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Cyclic Redundancy Check (32-bit) implementation.

Category Functions
Template API CRC32 
OOP API CRC32Digest 
Helpers crcHexString  crc32Of 

This module conforms to the APIs defined in std.digest.digest. To understand the differences between the template and the OOP API, see std.digest.digest.

This module publicly imports std.digest.digest and can be used as a stand-alone module.

Note: CRCs are usually printed with the MSB first. When using std.digest.digest.toHexString the result will be in an unexpected order. Use std.digest.digest.toHexString's optional order parameter to specify decreasing order for the correct result. The crcHexString alias can also be used for this purpose.

Pavel "EvilOne" Minayev, Alex Rønne Petersen, Johannes Pfau

References: Wikipedia on CRC

Source: std/digest/crc.d

Implements the 'common' IEEE CRC32 variant (LSB-first order, Initial value uint.max, complement result)

CTFE: Digests do not work in CTFE

struct CRC32;
Template API CRC32 implementation. See std.digest.digest for differences between template and OOP API.
//Simple example, hashing a string using crc32Of helper function
ubyte[4] hash = crc32Of("abc");
//Let's get a hash string
assert(crcHexString(hash) == "352441C2");
//Using the basic API
CRC32 hash;
ubyte[1024] data;
//Initialize data here...
ubyte[4] result = hash.finish();
//Let's use the template features:
//Note: When passing a CRC32 to a function, it must be passed by reference!
void doSomething(T)(ref T hash) if(isDigest!T)
CRC32 crc;
assert(crcHexString(crc.finish()) == "D202EF8D");
pure nothrow @nogc @trusted void put(scope const(ubyte)[] data...);
Use this to feed the digest with data. Also implements the std.range.primitives.isOutputRange interface for ubyte and const(ubyte)[].
CRC32 dig;
dig.put(cast(ubyte)0); //single ubyte
dig.put(cast(ubyte)0, cast(ubyte)0); //variadic
ubyte[10] buf;
dig.put(buf); //buffer
pure nothrow @nogc @safe void start();
Used to initialize the CRC32 digest.

Note: For this CRC32 Digest implementation calling start after default construction is not necessary. Calling start is only necessary to reset the Digest.

Generic code which deals with different Digest types should always call start though.
CRC32 digest;
//digest.start(); //Not necessary
pure nothrow @nogc @safe ubyte[4] finish();
Returns the finished CRC32 hash. This also calls start to reset the internal state.
//Simple example
CRC32 hash;
ubyte[4] result = hash.finish();
const pure nothrow @nogc @safe ubyte[4] peek();
Works like finish but does not reset the internal state, so it's possible to continue putting data into this CRC32 after a call to peek.
ubyte[4] crc32Of(T...)(T data);
This is a convenience alias for std.digest.digest.digest using the CRC32 implementation.
T data InputRange of ElementType implicitly convertible to ubyte, ubyte[] or ubyte[num] or one or more arrays of any type.
CRC32 of data
ubyte[] data = [4,5,7,25];
assert(data.crc32Of == [167, 180, 199, 131]);

import std.utf : byChar;
assert("hello"d.byChar.crc32Of == [134, 166, 16, 54]);

ubyte[4] hash = "abc".crc32Of();
assert(hash == digest!CRC32("ab", "c"));

import std.range : iota;
enum ubyte S = 5, F = 66;
assert(iota(S, F).crc32Of == [59, 140, 234, 154]);
alias crcHexString = crcHexString;
alias crcHexString = std.digest.digest.toHexString!(cast(Order)true, 16LU, cast(LetterCase)false).toHexString;
This is a convenience alias for std.digest.digest.toHexString producing the usual CRC32 string output.
alias CRC32Digest = std.digest.digest.WrapperDigest!(CRC32).WrapperDigest;
OOP API CRC32 implementation. See std.digest.digest for differences between template and OOP API.
This is an alias for std.digest.digest.WrapperDigest!CRC32, see there for more information.
//Simple example, hashing a string using Digest.digest helper function
auto crc = new CRC32Digest();
ubyte[] hash = crc.digest("abc");
//Let's get a hash string
assert(crcHexString(hash) == "352441C2");
//Let's use the OOP features:
void test(Digest dig)
auto crc = new CRC32Digest();

//Let's use a custom buffer:
ubyte[4] buf;
ubyte[] result = crc.finish(buf[]);
assert(crcHexString(result) == "D202EF8D");
//Simple example
auto hash = new CRC32Digest();
ubyte[] result = hash.finish();
//using a supplied buffer
ubyte[4] buf;
auto hash = new CRC32Digest();
ubyte[] result = hash.finish(buf[]);
//The result is now in result (and in buf. If you pass a buffer which is bigger than
//necessary, result will have the correct length, but buf will still have it's original