std.uuid
Category | Functions |
---|---|
Parsing UUIDs | parseUUID UUID UUIDParsingException uuidRegex |
Generating UUIDs | sha1UUID randomUUID md5UUID |
Using UUIDs | UUID.uuidVersion UUID.variant UUID.toString UUID.data UUID.swap UUID.opEquals UUID.opCmp UUID.toHash |
UUID namespaces | dnsNamespace urlNamespace oidNamespace x500Namespace |
Source std/uuid.d
import std.uuid; UUID[] ids; ids ~= randomUUID(); ids ~= md5UUID("test.name.123"); ids ~= sha1UUID("test.name.123"); foreach (entry; ids) { writeln(entry.variant); // UUID.Variant.rfc4122 } writeln(ids[0].uuidVersion); // UUID.Version.randomNumberBased writeln(ids[1].toString()); // "22390768-cced-325f-8f0f-cfeaa19d0ccd" assert(ids[1].data == [34, 57, 7, 104, 204, 237, 50, 95, 143, 15, 207, 234, 161, 157, 12, 205]); UUID id; assert(id.empty);
- struct
UUID
; - Examples:
UUID id; assert(id.empty); id = randomUUID; assert(!id.empty); id = UUID(cast(ubyte[16]) [138, 179, 6, 14, 44, 186, 79, 35, 183, 76, 181, 45, 179, 189, 251, 70]); writeln(id.toString()); // "8ab3060e-2cba-4f23-b74c-b52db3bdfb46"
- enum
Variant
: int; - RFC 4122 defines different internal data layouts for UUIDs. These are the UUID formats supported by this module. It's possible to read, compare and use all these Variants, but UUIDs generated by this module will always be in rfc4122 format.
Note Do not confuse this with std.variant.Variant.
ncs
- NCS backward compatibility
rfc4122
- Defined in RFC 4122 document
microsoft
- Microsoft Corporation backward compatibility
future
- Reserved for future use
- enum
Version
: int; - RFC 4122 defines different UUID versions. The version shows how a UUID was generated, e.g. a version 4 UUID was generated from a random number, a version 3 UUID from an MD5 hash of a name.
Note All of these UUID versions can be read and processed by std.uuid, but only version 3, 4 and 5 UUIDs can be generated.
unknown
- Unknown version
timeBased
- Version 1
dceSecurity
- Version 2
nameBasedMD5
- Version 3 (Name based + MD5)
randomNumberBased
- Version 4 (Random)
nameBasedSHA1
- Version 5 (Name based + SHA-1)
- ubyte[16]
data
; - It is sometimes useful to get or set the 16 bytes of a UUID directly.
Note UUID uses a 16-ubyte representation for the UUID data. RFC 4122 defines a UUID as a special structure in big-endian format. These 16-ubytes always equal the big-endian structure defined in RFC 4122.
Example
auto rawData = uuid.data; //get data rawData[0] = 1; //modify uuid.data = rawData; //set data uuid.data[1] = 2; //modify directly
- pure nothrow @nogc @safe this(ref scope const ubyte[16]
uuidData
);
pure nothrow @nogc @safe this(const ubyte[16]uuidData
); - Construct a UUID struct from the 16 byte representation of a UUID.Examples:
enum ubyte[16] data = [0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15]; auto uuid = UUID(data); enum ctfe = UUID(data); writeln(uuid.data); // data writeln(ctfe.data); // data
- pure @safe this(T...)(T
uuidData
)
if (uuidData
.length == 16 && allSatisfy!(isIntegral, T)); - Construct a UUID struct from the 16 byte representation of a UUID. Variadic constructor to allow a simpler syntax, see examples. You need to pass exactly 16 ubytes.Examples:
auto tmp = UUID(0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15); assert(tmp.data == cast(ubyte[16])[0,1,2,3,4,5,6,7,8,9,10,11, 12,13,14,15]);
- this(T)(in T[]
uuid
)
if (isSomeChar!(Unqual!T)); - Parse a UUID from its canonical string form. An UUID in its canonical form looks like this: 8ab3060e-2cba-4f23-b74c-b52db3bdfb46Throws:UUIDParsingException if the input is invalid
CTFE This function is supported in CTFE code. Note that error messages caused by a malformed UUID parsed at compile time can be cryptic, but errors are detected and reported at compile time.
Note This is a strict parser. It only accepts the pattern above. It doesn't support any leading or trailing characters. It only accepts characters used for hex numbers and the string must have hyphens exactly like above.
For a less strict parser, see parseUUIDExamples:auto id = UUID("8AB3060E-2cba-4f23-b74c-b52db3bdfb46"); assert(id.data == [138, 179, 6, 14, 44, 186, 79, 35, 183, 76, 181, 45, 179, 189, 251, 70]); writeln(id.toString()); // "8ab3060e-2cba-4f23-b74c-b52db3bdfb46" //Can also be used in CTFE, for example as UUID literals: enum ctfeID = UUID("8ab3060e-2cba-4f23-b74c-b52db3bdfb46"); //here parsing is done at compile time, no runtime overhead!
- const pure nothrow @nogc @property @trusted bool
empty
(); - Returns true if and only if the UUID is equal to {00000000-0000-0000-0000-000000000000}Examples:
UUID id; assert(id.empty); id = UUID("00000000-0000-0000-0000-000000000001"); assert(!id.empty);
- const pure nothrow @nogc @property @safe Variant
variant
(); - RFC 4122 defines different internal data layouts for UUIDs. Returns the format used by this UUID.
Note Do not confuse this with std.variant.Variant. The type of this property is `std.uuid.UUID.Variant`.
See Also:Examples:assert(UUID("8ab3060e-2cba-4f23-b74c-b52db3bdfb46").variant == UUID.Variant.rfc4122);
- const pure nothrow @nogc @property @safe Version
uuidVersion
(); - RFC 4122 defines different UUID versions. The version shows how a UUID was generated, e.g. a version 4 UUID was generated from a random number, a version 3 UUID from an MD5 hash of a name. Returns the version used by this UUID.See Also:Examples:
assert(UUID("8ab3060e-2cba-4f23-b74c-b52db3bdfb46").uuidVersion == UUID.Version.randomNumberBased);
- pure nothrow @nogc @safe void
swap
(ref UUIDrhs
); - Swap the data of this UUID with the data of rhs.Examples:
immutable ubyte[16] data = [0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15]; UUID u1; UUID u2 = UUID(data); u1.swap(u2); writeln(u1); // UUID(data) writeln(u2); // UUID.init
- const pure nothrow @nogc @safe bool
opEquals
(const UUIDs
);
const pure nothrow @nogc @safe boolopEquals
(ref scope const UUIDs
);
const pure nothrow @nogc @safe intopCmp
(const UUIDs
);
const pure nothrow @nogc @safe intopCmp
(ref scope const UUIDs
);
pure nothrow @nogc @safe UUIDopAssign
(const UUIDs
);
pure nothrow @nogc @safe UUIDopAssign
(ref scope const UUIDs
);
const pure nothrow @nogc @safe size_ttoHash
(); - All of the standard numeric operators are defined for the UUID struct.Examples:
//compare UUIDs writeln(UUID("00000000-0000-0000-0000-000000000000")); // UUID.init //UUIDs in associative arrays: int[UUID] test = [UUID("8a94f585-d180-44f7-8929-6fca0189c7d0") : 1, UUID("7c351fd4-b860-4ee3-bbdc-7f79f3dfb00a") : 2, UUID("9ac0a4e5-10ee-493a-86fc-d29eeb82ecc1") : 3]; writeln(test[UUID("9ac0a4e5-10ee-493a-86fc-d29eeb82ecc1")]); // 3 //UUIDS can be sorted: import std.algorithm; UUID[] ids = [UUID("8a94f585-d180-44f7-8929-6fca0189c7d0"), UUID("7c351fd4-b860-4ee3-bbdc-7f79f3dfb00a"), UUID("9ac0a4e5-10ee-493a-86fc-d29eeb82ecc1")]; sort(ids);
- const void
toString
(Writer)(scope Writersink
); - Write the UUID into
sink
as an ASCII string in the canonical form, which is 36 characters in the form "xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx"Parameters:Writer sink
OutputRange or writeable array at least 36 entries long - const pure nothrow @trusted string
toString
(); - Return the UUID as a string in the canonical form.Examples:
immutable str = "8ab3060e-2cba-4f23-b74c-b52db3bdfb46"; auto id = UUID(str); writeln(id.toString()); // str
- pure nothrow @nogc @safe UUID
md5UUID
(const(char[])name
, const UUIDnamespace
= UUID.init);
pure nothrow @nogc @safe UUIDmd5UUID
(const(ubyte[])data
, const UUIDnamespace
= UUID.init); - This function generates a name based (Version 3) UUID from a namespace UUID and a name. If no namespace UUID was passed, the empty UUID UUID.init is used.
Note The default namespaces (dnsNamespace, ...) defined by this module should be used when appropriate.
RFC 4122 recommends to use Version 5 UUIDs (SHA-1) instead of Version 3 UUIDs (MD5) for new applications.CTFE CTFE is not supported.
Note RFC 4122 isn't very clear on how UUIDs should be generated from names. It is possible that different implementations return different UUIDs for the same input, so be warned. The implementation for UTF-8 strings and byte arrays used by std.uuid is compatible with Boost's implementation. std.uuid guarantees that the same input to this function will generate the same output at any time, on any system (this especially means endianness doesn't matter).
Note This function does not provide overloads for wstring and dstring, as there's no clear answer on how that should be implemented. It could be argued, that string, wstring and dstring input should have the same output, but that wouldn't be compatible with Boost, which generates different output for strings and wstrings. It's always possible to pass wstrings and dstrings by using the ubyte[] function overload (but be aware of endianness issues!).
Examples://Use default UUID.init namespace auto simpleID = md5UUID("test.uuid.any.string"); //use a name-based id as namespace auto namespace = md5UUID("my.app"); auto id = md5UUID("some-description", namespace);
- pure nothrow @nogc @safe UUID
sha1UUID
(scope const(char)[]name
, scope const UUIDnamespace
= UUID.init);
pure nothrow @nogc @safe UUIDsha1UUID
(scope const(ubyte)[]data
, scope const UUIDnamespace
= UUID.init); - This function generates a name based (Version 5) UUID from a namespace UUID and a name. If no namespace UUID was passed, the empty UUID UUID.init is used.
Note The default namespaces (dnsNamespace, ...) defined by this module should be used when appropriate.
CTFE CTFE is not supported.
Note RFC 4122 isn't very clear on how UUIDs should be generated from names. It is possible that different implementations return different UUIDs for the same input, so be warned. The implementation for UTF-8 strings and byte arrays used by std.uuid is compatible with Boost's implementation. std.uuid guarantees that the same input to this function will generate the same output at any time, on any system (this especially means endianness doesn't matter).
Note This function does not provide overloads for wstring and dstring, as there's no clear answer on how that should be implemented. It could be argued, that string, wstring and dstring input should have the same output, but that wouldn't be compatible with Boost, which generates different output for strings and wstrings. It's always possible to pass wstrings and dstrings by using the ubyte[] function overload (but be aware of endianness issues!).
Examples://Use default UUID.init namespace auto simpleID = sha1UUID("test.uuid.any.string"); //use a name-based id as namespace auto namespace = sha1UUID("my.app"); auto id = sha1UUID("some-description", namespace);
- @safe UUID
randomUUID
();
UUIDrandomUUID
(RNG)(ref RNGrandomGen
)
if (isInputRange!RNG && isIntegral!(ElementType!RNG)); - This function generates a random number based UUID from a random number generator.This function is not supported at compile time.Parameters:
RNG randomGen
uniform RNG See Also:Examples:import std.random : Xorshift192, unpredictableSeed; //simple call auto uuid = randomUUID(); //provide a custom RNG. Must be seeded manually. Xorshift192 gen; gen.seed(unpredictableSeed); auto uuid3 = randomUUID(gen);
- UUID
parseUUID
(T)(TuuidString
)
if (isSomeString!T);
UUIDparseUUID
(Range)(ref RangeuuidRange
)
if (isInputRange!Range && isSomeChar!(ElementType!Range)); - This is a less strict parser compared to the parser used in the UUID constructor. It enforces the following rules:
- hex numbers are always two hexdigits([0-9a-fA-F])
- there must be exactly 16 such pairs in the input, not less, not more
- there can be exactly one dash between two hex-pairs, but not more
- there can be multiple characters enclosing the 16 hex pairs, as long as these characters do not contain [0-9a-fA-F]
Note Like most parsers, it consumes its argument. This means:
string s = "8AB3060E-2CBA-4F23-b74c-B52Db3BDFB46"; parseUUID(s); assert(s == "");
Throws:UUIDParsingException if the input is invalidCTFE This function is supported in CTFE code. Note that error messages caused by a malformed UUID parsed at compile time can be cryptic, but errors are detected and reported at compile time.
Examples:auto id = parseUUID("8AB3060E-2CBA-4F23-b74c-B52Db3BDFB46"); //no dashes id = parseUUID("8ab3060e2cba4f23b74cb52db3bdfb46"); //dashes at different positions id = parseUUID("8a-b3-06-0e2cba4f23b74c-b52db3bdfb-46"); //leading / trailing characters id = parseUUID("{8ab3060e-2cba-4f23-b74c-b52db3bdfb46}"); //unicode id = parseUUID("ü8ab3060e2cba4f23b74cb52db3bdfb46ü"); //multiple trailing/leading characters id = parseUUID("///8ab3060e2cba4f23b74cb52db3bdfb46||"); //Can also be used in CTFE, for example as UUID literals: enum ctfeID = parseUUID("8ab3060e-2cba-4f23-b74c-b52db3bdfb46"); //here parsing is done at compile time, no runtime overhead!
- enum UUID
dnsNamespace
; - Default namespace from RFC 4122Name string is a fully-qualified domain name
- enum UUID
urlNamespace
; - Default namespace from RFC 4122Name string is a URL
- enum UUID
oidNamespace
; - Default namespace from RFC 4122Name string is an ISO OID
- enum UUID
x500Namespace
; - Default namespace from RFC 4122Name string is an X.500 DN (in DER or a text output format)
- enum string
uuidRegex
; - Regex string to extract UUIDs from text.Examples:
import std.algorithm; import std.regex; string test = "Lorem ipsum dolor sit amet, consetetur "~ "6ba7b814-9dad-11d1-80b4-00c04fd430c8 sadipscing \n"~ "elitr, sed diam nonumy eirmod tempor invidunt ut labore et dolore \r\n"~ "magna aliquyam erat, sed diam voluptua. "~ "8ab3060e-2cba-4f23-b74c-b52db3bdfb46 At vero eos et accusam et "~ "justo duo dolores et ea rebum."; auto r = regex(uuidRegex, "g"); UUID[] found; foreach (c; match(test, r)) { found ~= UUID(c.hit); } assert(found == [ UUID("6ba7b814-9dad-11d1-80b4-00c04fd430c8"), UUID("8ab3060e-2cba-4f23-b74c-b52db3bdfb46"), ]);
- class
UUIDParsingException
: object.Exception; - This exception is thrown if an error occurs when parsing a UUID from a string.Examples:
import std.exception : collectException; const inputUUID = "this-is-an-invalid-uuid"; auto ex = collectException!UUIDParsingException(UUID(inputUUID)); assert(ex !is null); // check that exception was thrown writeln(ex.input); // inputUUID writeln(ex.position); // 0 writeln(ex.reason); // UUIDParsingException.Reason.tooLittle
- enum
Reason
: int;
Reasonreason
; - The reason why parsing the UUID string failed (if known)
unknown
tooLittle
- The passed in input was correct, but more input was expected.
tooMuch
- The input data is too long (There's no guarantee the first part of the data is valid)
invalidChar
- Encountered an invalid character
- string
input
; - The original input string which should have been parsed.
- size_t
position
; - The position in the input string where the error occurred.