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// Code generated by running "go generate". DO NOT EDIT.
// Copyright 2019 The Wuffs Authors.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// https://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package main
const usageStr = `ractool manipulates Random Access Compression (RAC) files.
Random access means that it is possible to reconstruct part of the decompressed
file, starting at a given offset into the decompressed file, without always
having to first decompress all of the preceding data.
In comparison to some other popular compression formats, all four of the Zlib,
Brotli, LZ4 and Zstandard specifications explicitly contain the identical
phrase: "the data format defined by this specification does not attempt to
allow random access to compressed data".
See the RAC specification for more details:
https://github.com/google/wuffs/blob/main/doc/spec/rac-spec.md
Usage:
ractool [flags] [input_filename]
If no input_filename is given, stdin is used. Either way, output is written to
stdout.
The flags should include exactly one of -decode or -encode.
By default, a RAC file's chunks are decoded in parallel, using more total CPU
time to substantially reduce the real (wall clock) time taken. Batch (instead
of interactive) processing of many RAC files may want to pass -singlethreaded
to prefer minimizing total CPU time.
When encoding, the input is partitioned into chunks and each chunk is
compressed independently. You can specify the target chunk size in terms of
either its compressed size or decompressed size. By default (if both
-cchunksize and -dchunksize are zero), a 64KiB -dchunksize is used.
You can also specify a -cpagesize, which is similar to but not exactly the same
concept as alignment. If non-zero, padding is inserted into the output to
minimize the number of pages that each chunk occupies. Look for "CPageSize" in
the "package rac" documentation for more details:
https://godoc.org/github.com/google/wuffs/lib/rac
A RAC file consists of an index and the chunks. The index may be either at the
start or at the end of the file. At the start results in slightly smaller and
slightly more efficient RAC files, but the encoding process needs more memory
or temporary disk space.
Examples:
ractool -decode foo.rac | sha256sum
ractool -decode -drange=400..500 foo.rac
ractool -encode foo.dat > foo.rac
ractool -encode -codec=zlib -dchunksize=256k foo.dat > foo.rac
The "400..500" flag value means the 100 bytes ranging from a DSpace offset
(offset in terms of decompressed bytes, not compressed bytes) of 400
(inclusive) to 500 (exclusive). Either or both bounds may be omitted, similar
to Rust slice syntax. A "400.." flag value would mean ranging from 400
(inclusive) to the end of the decompressed file.
The "256k" flag value means 256 kibibytes (262144 bytes), as does "256K".
Similarly, "1m" and "1M" both mean 1 mebibyte (1048576 bytes).
General Flags:
-decode
whether to decode the input
-encode
whether to encode the input
-quiet
whether to suppress messages
Decode-Related Flags:
-drange
the "i..j" range to decompress, "..8" means the first 8 bytes
-singlethreaded
whether to decode on a single execution thread
Encode-Related Flags:
-cchunksize
the chunk size (in CSpace)
-codec
the compression codec (default "zstd")
-cpagesize
the page size (in CSpace)
-dchunksize
the chunk size (in DSpace)
-indexlocation
the index location, "start" or "end" (default "start")
-resources
comma-separated list of resource files, such as shared dictionaries
-tmpdir
directory (e.g. $TMPDIR) for intermediate work; empty means in-memory
Codecs:
lz4
zlib
zstd
Only zlib is fully supported. The others will work for the flags' default
values, but they (1) don't support -cchunksize, only -dchunksize, and (2) don't
support -resources. See https://github.com/google/wuffs/issues/23 for more
details.
Installation:
Like any other implemented-in-Go program, to install the ractool program:
go install github.com/google/wuffs/cmd/ractool
Extended Example:
--------
$ # Fetch and unzip the enwik8 test file, a sample of Wikipedia.
$ wget http://mattmahoney.net/dc/enwik8.zip
$ unzip enwik8.zip
$ # Also zstd-encode it, as a reference point. Using compression level 15,
$ # instead of the default of 3, matches what ractool uses.
$ zstd -15 enwik8
$ # Create a shared dictionary. Using zstd-the-program produces a
$ # dictionary that is especially useful for zstd-the-format, but it can
$ # also be used by other formats as a 'raw' prefix dictionary.
$ zstd -15 --train -B64K --maxdict=32K -o dict.dat enwik8
$ # RAC-encode it with various codecs, with and without that dictionary.
$ ractool -encode -codec=zlib -resources=dict.dat enwik8 > zlib.withdict.rac
$ ractool -encode -codec=zlib enwik8 > zlib.sansdict.rac
$ ractool -encode -codec=zstd -resources=dict.dat enwik8 > zstd.withdict.rac
$ ractool -encode -codec=zstd enwik8 > zstd.sansdict.rac
$ ractool -encode -codec=lz4 enwik8 > lz4.sansdict.rac
$ # The size overhead (comparing RAC+Xxx to Xxx) is about 0.2% (with) or
$ # 4.8% (sans) for zlib/zip and about 13% (with) or 28% (sans) for zstd,
$ # depending on whether we used a shared dictionary (with or sans).
$ ls -l
total 362080
-rw-r----- 1 tao tao 32768 Oct 25 10:10 dict.dat
-rw-r----- 1 tao tao 100000000 Jun 2 2011 enwik8
-rw-r----- 1 tao tao 36445475 Sep 2 2011 enwik8.zip
-rw-r----- 1 tao tao 29563109 Jun 2 2011 enwik8.zst
-rw-r----- 1 tao tao 58813316 Oct 25 10:17 lz4.sansdict.rac
-rw-r----- 1 tao tao 38185178 Oct 25 10:16 zlib.sansdict.rac
-rw-r----- 1 tao tao 36505786 Oct 25 10:16 zlib.withdict.rac
-rw-r----- 1 tao tao 37820491 Oct 25 10:17 zstd.sansdict.rac
-rw-r----- 1 tao tao 33386395 Oct 25 10:17 zstd.withdict.rac
$ # Check that the decompressed forms all match.
$ cat enwik8 | sha256sum
2b49720ec4d78c3c9fabaee6e4179a5e997302b3a70029f30f2d582218c024a8 -
$ unzip -p enwik8.zip | sha256sum
2b49720ec4d78c3c9fabaee6e4179a5e997302b3a70029f30f2d582218c024a8 -
$ unzstd --stdout enwik8.zst | sha256sum
2b49720ec4d78c3c9fabaee6e4179a5e997302b3a70029f30f2d582218c024a8 -
$ for f in *.rac; do ractool -decode $f | sha256sum; done
2b49720ec4d78c3c9fabaee6e4179a5e997302b3a70029f30f2d582218c024a8 -
2b49720ec4d78c3c9fabaee6e4179a5e997302b3a70029f30f2d582218c024a8 -
2b49720ec4d78c3c9fabaee6e4179a5e997302b3a70029f30f2d582218c024a8 -
2b49720ec4d78c3c9fabaee6e4179a5e997302b3a70029f30f2d582218c024a8 -
2b49720ec4d78c3c9fabaee6e4179a5e997302b3a70029f30f2d582218c024a8 -
$ # Compare how long it takes to produce 8 bytes from the middle of
$ # the decompressed file, which happens to be the word "Business".
$ time unzip -p enwik8.zip | dd if=/dev/stdin status=none \
> iflag=skip_bytes,count_bytes skip=50000000 count=8
Business
real 0m0.379s
user 0m0.410s
sys 0m0.080s
$ time unzstd --stdout enwik8.zst | dd if=/dev/stdin status=none \
> iflag=skip_bytes,count_bytes skip=50000000 count=8
Business
real 0m0.172s
user 0m0.141s
sys 0m0.103s
$ time ractool -decode -drange=50000000..50000008 zstd.withdict.rac
Business
real 0m0.004s
user 0m0.005s
sys 0m0.001s
$ # A RAC file's chunks can be decoded in parallel, unlike ZIP,
$ # substantially reducing the real (wall clock) time taken even
$ # though both of these files use DEFLATE (RFC 1951) compression.
$ #
$ # Comparing the -singlethreaded time suggests that zlib-the-library's
$ # DEFLATE implementation is faster than unzip's.
$ time unzip -p enwik8.zip > /dev/null
real 0m0.711s
user 0m0.690s
sys 0m0.021s
$ time ractool -decode -singlethreaded zlib.withdict.rac > /dev/null
real 0m0.519s
user 0m0.513s
sys 0m0.017s
$ time ractool -decode zlib.withdict.rac > /dev/null
real 0m0.052s
user 0m0.678s
sys 0m0.036s
$ # A similar comparison can be made for Zstandard.
$ time unzstd --stdout enwik8.zst > /dev/null
real 0m0.203s
user 0m0.187s
sys 0m0.016s
$ time ractool -decode -singlethreaded zstd.withdict.rac > /dev/null
real 0m0.235s
user 0m0.206s
sys 0m0.033s
$ time ractool -decode zstd.withdict.rac > /dev/null
real 0m0.037s
user 0m0.374s
sys 0m0.080s
$ # For reference, LZ4 numbers.
$ time ractool -decode -singlethreaded lz4.sansdict.rac > /dev/null
real 0m0.072s
user 0m0.053s
sys 0m0.021s
$ time ractool -decode lz4.sansdict.rac > /dev/null
real 0m0.024s
user 0m0.097s
sys 0m0.034s
--------
`