) {
Chris@4	2205 /* handle error */
Chris@4	2206 }
Chris@4	2207 b = BZ2_bzReadOpen ( &bzerror, f, 0, NULL, 0 );
Chris@4	2208 if ( bzerror != BZ_OK ) {
Chris@4	2209 BZ2_bzReadClose ( &bzerror, b );
Chris@4	2210 /* handle error */
Chris@4	2211 }
Chris@4	2212
Chris@4	2213 bzerror = BZ_OK;
Chris@4	2214 while ( bzerror == BZ_OK && /* arbitrary other conditions */) {
Chris@4	2215 nBuf = BZ2_bzRead ( &bzerror, b, buf, /* size of buf */ );
Chris@4	2216 if ( bzerror == BZ_OK ) {
Chris@4	2217 /* do something with buf[0 .. nBuf-1] */
Chris@4	2218 }
Chris@4	2219 }
Chris@4	2220 if ( bzerror != BZ_STREAM_END ) {
Chris@4	2221 BZ2_bzReadClose ( &bzerror, b );
Chris@4	2222 /* handle error */
Chris@4	2223 } else {
Chris@4	2224 BZ2_bzReadClose ( &bzerror, b );
Chris@4	2225 }
Chris@4	2226 </programlisting>
Chris@4	2227
Chris@4	2228 </sect2>
Chris@4	2229
Chris@4	2230 </sect1>
Chris@4	2231
Chris@4	2232
Chris@4	2233 <sect1 id="util-fns" xreflabel="Utility functions">
Chris@4	2234 <title>Utility functions</title>
Chris@4	2235
Chris@4	2236
Chris@4	2237 <sect2 id="bzbufftobuffcompress" xreflabel="BZ2_bzBuffToBuffCompress">
Chris@4	2238 <title>BZ2_bzBuffToBuffCompress</title>
Chris@4	2239
Chris@4	2240 <programlisting>
Chris@4	2241 int BZ2_bzBuffToBuffCompress( char* dest,
Chris@4	2242 unsigned int* destLen,
Chris@4	2243 char* source,
Chris@4	2244 unsigned int sourceLen,
Chris@4	2245 int blockSize100k,
Chris@4	2246 int verbosity,
Chris@4	2247 int workFactor );
Chris@4	2248 </programlisting>
Chris@4	2249
Chris@4	2250 <para>Attempts to compress the data in <computeroutput>source[0
Chris@4	2251 .. sourceLen-1]</computeroutput> into the destination buffer,
Chris@4	2252 <computeroutput>dest[0 .. *destLen-1]</computeroutput>. If the
Chris@4	2253 destination buffer is big enough,
Chris@4	2254 <computeroutput>*destLen</computeroutput> is set to the size of
Chris@4	2255 the compressed data, and <computeroutput>BZ_OK</computeroutput>
Chris@4	2256 is returned. If the compressed data won't fit,
Chris@4	2257 <computeroutput>*destLen</computeroutput> is unchanged, and
Chris@4	2258 <computeroutput>BZ_OUTBUFF_FULL</computeroutput> is
Chris@4	2259 returned.</para>
Chris@4	2260
Chris@4	2261 <para>Compression in this manner is a one-shot event, done with a
Chris@4	2262 single call to this function. The resulting compressed data is a
Chris@4	2263 complete <computeroutput>bzip2</computeroutput> format data
Chris@4	2264 stream. There is no mechanism for making additional calls to
Chris@4	2265 provide extra input data. If you want that kind of mechanism,
Chris@4	2266 use the low-level interface.</para>
Chris@4	2267
Chris@4	2268 <para>For the meaning of parameters
Chris@4	2269 <computeroutput>blockSize100k</computeroutput>,
Chris@4	2270 <computeroutput>verbosity</computeroutput> and
Chris@4	2271 <computeroutput>workFactor</computeroutput>, see
Chris@4	2272 <computeroutput>BZ2_bzCompressInit</computeroutput>.</para>
Chris@4	2273
Chris@4	2274 <para>To guarantee that the compressed data will fit in its
Chris@4	2275 buffer, allocate an output buffer of size 1% larger than the
Chris@4	2276 uncompressed data, plus six hundred extra bytes.</para>
Chris@4	2277
Chris@4	2278 <para><computeroutput>BZ2_bzBuffToBuffDecompress</computeroutput>
Chris@4	2279 will not write data at or beyond
Chris@4	2280 <computeroutput>dest[*destLen]</computeroutput>, even in case of
Chris@4	2281 buffer overflow.</para>
Chris@4	2282
Chris@4	2283 <para>Possible return values:</para>
Chris@4	2284
Chris@4	2285 <programlisting>
Chris@4	2286 BZ_CONFIG_ERROR
Chris@4	2287 if the library has been mis-compiled
Chris@4	2288 BZ_PARAM_ERROR
Chris@4	2289 if dest is NULL or destLen is NULL
Chris@4	2290 or blockSize100k < 1 or blockSize100k > 9
Chris@4	2291 or verbosity < 0 or verbosity > 4
Chris@4	2292 or workFactor < 0 or workFactor > 250
Chris@4	2293 BZ_MEM_ERROR
Chris@4	2294 if insufficient memory is available
Chris@4	2295 BZ_OUTBUFF_FULL
Chris@4	2296 if the size of the compressed data exceeds *destLen
Chris@4	2297 BZ_OK
Chris@4	2298 otherwise
Chris@4	2299 </programlisting>
Chris@4	2300
Chris@4	2301 </sect2>
Chris@4	2302
Chris@4	2303
Chris@4	2304 <sect2 id="bzbufftobuffdecompress" xreflabel="BZ2_bzBuffToBuffDecompress">
Chris@4	2305 <title>BZ2_bzBuffToBuffDecompress</title>
Chris@4	2306
Chris@4	2307 <programlisting>
Chris@4	2308 int BZ2_bzBuffToBuffDecompress( char* dest,
Chris@4	2309 unsigned int* destLen,
Chris@4	2310 char* source,
Chris@4	2311 unsigned int sourceLen,
Chris@4	2312 int small,
Chris@4	2313 int verbosity );
Chris@4	2314 </programlisting>
Chris@4	2315
Chris@4	2316 <para>Attempts to decompress the data in <computeroutput>source[0
Chris@4	2317 .. sourceLen-1]</computeroutput> into the destination buffer,
Chris@4	2318 <computeroutput>dest[0 .. *destLen-1]</computeroutput>. If the
Chris@4	2319 destination buffer is big enough,
Chris@4	2320 <computeroutput>*destLen</computeroutput> is set to the size of
Chris@4	2321 the uncompressed data, and <computeroutput>BZ_OK</computeroutput>
Chris@4	2322 is returned. If the compressed data won't fit,
Chris@4	2323 <computeroutput>*destLen</computeroutput> is unchanged, and
Chris@4	2324 <computeroutput>BZ_OUTBUFF_FULL</computeroutput> is
Chris@4	2325 returned.</para>
Chris@4	2326
Chris@4	2327 <para><computeroutput>source</computeroutput> is assumed to hold
Chris@4	2328 a complete <computeroutput>bzip2</computeroutput> format data
Chris@4	2329 stream.
Chris@4	2330 <computeroutput>BZ2_bzBuffToBuffDecompress</computeroutput> tries
Chris@4	2331 to decompress the entirety of the stream into the output
Chris@4	2332 buffer.</para>
Chris@4	2333
Chris@4	2334 <para>For the meaning of parameters
Chris@4	2335 <computeroutput>small</computeroutput> and
Chris@4	2336 <computeroutput>verbosity</computeroutput>, see
Chris@4	2337 <computeroutput>BZ2_bzDecompressInit</computeroutput>.</para>
Chris@4	2338
Chris@4	2339 <para>Because the compression ratio of the compressed data cannot
Chris@4	2340 be known in advance, there is no easy way to guarantee that the
Chris@4	2341 output buffer will be big enough. You may of course make
Chris@4	2342 arrangements in your code to record the size of the uncompressed
Chris@4	2343 data, but such a mechanism is beyond the scope of this
Chris@4	2344 library.</para>
Chris@4	2345
Chris@4	2346 <para><computeroutput>BZ2_bzBuffToBuffDecompress</computeroutput>
Chris@4	2347 will not write data at or beyond
Chris@4	2348 <computeroutput>dest[*destLen]</computeroutput>, even in case of
Chris@4	2349 buffer overflow.</para>
Chris@4	2350
Chris@4	2351 <para>Possible return values:</para>
Chris@4	2352
Chris@4	2353 <programlisting>
Chris@4	2354 BZ_CONFIG_ERROR
Chris@4	2355 if the library has been mis-compiled
Chris@4	2356 BZ_PARAM_ERROR
Chris@4	2357 if dest is NULL or destLen is NULL
Chris@4	2358 or small != 0 && small != 1
Chris@4	2359 or verbosity < 0 or verbosity > 4
Chris@4	2360 BZ_MEM_ERROR
Chris@4	2361 if insufficient memory is available
Chris@4	2362 BZ_OUTBUFF_FULL
Chris@4	2363 if the size of the compressed data exceeds *destLen
Chris@4	2364 BZ_DATA_ERROR
Chris@4	2365 if a data integrity error was detected in the compressed data
Chris@4	2366 BZ_DATA_ERROR_MAGIC
Chris@4	2367 if the compressed data doesn't begin with the right magic bytes
Chris@4	2368 BZ_UNEXPECTED_EOF
Chris@4	2369 if the compressed data ends unexpectedly
Chris@4	2370 BZ_OK
Chris@4	2371 otherwise
Chris@4	2372 </programlisting>
Chris@4	2373
Chris@4	2374 </sect2>
Chris@4	2375
Chris@4	2376 </sect1>
Chris@4	2377
Chris@4	2378
Chris@4	2379 <sect1 id="zlib-compat" xreflabel="zlib compatibility functions">
Chris@4	2380 <title>zlib compatibility functions</title>
Chris@4	2381
Chris@4	2382 <para>Yoshioka Tsuneo has contributed some functions to give
Chris@4	2383 better <computeroutput>zlib</computeroutput> compatibility.
Chris@4	2384 These functions are <computeroutput>BZ2_bzopen</computeroutput>,
Chris@4	2385 <computeroutput>BZ2_bzread</computeroutput>,
Chris@4	2386 <computeroutput>BZ2_bzwrite</computeroutput>,
Chris@4	2387 <computeroutput>BZ2_bzflush</computeroutput>,
Chris@4	2388 <computeroutput>BZ2_bzclose</computeroutput>,
Chris@4	2389 <computeroutput>BZ2_bzerror</computeroutput> and
Chris@4	2390 <computeroutput>BZ2_bzlibVersion</computeroutput>. These
Chris@4	2391 functions are not (yet) officially part of the library. If they
Chris@4	2392 break, you get to keep all the pieces. Nevertheless, I think
Chris@4	2393 they work ok.</para>
Chris@4	2394
Chris@4	2395 <programlisting>
Chris@4	2396 typedef void BZFILE;
Chris@4	2397
Chris@4	2398 const char * BZ2_bzlibVersion ( void );
Chris@4	2399 </programlisting>
Chris@4	2400
Chris@4	2401 <para>Returns a string indicating the library version.</para>
Chris@4	2402
Chris@4	2403 <programlisting>
Chris@4	2404 BZFILE * BZ2_bzopen ( const char path, const char mode );
Chris@4	2405 BZFILE * BZ2_bzdopen ( int fd, const char *mode );
Chris@4	2406 </programlisting>
Chris@4	2407
Chris@4	2408 <para>Opens a <computeroutput>.bz2</computeroutput> file for
Chris@4	2409 reading or writing, using either its name or a pre-existing file
Chris@4	2410 descriptor. Analogous to <computeroutput>fopen</computeroutput>
Chris@4	2411 and <computeroutput>fdopen</computeroutput>.</para>
Chris@4	2412
Chris@4	2413 <programlisting>
Chris@4	2414 int BZ2_bzread ( BZFILE* b, void* buf, int len );
Chris@4	2415 int BZ2_bzwrite ( BZFILE* b, void* buf, int len );
Chris@4	2416 </programlisting>
Chris@4	2417
Chris@4	2418 <para>Reads/writes data from/to a previously opened
Chris@4	2419 <computeroutput>BZFILE</computeroutput>. Analogous to
Chris@4	2420 <computeroutput>fread</computeroutput> and
Chris@4	2421 <computeroutput>fwrite</computeroutput>.</para>
Chris@4	2422
Chris@4	2423 <programlisting>
Chris@4	2424 int BZ2_bzflush ( BZFILE* b );
Chris@4	2425 void BZ2_bzclose ( BZFILE* b );
Chris@4	2426 </programlisting>
Chris@4	2427
Chris@4	2428 <para>Flushes/closes a <computeroutput>BZFILE</computeroutput>.
Chris@4	2429 <computeroutput>BZ2_bzflush</computeroutput> doesn't actually do
Chris@4	2430 anything. Analogous to <computeroutput>fflush</computeroutput>
Chris@4	2431 and <computeroutput>fclose</computeroutput>.</para>
Chris@4	2432
Chris@4	2433 <programlisting>
Chris@4	2434 const char * BZ2_bzerror ( BZFILE b, int errnum )
Chris@4	2435 </programlisting>
Chris@4	2436
Chris@4	2437 <para>Returns a string describing the more recent error status of
Chris@4	2438 <computeroutput>b</computeroutput>, and also sets
Chris@4	2439 <computeroutput>*errnum</computeroutput> to its numerical
Chris@4	2440 value.</para>
Chris@4	2441
Chris@4	2442 </sect1>
Chris@4	2443
Chris@4	2444
Chris@4	2445 <sect1 id="stdio-free"
Chris@4	2446 xreflabel="Using the library in a stdio-free environment">
Chris@4	2447 <title>Using the library in a stdio-free environment</title>
Chris@4	2448
Chris@4	2449
Chris@4	2450 <sect2 id="stdio-bye" xreflabel="Getting rid of stdio">
Chris@4	2451 <title>Getting rid of stdio</title>
Chris@4	2452
Chris@4	2453 <para>In a deeply embedded application, you might want to use
Chris@4	2454 just the memory-to-memory functions. You can do this
Chris@4	2455 conveniently by compiling the library with preprocessor symbol
Chris@4	2456 <computeroutput>BZ_NO_STDIO</computeroutput> defined. Doing this
Chris@4	2457 gives you a library containing only the following eight
Chris@4	2458 functions:</para>
Chris@4	2459
Chris@4	2460 <para><computeroutput>BZ2_bzCompressInit</computeroutput>,
Chris@4	2461 <computeroutput>BZ2_bzCompress</computeroutput>,
Chris@4	2462 <computeroutput>BZ2_bzCompressEnd</computeroutput>
Chris@4	2463 <computeroutput>BZ2_bzDecompressInit</computeroutput>,
Chris@4	2464 <computeroutput>BZ2_bzDecompress</computeroutput>,
Chris@4	2465 <computeroutput>BZ2_bzDecompressEnd</computeroutput>
Chris@4	2466 <computeroutput>BZ2_bzBuffToBuffCompress</computeroutput>,
Chris@4	2467 <computeroutput>BZ2_bzBuffToBuffDecompress</computeroutput></para>
Chris@4	2468
Chris@4	2469 <para>When compiled like this, all functions will ignore
Chris@4	2470 <computeroutput>verbosity</computeroutput> settings.</para>
Chris@4	2471
Chris@4	2472 </sect2>
Chris@4	2473
Chris@4	2474
Chris@4	2475 <sect2 id="critical-error" xreflabel="Critical error handling">
Chris@4	2476 <title>Critical error handling</title>
Chris@4	2477
Chris@4	2478 <para><computeroutput>libbzip2</computeroutput> contains a number
Chris@4	2479 of internal assertion checks which should, needless to say, never
Chris@4	2480 be activated. Nevertheless, if an assertion should fail,
Chris@4	2481 behaviour depends on whether or not the library was compiled with
Chris@4	2482 <computeroutput>BZ_NO_STDIO</computeroutput> set.</para>
Chris@4	2483
Chris@4	2484 <para>For a normal compile, an assertion failure yields the
Chris@4	2485 message:</para>
Chris@4	2486
Chris@4	2487 <blockquote>
Chris@4	2488 <para>bzip2/libbzip2: internal error number N.</para>
Chris@4	2489 <para>This is a bug in bzip2/libbzip2, &bz-version; of &bz-date;.
Chris@4	2490 Please report it to me at: &bz-email;. If this happened
Chris@4	2491 when you were using some program which uses libbzip2 as a
Chris@4	2492 component, you should also report this bug to the author(s)
Chris@4	2493 of that program. Please make an effort to report this bug;
Chris@4	2494 timely and accurate bug reports eventually lead to higher
Chris@4	2495 quality software. Thanks. Julian Seward, &bz-date;.
Chris@4	2496 </para></blockquote>
Chris@4	2497
Chris@4	2498 <para>where <computeroutput>N</computeroutput> is some error code
Chris@4	2499 number. If <computeroutput>N == 1007</computeroutput>, it also
Chris@4	2500 prints some extra text advising the reader that unreliable memory
Chris@4	2501 is often associated with internal error 1007. (This is a
Chris@4	2502 frequently-observed-phenomenon with versions 1.0.0/1.0.1).</para>
Chris@4	2503
Chris@4	2504 <para><computeroutput>exit(3)</computeroutput> is then
Chris@4	2505 called.</para>
Chris@4	2506
Chris@4	2507 <para>For a <computeroutput>stdio</computeroutput>-free library,
Chris@4	2508 assertion failures result in a call to a function declared
Chris@4	2509 as:</para>
Chris@4	2510
Chris@4	2511 <programlisting>
Chris@4	2512 extern void bz_internal_error ( int errcode );
Chris@4	2513 </programlisting>
Chris@4	2514
Chris@4	2515 <para>The relevant code is passed as a parameter. You should
Chris@4	2516 supply such a function.</para>
Chris@4	2517
Chris@4	2518 <para>In either case, once an assertion failure has occurred, any
Chris@4	2519 <computeroutput>bz_stream</computeroutput> records involved can
Chris@4	2520 be regarded as invalid. You should not attempt to resume normal
Chris@4	2521 operation with them.</para>
Chris@4	2522
Chris@4	2523 <para>You may, of course, change critical error handling to suit
Chris@4	2524 your needs. As I said above, critical errors indicate bugs in
Chris@4	2525 the library and should not occur. All "normal" error situations
Chris@4	2526 are indicated via error return codes from functions, and can be
Chris@4	2527 recovered from.</para>
Chris@4	2528
Chris@4	2529 </sect2>
Chris@4	2530
Chris@4	2531 </sect1>
Chris@4	2532
Chris@4	2533
Chris@4	2534 <sect1 id="win-dll" xreflabel="Making a Windows DLL">
Chris@4	2535 <title>Making a Windows DLL</title>
Chris@4	2536
Chris@4	2537 <para>Everything related to Windows has been contributed by
Chris@4	2538 Yoshioka Tsuneo
Chris@4	2539 (<computeroutput>tsuneo@rr.iij4u.or.jp</computeroutput>), so
Chris@4	2540 you should send your queries to him (but perhaps Cc: me,
Chris@4	2541 <computeroutput>&bz-email;</computeroutput>).</para>
Chris@4	2542
Chris@4	2543 <para>My vague understanding of what to do is: using Visual C++
Chris@4	2544 5.0, open the project file
Chris@4	2545 <computeroutput>libbz2.dsp</computeroutput>, and build. That's
Chris@4	2546 all.</para>
Chris@4	2547
Chris@4	2548 <para>If you can't open the project file for some reason, make a
Chris@4	2549 new one, naming these files:
Chris@4	2550 <computeroutput>blocksort.c</computeroutput>,
Chris@4	2551 <computeroutput>bzlib.c</computeroutput>,
Chris@4	2552 <computeroutput>compress.c</computeroutput>,
Chris@4	2553 <computeroutput>crctable.c</computeroutput>,
Chris@4	2554 <computeroutput>decompress.c</computeroutput>,
Chris@4	2555 <computeroutput>huffman.c</computeroutput>,
Chris@4	2556 <computeroutput>randtable.c</computeroutput> and
Chris@4	2557 <computeroutput>libbz2.def</computeroutput>. You will also need
Chris@4	2558 to name the header files <computeroutput>bzlib.h</computeroutput>
Chris@4	2559 and <computeroutput>bzlib_private.h</computeroutput>.</para>
Chris@4	2560
Chris@4	2561 <para>If you don't use VC++, you may need to define the
Chris@4	2562 proprocessor symbol
Chris@4	2563 <computeroutput>_WIN32</computeroutput>.</para>
Chris@4	2564
Chris@4	2565 <para>Finally, <computeroutput>dlltest.c</computeroutput> is a
Chris@4	2566 sample program using the DLL. It has a project file,
Chris@4	2567 <computeroutput>dlltest.dsp</computeroutput>.</para>
Chris@4	2568
Chris@4	2569 <para>If you just want a makefile for Visual C, have a look at
Chris@4	2570 <computeroutput>makefile.msc</computeroutput>.</para>
Chris@4	2571
Chris@4	2572 <para>Be aware that if you compile
Chris@4	2573 <computeroutput>bzip2</computeroutput> itself on Win32, you must
Chris@4	2574 set <computeroutput>BZ_UNIX</computeroutput> to 0 and
Chris@4	2575 <computeroutput>BZ_LCCWIN32</computeroutput> to 1, in the file
Chris@4	2576 <computeroutput>bzip2.c</computeroutput>, before compiling.
Chris@4	2577 Otherwise the resulting binary won't work correctly.</para>
Chris@4	2578
Chris@4	2579 <para>I haven't tried any of this stuff myself, but it all looks
Chris@4	2580 plausible.</para>
Chris@4	2581
Chris@4	2582 </sect1>
Chris@4	2583
Chris@4	2584 </chapter>
Chris@4	2585
Chris@4	2586
Chris@4	2587
Chris@4	2588 <chapter id="misc" xreflabel="Miscellanea">
Chris@4	2589 <title>Miscellanea</title>
Chris@4	2590
Chris@4	2591 <para>These are just some random thoughts of mine. Your mileage
Chris@4	2592 may vary.</para>
Chris@4	2593
Chris@4	2594
Chris@4	2595 <sect1 id="limits" xreflabel="Limitations of the compressed file format">
Chris@4	2596 <title>Limitations of the compressed file format</title>
Chris@4	2597
Chris@4	2598 <para><computeroutput>bzip2-1.0.X</computeroutput>,
Chris@4	2599 <computeroutput>0.9.5</computeroutput> and
Chris@4	2600 <computeroutput>0.9.0</computeroutput> use exactly the same file
Chris@4	2601 format as the original version,
Chris@4	2602 <computeroutput>bzip2-0.1</computeroutput>. This decision was
Chris@4	2603 made in the interests of stability. Creating yet another
Chris@4	2604 incompatible compressed file format would create further
Chris@4	2605 confusion and disruption for users.</para>
Chris@4	2606
Chris@4	2607 <para>Nevertheless, this is not a painless decision. Development
Chris@4	2608 work since the release of
Chris@4	2609 <computeroutput>bzip2-0.1</computeroutput> in August 1997 has
Chris@4	2610 shown complexities in the file format which slow down
Chris@4	2611 decompression and, in retrospect, are unnecessary. These
Chris@4	2612 are:</para>
Chris@4	2613
Chris@4	2614 <itemizedlist mark='bullet'>
Chris@4	2615
Chris@4	2616 <listitem><para>The run-length encoder, which is the first of the
Chris@4	2617 compression transformations, is entirely irrelevant. The
Chris@4	2618 original purpose was to protect the sorting algorithm from the
Chris@4	2619 very worst case input: a string of repeated symbols. But
Chris@4	2620 algorithm steps Q6a and Q6b in the original Burrows-Wheeler
Chris@4	2621 technical report (SRC-124) show how repeats can be handled
Chris@4	2622 without difficulty in block sorting.</para></listitem>
Chris@4	2623
Chris@4	2624 <listitem><para>The randomisation mechanism doesn't really need to be
Chris@4	2625 there. Udi Manber and Gene Myers published a suffix array
Chris@4	2626 construction algorithm a few years back, which can be employed
Chris@4	2627 to sort any block, no matter how repetitive, in O(N log N)
Chris@4	2628 time. Subsequent work by Kunihiko Sadakane has produced a
Chris@4	2629 derivative O(N (log N)^2) algorithm which usually outperforms
Chris@4	2630 the Manber-Myers algorithm.</para>
Chris@4	2631
Chris@4	2632 <para>I could have changed to Sadakane's algorithm, but I find
Chris@4	2633 it to be slower than <computeroutput>bzip2</computeroutput>'s
Chris@4	2634 existing algorithm for most inputs, and the randomisation
Chris@4	2635 mechanism protects adequately against bad cases. I didn't
Chris@4	2636 think it was a good tradeoff to make. Partly this is due to
Chris@4	2637 the fact that I was not flooded with email complaints about
Chris@4	2638 <computeroutput>bzip2-0.1</computeroutput>'s performance on
Chris@4	2639 repetitive data, so perhaps it isn't a problem for real
Chris@4	2640 inputs.</para>
Chris@4	2641
Chris@4	2642 <para>Probably the best long-term solution, and the one I have
Chris@4	2643 incorporated into 0.9.5 and above, is to use the existing
Chris@4	2644 sorting algorithm initially, and fall back to a O(N (log N)^2)
Chris@4	2645 algorithm if the standard algorithm gets into
Chris@4	2646 difficulties.</para></listitem>
Chris@4	2647
Chris@4	2648 <listitem><para>The compressed file format was never designed to be
Chris@4	2649 handled by a library, and I have had to jump though some hoops
Chris@4	2650 to produce an efficient implementation of decompression. It's
Chris@4	2651 a bit hairy. Try passing
Chris@4	2652 <computeroutput>decompress.c</computeroutput> through the C
Chris@4	2653 preprocessor and you'll see what I mean. Much of this
Chris@4	2654 complexity could have been avoided if the compressed size of
Chris@4	2655 each block of data was recorded in the data stream.</para></listitem>
Chris@4	2656
Chris@4	2657 <listitem><para>An Adler-32 checksum, rather than a CRC32 checksum,
Chris@4	2658 would be faster to compute.</para></listitem>
Chris@4	2659
Chris@4	2660 </itemizedlist>
Chris@4	2661
Chris@4	2662 <para>It would be fair to say that the
Chris@4	2663 <computeroutput>bzip2</computeroutput> format was frozen before I
Chris@4	2664 properly and fully understood the performance consequences of
Chris@4	2665 doing so.</para>
Chris@4	2666
Chris@4	2667 <para>Improvements which I was able to incorporate into 0.9.0,
Chris@4	2668 despite using the same file format, are:</para>
Chris@4	2669
Chris@4	2670 <itemizedlist mark='bullet'>
Chris@4	2671
Chris@4	2672 <listitem><para>Single array implementation of the inverse BWT. This
Chris@4	2673 significantly speeds up decompression, presumably because it
Chris@4	2674 reduces the number of cache misses.</para></listitem>
Chris@4	2675
Chris@4	2676 <listitem><para>Faster inverse MTF transform for large MTF values.
Chris@4	2677 The new implementation is based on the notion of sliding blocks
Chris@4	2678 of values.</para></listitem>
Chris@4	2679
Chris@4	2680 <listitem><para><computeroutput>bzip2-0.9.0</computeroutput> now reads
Chris@4	2681 and writes files with <computeroutput>fread</computeroutput>
Chris@4	2682 and <computeroutput>fwrite</computeroutput>; version 0.1 used
Chris@4	2683 <computeroutput>putc</computeroutput> and
Chris@4	2684 <computeroutput>getc</computeroutput>. Duh! Well, you live
Chris@4	2685 and learn.</para></listitem>
Chris@4	2686
Chris@4	2687 </itemizedlist>
Chris@4	2688
Chris@4	2689 <para>Further ahead, it would be nice to be able to do random
Chris@4	2690 access into files. This will require some careful design of
Chris@4	2691 compressed file formats.</para>
Chris@4	2692
Chris@4	2693 </sect1>
Chris@4	2694
Chris@4	2695
Chris@4	2696 <sect1 id="port-issues" xreflabel="Portability issues">
Chris@4	2697 <title>Portability issues</title>
Chris@4	2698
Chris@4	2699 <para>After some consideration, I have decided not to use GNU
Chris@4	2700 <computeroutput>autoconf</computeroutput> to configure 0.9.5 or
Chris@4	2701 1.0.</para>
Chris@4	2702
Chris@4	2703 <para><computeroutput>autoconf</computeroutput>, admirable and
Chris@4	2704 wonderful though it is, mainly assists with portability problems
Chris@4	2705 between Unix-like platforms. But
Chris@4	2706 <computeroutput>bzip2</computeroutput> doesn't have much in the
Chris@4	2707 way of portability problems on Unix; most of the difficulties
Chris@4	2708 appear when porting to the Mac, or to Microsoft's operating
Chris@4	2709 systems. <computeroutput>autoconf</computeroutput> doesn't help
Chris@4	2710 in those cases, and brings in a whole load of new
Chris@4	2711 complexity.</para>
Chris@4	2712
Chris@4	2713 <para>Most people should be able to compile the library and
Chris@4	2714 program under Unix straight out-of-the-box, so to speak,
Chris@4	2715 especially if you have a version of GNU C available.</para>
Chris@4	2716
Chris@4	2717 <para>There are a couple of
Chris@4	2718 <computeroutput>__inline__</computeroutput> directives in the
Chris@4	2719 code. GNU C (<computeroutput>gcc</computeroutput>) should be
Chris@4	2720 able to handle them. If you're not using GNU C, your C compiler
Chris@4	2721 shouldn't see them at all. If your compiler does, for some
Chris@4	2722 reason, see them and doesn't like them, just
Chris@4	2723 <computeroutput>#define</computeroutput>
Chris@4	2724 <computeroutput>__inline__</computeroutput> to be
Chris@4	2725 <computeroutput>/* */</computeroutput>. One easy way to do this
Chris@4	2726 is to compile with the flag
Chris@4	2727 <computeroutput>-D__inline__=</computeroutput>, which should be
Chris@4	2728 understood by most Unix compilers.</para>
Chris@4	2729
Chris@4	2730 <para>If you still have difficulties, try compiling with the
Chris@4	2731 macro <computeroutput>BZ_STRICT_ANSI</computeroutput> defined.
Chris@4	2732 This should enable you to build the library in a strictly ANSI
Chris@4	2733 compliant environment. Building the program itself like this is
Chris@4	2734 dangerous and not supported, since you remove
Chris@4	2735 <computeroutput>bzip2</computeroutput>'s checks against
Chris@4	2736 compressing directories, symbolic links, devices, and other
Chris@4	2737 not-really-a-file entities. This could cause filesystem
Chris@4	2738 corruption!</para>
Chris@4	2739
Chris@4	2740 <para>One other thing: if you create a
Chris@4	2741 <computeroutput>bzip2</computeroutput> binary for public distribution,
Chris@4	2742 please consider linking it statically (<computeroutput>gcc
Chris@4	2743 -static</computeroutput>). This avoids all sorts of library-version
Chris@4	2744 issues that others may encounter later on.</para>
Chris@4	2745
Chris@4	2746 <para>If you build <computeroutput>bzip2</computeroutput> on
Chris@4	2747 Win32, you must set <computeroutput>BZ_UNIX</computeroutput> to 0
Chris@4	2748 and <computeroutput>BZ_LCCWIN32</computeroutput> to 1, in the
Chris@4	2749 file <computeroutput>bzip2.c</computeroutput>, before compiling.
Chris@4	2750 Otherwise the resulting binary won't work correctly.</para>
Chris@4	2751
Chris@4	2752 </sect1>
Chris@4	2753
Chris@4	2754
Chris@4	2755 <sect1 id="bugs" xreflabel="Reporting bugs">
Chris@4	2756 <title>Reporting bugs</title>
Chris@4	2757
Chris@4	2758 <para>I tried pretty hard to make sure
Chris@4	2759 <computeroutput>bzip2</computeroutput> is bug free, both by
Chris@4	2760 design and by testing. Hopefully you'll never need to read this
Chris@4	2761 section for real.</para>
Chris@4	2762
Chris@4	2763 <para>Nevertheless, if <computeroutput>bzip2</computeroutput> dies
Chris@4	2764 with a segmentation fault, a bus error or an internal assertion
Chris@4	2765 failure, it will ask you to email me a bug report. Experience from
Chris@4	2766 years of feedback of bzip2 users indicates that almost all these
Chris@4	2767 problems can be traced to either compiler bugs or hardware
Chris@4	2768 problems.</para>
Chris@4	2769
Chris@4	2770 <itemizedlist mark='bullet'>
Chris@4	2771
Chris@4	2772 <listitem><para>Recompile the program with no optimisation, and
Chris@4	2773 see if it works. And/or try a different compiler. I heard all
Chris@4	2774 sorts of stories about various flavours of GNU C (and other
Chris@4	2775 compilers) generating bad code for
Chris@4	2776 <computeroutput>bzip2</computeroutput>, and I've run across two
Chris@4	2777 such examples myself.</para>
Chris@4	2778
Chris@4	2779 <para>2.7.X versions of GNU C are known to generate bad code
Chris@4	2780 from time to time, at high optimisation levels. If you get
Chris@4	2781 problems, try using the flags
Chris@4	2782 <computeroutput>-O2</computeroutput>
Chris@4	2783 <computeroutput>-fomit-frame-pointer</computeroutput>
Chris@4	2784 <computeroutput>-fno-strength-reduce</computeroutput>. You
Chris@4	2785 should specifically <emphasis>not</emphasis> use
Chris@4	2786 <computeroutput>-funroll-loops</computeroutput>.</para>
Chris@4	2787
Chris@4	2788 <para>You may notice that the Makefile runs six tests as part
Chris@4	2789 of the build process. If the program passes all of these, it's
Chris@4	2790 a pretty good (but not 100%) indication that the compiler has
Chris@4	2791 done its job correctly.</para></listitem>
Chris@4	2792
Chris@4	2793 <listitem><para>If <computeroutput>bzip2</computeroutput>
Chris@4	2794 crashes randomly, and the crashes are not repeatable, you may
Chris@4	2795 have a flaky memory subsystem.
Chris@4	2796 <computeroutput>bzip2</computeroutput> really hammers your
Chris@4	2797 memory hierarchy, and if it's a bit marginal, you may get these
Chris@4	2798 problems. Ditto if your disk or I/O subsystem is slowly
Chris@4	2799 failing. Yup, this really does happen.</para>
Chris@4	2800
Chris@4	2801 <para>Try using a different machine of the same type, and see
Chris@4	2802 if you can repeat the problem.</para></listitem>
Chris@4	2803
Chris@4	2804 <listitem><para>This isn't really a bug, but ... If
Chris@4	2805 <computeroutput>bzip2</computeroutput> tells you your file is
Chris@4	2806 corrupted on decompression, and you obtained the file via FTP,
Chris@4	2807 there is a possibility that you forgot to tell FTP to do a
Chris@4	2808 binary mode transfer. That absolutely will cause the file to
Chris@4	2809 be non-decompressible. You'll have to transfer it
Chris@4	2810 again.</para></listitem>
Chris@4	2811
Chris@4	2812 </itemizedlist>
Chris@4	2813
Chris@4	2814 <para>If you've incorporated
Chris@4	2815 <computeroutput>libbzip2</computeroutput> into your own program
Chris@4	2816 and are getting problems, please, please, please, check that the
Chris@4	2817 parameters you are passing in calls to the library, are correct,
Chris@4	2818 and in accordance with what the documentation says is allowable.
Chris@4	2819 I have tried to make the library robust against such problems,
Chris@4	2820 but I'm sure I haven't succeeded.</para>
Chris@4	2821
Chris@4	2822 <para>Finally, if the above comments don't help, you'll have to
Chris@4	2823 send me a bug report. Now, it's just amazing how many people
Chris@4	2824 will send me a bug report saying something like:</para>
Chris@4	2825
Chris@4	2826 <programlisting>
Chris@4	2827 bzip2 crashed with segmentation fault on my machine
Chris@4	2828 </programlisting>
Chris@4	2829
Chris@4	2830 <para>and absolutely nothing else. Needless to say, a such a
Chris@4	2831 report is <emphasis>totally, utterly, completely and
Chris@4	2832 comprehensively 100% useless; a waste of your time, my time, and
Chris@4	2833 net bandwidth</emphasis>. With no details at all, there's no way
Chris@4	2834 I can possibly begin to figure out what the problem is.</para>
Chris@4	2835
Chris@4	2836 <para>The rules of the game are: facts, facts, facts. Don't omit
Chris@4	2837 them because "oh, they won't be relevant". At the bare
Chris@4	2838 minimum:</para>
Chris@4	2839
Chris@4	2840 <programlisting>
Chris@4	2841 Machine type. Operating system version.
Chris@4	2842 Exact version of bzip2 (do bzip2 -V).
Chris@4	2843 Exact version of the compiler used.
Chris@4	2844 Flags passed to the compiler.
Chris@4	2845 </programlisting>
Chris@4	2846
Chris@4	2847 <para>However, the most important single thing that will help me
Chris@4	2848 is the file that you were trying to compress or decompress at the
Chris@4	2849 time the problem happened. Without that, my ability to do
Chris@4	2850 anything more than speculate about the cause, is limited.</para>
Chris@4	2851
Chris@4	2852 </sect1>
Chris@4	2853
Chris@4	2854
Chris@4	2855 <sect1 id="package" xreflabel="Did you get the right package?">
Chris@4	2856 <title>Did you get the right package?</title>
Chris@4	2857
Chris@4	2858 <para><computeroutput>bzip2</computeroutput> is a resource hog.
Chris@4	2859 It soaks up large amounts of CPU cycles and memory. Also, it
Chris@4	2860 gives very large latencies. In the worst case, you can feed many
Chris@4	2861 megabytes of uncompressed data into the library before getting
Chris@4	2862 any compressed output, so this probably rules out applications
Chris@4	2863 requiring interactive behaviour.</para>
Chris@4	2864
Chris@4	2865 <para>These aren't faults of my implementation, I hope, but more
Chris@4	2866 an intrinsic property of the Burrows-Wheeler transform
Chris@4	2867 (unfortunately). Maybe this isn't what you want.</para>
Chris@4	2868
Chris@4	2869 <para>If you want a compressor and/or library which is faster,
Chris@4	2870 uses less memory but gets pretty good compression, and has
Chris@4	2871 minimal latency, consider Jean-loup Gailly's and Mark Adler's
Chris@4	2872 work, <computeroutput>zlib-1.2.1</computeroutput> and
Chris@4	2873 <computeroutput>gzip-1.2.4</computeroutput>. Look for them at
Chris@4	2874 <ulink url="http://www.zlib.org">http://www.zlib.org</ulink> and
Chris@4	2875 <ulink url="http://www.gzip.org">http://www.gzip.org</ulink>
Chris@4	2876 respectively.</para>
Chris@4	2877
Chris@4	2878 <para>For something faster and lighter still, you might try Markus F
Chris@4	2879 X J Oberhumer's <computeroutput>LZO</computeroutput> real-time
Chris@4	2880 compression/decompression library, at
Chris@4	2881 <ulink url="http://www.oberhumer.com/opensource">http://www.oberhumer.com/opensource</ulink>.</para>
Chris@4	2882
Chris@4	2883 </sect1>
Chris@4	2884
Chris@4	2885
Chris@4	2886
Chris@4	2887 <sect1 id="reading" xreflabel="Further Reading">
Chris@4	2888 <title>Further Reading</title>
Chris@4	2889
Chris@4	2890 <para><computeroutput>bzip2</computeroutput> is not research
Chris@4	2891 work, in the sense that it doesn't present any new ideas.
Chris@4	2892 Rather, it's an engineering exercise based on existing
Chris@4	2893 ideas.</para>
Chris@4	2894
Chris@4	2895 <para>Four documents describe essentially all the ideas behind
Chris@4	2896 <computeroutput>bzip2</computeroutput>:</para>
Chris@4	2897
Chris@4	2898 <literallayout>Michael Burrows and D. J. Wheeler:
Chris@4	2899 "A block-sorting lossless data compression algorithm"
Chris@4	2900 10th May 1994.
Chris@4	2901 Digital SRC Research Report 124.
Chris@4	2902 ftp://ftp.digital.com/pub/DEC/SRC/research-reports/SRC-124.ps.gz
Chris@4	2903 If you have trouble finding it, try searching at the
Chris@4	2904 New Zealand Digital Library, http://www.nzdl.org.
Chris@4	2905
Chris@4	2906 Daniel S. Hirschberg and Debra A. LeLewer
Chris@4	2907 "Efficient Decoding of Prefix Codes"
Chris@4	2908 Communications of the ACM, April 1990, Vol 33, Number 4.
Chris@4	2909 You might be able to get an electronic copy of this
Chris@4	2910 from the ACM Digital Library.
Chris@4	2911
Chris@4	2912 David J. Wheeler
Chris@4	2913 Program bred3.c and accompanying document bred3.ps.
Chris@4	2914 This contains the idea behind the multi-table Huffman coding scheme.
Chris@4	2915 ftp://ftp.cl.cam.ac.uk/users/djw3/
Chris@4	2916
Chris@4	2917 Jon L. Bentley and Robert Sedgewick
Chris@4	2918 "Fast Algorithms for Sorting and Searching Strings"
Chris@4	2919 Available from Sedgewick's web page,
Chris@4	2920 www.cs.princeton.edu/~rs
Chris@4	2921 </literallayout>
Chris@4	2922
Chris@4	2923 <para>The following paper gives valuable additional insights into
Chris@4	2924 the algorithm, but is not immediately the basis of any code used
Chris@4	2925 in bzip2.</para>
Chris@4	2926
Chris@4	2927 <literallayout>Peter Fenwick:
Chris@4	2928 Block Sorting Text Compression
Chris@4	2929 Proceedings of the 19th Australasian Computer Science Conference,
Chris@4	2930 Melbourne, Australia. Jan 31 - Feb 2, 1996.
Chris@4	2931 ftp://ftp.cs.auckland.ac.nz/pub/peter-f/ACSC96paper.ps</literallayout>
Chris@4	2932
Chris@4	2933 <para>Kunihiko Sadakane's sorting algorithm, mentioned above, is
Chris@4	2934 available from:</para>
Chris@4	2935
Chris@4	2936 <literallayout>http://naomi.is.s.u-tokyo.ac.jp/~sada/papers/Sada98b.ps.gz
Chris@4	2937 </literallayout>
Chris@4	2938
Chris@4	2939 <para>The Manber-Myers suffix array construction algorithm is
Chris@4	2940 described in a paper available from:</para>
Chris@4	2941
Chris@4	2942 <literallayout>http://www.cs.arizona.edu/people/gene/PAPERS/suffix.ps
Chris@4	2943 </literallayout>
Chris@4	2944
Chris@4	2945 <para>Finally, the following papers document some
Chris@4	2946 investigations I made into the performance of sorting
Chris@4	2947 and decompression algorithms:</para>
Chris@4	2948
Chris@4	2949 <literallayout>Julian Seward
Chris@4	2950 On the Performance of BWT Sorting Algorithms
Chris@4	2951 Proceedings of the IEEE Data Compression Conference 2000
Chris@4	2952 Snowbird, Utah. 28-30 March 2000.
Chris@4	2953
Chris@4	2954 Julian Seward
Chris@4	2955 Space-time Tradeoffs in the Inverse B-W Transform
Chris@4	2956 Proceedings of the IEEE Data Compression Conference 2001
Chris@4	2957 Snowbird, Utah. 27-29 March 2001.
Chris@4	2958 </literallayout>
Chris@4	2959
Chris@4	2960 </sect1>
Chris@4	2961
Chris@4	2962 </chapter>
Chris@4	2963
Chris@4	2964 </book>

Mercurial > hg > sv-dependency-builds

annotate src/bzip2-1.0.6/manual.xml @ 23:619f715526df sv_v2.1