PySide6.QtCore.QUuid¶
- class QUuid¶
The
QUuid
class stores a Universally Unique Identifier (UUID). More…Inherited by:
QBluetoothUuid
Synopsis¶
Methods¶
def
__init__()
def
__reduce__()
def
__repr__()
def
isNull()
def
__ne__()
def
__lt__()
def
__le__()
def
__eq__()
def
__gt__()
def
__ge__()
def
toByteArray()
def
toRfc4122()
def
toString()
def
variant()
def
version()
Static functions¶
def
createUuid()
def
createUuidV3()
def
createUuidV5()
def
fromBytes()
def
fromRfc4122()
def
fromString()
Note
This documentation may contain snippets that were automatically translated from C++ to Python. We always welcome contributions to the snippet translation. If you see an issue with the translation, you can also let us know by creating a ticket on https:/bugreports.qt.io/projects/PYSIDE
Detailed Description¶
Using Universally Unique IDentifiers (UUID) is a standard way to uniquely identify entities in a distributed computing environment. A UUID is a 16-byte (128-bit) number generated by some algorithm that is meant to guarantee that the UUID will be unique in the distributed computing environment where it is used. The acronym GUID is often used instead, Globally Unique IDentifiers, but it refers to the same thing.
Actually, the GUID is one variant of UUID. Multiple variants are in use. Each UUID contains a bit field that specifies which type (variant) of UUID it is. Call
variant()
to discover which type of UUID an instance ofQUuid
contains. It extracts the three most significant bits of byte 8 of the 16 bytes. InQUuid
, byte 8 isQUuid::data4[0]
. If you create instances ofQUuid
using the constructor that accepts all the numeric values as parameters, use the following table to set the three most significant bits of parameterb1
, which becomesQUuid::data4[0]
and contains the variant field in its three most significant bits. In the table, ‘x’ means don’t care.msb0
msb1
msb2
Variant
0
x
x
NCS (Network Computing System)
1
0
x
DCE (Distributed Computing Environment)
1
1
0
Microsoft (GUID)
1
1
1
Reserved for future expansion
If
variant()
returnsDCE
, the UUID also contains a version field in the four most significant bits ofQUuid::data3
, and you can callversion()
to discover which version yourQUuid
contains. If you create instances ofQUuid
using the constructor that accepts all the numeric values as parameters, use the following table to set the four most significant bits of parameterw2
, which becomesQUuid::data3
and contains the version field in its four most significant bits.msb0
msb1
msb2
msb3
Version
0
0
0
1
Time
0
0
1
0
Embedded POSIX
0
0
1
1
Md5(Name)
0
1
0
0
Random
0
1
0
1
Sha1
The field layouts for the DCE versions listed in the table above are specified in the Network Working Group UUID Specification.
Most platforms provide a tool for generating new UUIDs, e.g.
uuidgen
andguidgen
. You can also usecreateUuid()
. UUIDs generated bycreateUuid()
are of the random type. TheirVersion
bits are set toRandom
, and theirVariant
bits are set toDCE
. The rest of the UUID is composed of random numbers. Theoretically, this means there is a small chance that a UUID generated bycreateUuid()
will not be unique. But it is very ` <http://en.wikipedia.org/wiki/Universally_Unique_Identifier#Random_UUID_probability_of_duplicates>`_ small chance.UUIDs can be constructed from numeric values or from strings, or using the static
createUuid()
function. They can be converted to a string withtoString()
. UUIDs have avariant()
and aversion()
, and null UUIDs return true fromisNull()
.- class Variant¶
This enum defines the values used in the
variant field
of the UUID. The value in the variant field determines the layout of the 128-bit value.Constant
Description
QUuid.VarUnknown
Variant is unknown
QUuid.NCS
Reserved for NCS (Network Computing System) backward compatibility
QUuid.DCE
Distributed Computing Environment, the scheme used by
QUuid
QUuid.Microsoft
Reserved for Microsoft backward compatibility (GUID)
QUuid.Reserved
Reserved for future definition
- class Version¶
This enum defines the values used in the
version field
of the UUID. The version field is meaningful only if the value in thevariant field
isDCE
.Constant
Description
QUuid.VerUnknown
Version is unknown
QUuid.Time
Time-based, by using timestamp, clock sequence, and MAC network card address (if available) for the node sections
QUuid.EmbeddedPOSIX
DCE Security version, with embedded POSIX UUIDs
QUuid.Name
Name-based, by using values from a name for all sections
QUuid.Md5
Alias for Name
QUuid.Random
Random-based, by using random numbers for all sections
QUuid.Sha1
- class StringFormat¶
This enum is used by
toString
(StringFormat) to control the formatting of the string representation. The possible values are:Constant
Description
QUuid.WithBraces
The default,
toString()
will return five hex fields, separated by dashes and surrounded by braces. Example: {00000000-0000-0000-0000-000000000000}.QUuid.WithoutBraces
Only the five dash-separated fields, without the braces. Example: 00000000-0000-0000-0000-000000000000.
QUuid.Id128
Only the hex digits, without braces or dashes. Note that
QUuid
cannot parse this back again as input.
- __init__()¶
Creates the null UUID.
toString()
will output the null UUID as “{00000000-0000-0000-0000-000000000000}”.- __init__(string)
- Parameters:
string – str
Creates a
QUuid
object from the stringtext
, which must be formatted as five hex fields separated by ‘-’, e.g., “{xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx}” where each ‘x’ is a hex digit. The curly braces shown here are optional, but it is normal to include them. If the conversion fails, a null UUID is created. SeetoString()
for an explanation of how the five hex fields map to the public data members inQUuid
.Note
In Qt versions prior to 6.3, this constructor was an overload set consisting of
QString
,QByteArray
andconst char*
instead of one constructor takingQAnyStringView
.See also
toString()
QUuid()
- __init__(l, w1, w2, b1, b2, b3, b4, b5, b6, b7, b8)
- Parameters:
l – int
w1 – int
w2 – int
b1 – int
b2 – int
b3 – int
b4 – int
b5 – int
b6 – int
b7 – int
b8 – int
Warning
This section contains snippets that were automatically translated from C++ to Python and may contain errors.
Creates a UUID with the value specified by the parameters,
l
,w1
,w2
,b1
,b2
,b3
,b4
,b5
,b6
,b7
,b8
.Example:
# {67C8770B-44F1-410A-AB9A-F9B5446F13EE} IID_MyInterface = QUuid(0x67c8770b, 0x44f1, 0x410a, 0xab, 0x9a, 0xf9, 0xb5, 0x44, 0x6f, 0x13, 0xee)
- __reduce__()¶
- Return type:
str
- __repr__()¶
- Return type:
str
On any platform other than Windows, this function returns a new UUID with variant
DCE
and versionRandom
. On Windows, a GUID is generated using the Windows API and will be of the type that the API decides to create.- static createUuidV3(ns, baseData)¶
This function returns a new UUID with variant
DCE
and versionMd5
.ns
is the namespace andbaseData
is the basic data as described by RFC 4122.- static createUuidV5(ns, baseData)¶
This function returns a new UUID with variant
DCE
and versionSha1
.ns
is the namespace andbaseData
is the basic data as described by RFC 4122.- static fromBytes(bytes[, order=QSysInfo.BigEndian])¶
Reads 128 bits (16 bytes) from
bytes
using byte orderorder
and returns theQUuid
corresponding to those bytes. This function does the same asfromRfc4122()
if the byte orderorder
isBigEndian
.See also
Creates a
QUuid
object from the binary representation of the UUID, as specified by RFC 4122 section 4.1.2. SeetoRfc4122()
for a further explanation of the order ofbytes
required.The byte array accepted is NOT a human readable format.
If the conversion fails, a null UUID is created.
Note
In Qt versions prior to 6.3, this function took
QByteArray
, notQByteArrayView
.See also
toRfc4122()
QUuid()
fromBytes()
Creates a
QUuid
object from the stringstring
, which must be formatted as five hex fields separated by ‘-’, e.g., “{xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx}” where each ‘x’ is a hex digit. The curly braces shown here are optional, but it is normal to include them. If the conversion fails, a null UUID is returned. SeetoString()
for an explanation of how the five hex fields map to the public data members inQUuid
.Note
In Qt versions prior to 6.3, this function was an overload set consisting of
QStringView
andQLatin1StringView
instead of one function takingQAnyStringView
.See also
toString()
QUuid()
- isNull()¶
- Return type:
bool
Returns
true
if this is the null UUID {00000000-0000-0000-0000-000000000000}; otherwise returnsfalse
.Returns
true
iflhs
QUuid
and therhs
QUuid
are different; otherwise returnsfalse
.Returns
true
iflhs
QUuid
and therhs
QUuid
are identical; otherwise returnsfalse
.- toByteArray([mode=QUuid.StringFormat.WithBraces])¶
- Parameters:
mode –
StringFormat
- Return type:
Returns the string representation of this
QUuid
, with the formattiong controlled by themode
parameter. From left to right, the five hex fields are obtained from the four public data members inQUuid
as follows:Field #
Source
1
data1
2
data2
3
data3
4
data4[0] .. data4[1]
5
data4[2] .. data4[7]
- toRfc4122()¶
- Return type:
Returns the binary representation of this
QUuid
. The byte array is in big endian format, and formatted according to RFC 4122, section 4.1.2 - “Layout and byte order”.The order is as follows:
Field #
Source
1
data1
2
data2
3
data3
4
data4[0] .. data4[7]
The bytes in the byte array returned by this function contains the same binary content as
toBytes()
.See also
toBytes()
- toString([mode=QUuid.StringFormat.WithBraces])¶
- Parameters:
mode –
StringFormat
- Return type:
str
Returns the string representation of this
QUuid
, with the formattiong controlled by themode
parameter. From left to right, the five hex fields are obtained from the four public data members inQUuid
as follows:Field #
Source
1
data1
2
data2
3
data3
4
data4[0] .. data4[1]
5
data4[2] .. data4[7]
Returns the value in the
variant field
of the UUID. If the return value isDCE
, callversion()
to see which layout it uses. The null UUID is considered to be of an unknown variant.See also
Returns the
version field
of the UUID, if the UUID’svariant field
isDCE
. Otherwise it returnsVerUnknown
.See also