bits | ||
ctest | ||
misc | ||
perf | ||
.gitignore | ||
.jscs.json | ||
.npmignore | ||
.travis.yml | ||
crc32.js | ||
LICENSE | ||
Makefile | ||
package.json | ||
perf.txt | ||
README.md | ||
test.js |
crc32
Standard CRC-32 algorithm implementation in JS (for the browser and nodejs). Emphasis on correctness and performance.
Installation
In nodejs:
npm install crc-32
In the browser:
<script lang="javascript" src="crc32.js"></script>
The browser exposes a variable CRC32
Usage
-
CRC32.buf(byte array or buffer)
assumes the argument is a set of 8 bit unsigned integers (e.g. nodejsBuffer
or simple array of ints) -
CRC32.bstr(binary string)
interprets the argument as a binary string where thei
-th byte isstr.charCodeAt(i)
-
CRC32.str(string)
interprets the argument as a standard JS string
Testing
make test
will run the nodejs-based test. To run the in-browser tests, run a
local server and go to the ctest
directory. To update the browser artifacts,
run make ctest
.
Performance
make perf
will run algorithmic performance tests (which should justify certain
decisions in the code).
make perf-all
compares the performance of various crc-32 algorithms that
implement the correct form (note that the SSE intrinsic is designed for the
CRC32C checksum and uses a different polynomial).
Unexpected code patterns were based on performance testing in node and browser:
In the future ...
-
Specifying an arbitrary initial CRC value
-
Supporting different polynomials (e.g. CRC32C)
License
Please consult the attached LICENSE file for details. All rights not explicitly granted by the Apache 2.0 license are reserved by the Original Author.