SetOf type

class pyasn1.type.univ.SetOf(componentType=None, tagSet=TagSet(), subtypeSpec=ConstraintsIntersection(), sizeSpec=ConstraintsIntersection())

Create SetOf type.

SetOf objects are mutable and duck-type Python list objects.

Keyword Arguments:
 
  • componentType (PyAsn1Item derivative) – A pyasn1 object representing ASN.1 type allowed within SetOf type
  • tagSet (TagSet) – Object representing non-default ASN.1 tag(s)
  • subtypeSpec (ConstraintsIntersection) – Object representing non-default ASN.1 subtype constraint(s)
  • sizeSpec (ConstraintsIntersection) – Object representing collection size constraint

Examples

class LotteryDraw(SequenceOf):  #  SetOf is similar
    '''
    ASN.1 specification:

    LotteryDraw ::= SEQUENCE OF INTEGER
    '''
    componentType = Integer()

lotteryDraw = LotteryDraw()
lotteryDraw.extend([123, 456, 789])

Note

The SetOf type models a collection of elements of a single ASN.1 type. Ordering of the components is not preserved upon de/serialisation.

clone(componentType=None, tagSet=TagSet(), subtypeSpec=ConstraintsIntersection())

Create a modified version of SetOf schema object.

The clone() method accepts the same set arguments as SetOf class takes on instantiation except that all arguments of the clone() method are optional.

Whatever arguments are supplied, they are used to create a copy of self taking precedence over the ones used to instantiate self.

Possible values of self are never copied over thus clone() can only create a new schema object.

Returns:new instance of SetOf type/value

Note

Due to the mutable nature of the SetOf object, even if no arguments are supplied, new SetOf object will always be created as a shallow copy of self.

subtype(componentType=None, implicitTag=Tag(), explicitTag=Tag(), subtypeSpec=ConstraintsIntersection())

Create a specialization of SetOf schema object.

The subtype() method accepts the same set arguments as SetOf class takes on instantiation except that all parameters of the subtype() method are optional.

With the exception of the arguments described below, the rest of supplied arguments they are used to create a copy of self taking precedence over the ones used to instantiate self.

The following arguments to subtype() create a ASN.1 subtype out of SetOf type.

Other Parameters:
 
  • implicitTag (Tag) – Implicitly apply given ASN.1 tag object to self’s TagSet, then use the result as new object’s ASN.1 tag(s).
  • explicitTag (Tag) – Explicitly apply given ASN.1 tag object to self’s TagSet, then use the result as new object’s ASN.1 tag(s).
  • subtypeSpec (ConstraintsIntersection) – Add ASN.1 constraints object to one of the self’s, then use the result as new object’s ASN.1 constraints.
Returns:

new instance of SetOf type/value

Note

Due to the immutable nature of the SetOf object, if no arguments are supplied, no new SetOf object will be created and self will be returned instead.

tagSet = <TagSet object at 0x10511bc88 tags 0:32:17>

Set (on class, not on instance) or return a TagSet object representing ASN.1 tag(s) associated with SetOf type.

componentType = None

Default PyAsn1Item derivative object representing ASN.1 type allowed within SetOf type

subtypeSpec = <ConstraintsIntersection object>

Set (on class, not on instance) or return a ConstraintsIntersection object imposing constraints on SetOf type initialization values.

sizeSpec = <ConstraintsIntersection object>

Default ConstraintsIntersection object imposing size constraint on SetOf objects

effectiveTagSet

For SetOf type is equivalent to tagSet

getComponentByPosition(idx, default=<NoValue object at 4379922896>, instantiate=True)

Return SetOf type component value by position.

Equivalent to Python sequence subscription operation (e.g. []).

Parameters:

idx (int) – Component index (zero-based). Must either refer to an existing component or to N+1 component (if componentType is set). In the latter case a new component type gets instantiated and appended to the SetOf sequence.

Keyword Arguments:
 
  • default (object) – If set and requested component is a schema object, return the default object instead of the requested component.
  • instantiate (bool) – If True (default), inner component will be automatically instantiated. If ‘False’ either existing component or the noValue object will be returned.
Returns:

PyAsn1Item – Instantiate SetOf component type or return existing component value

Examples

# can also be SetOf
class MySequenceOf(SequenceOf):
    componentType = OctetString()

s = MySequenceOf()

# returns component #0 with `.isValue` property False
s.getComponentByPosition(0)

# returns None
s.getComponentByPosition(0, default=None)

s.clear()

# returns noValue
s.getComponentByPosition(0, instantiate=False)

# sets component #0 to OctetString() ASN.1 schema
# object and returns it
s.getComponentByPosition(0, instantiate=True)

# sets component #0 to ASN.1 value object
s.setComponentByPosition(0, 'ABCD')

# returns OctetString('ABCD') value object
s.getComponentByPosition(0, instantiate=False)

s.clear()

# returns noValue
s.getComponentByPosition(0, instantiate=False)
isSameTypeWith(other, matchTags=True, matchConstraints=True)

Examine SetOf type for equality with other ASN.1 type.

ASN.1 tags (tag) and constraints (constraint) are examined when carrying out ASN.1 types comparison.

Python class inheritance relationship is NOT considered.

Parameters:other (a pyasn1 type object) – Class instance representing ASN.1 type.
Returns:boolTrue if other is SetOf type, False otherwise.
isSuperTypeOf(other, matchTags=True, matchConstraints=True)

Examine SetOf type for subtype relationship with other ASN.1 type.

ASN.1 tags (tag) and constraints (constraint) are examined when carrying out ASN.1 types comparison.

Python class inheritance relationship is NOT considered.

Parameters:other (a pyasn1 type object) – Class instance representing ASN.1 type.
Returns:boolTrue if other is a subtype of SetOf type, False otherwise.
isValue

Indicate that SetOf object represents ASN.1 value.

If isValue is False then this object represents just ASN.1 schema.

If isValue is True then, in addition to its ASN.1 schema features, this object can also be used like a Python built-in object (e.g. int, str, dict etc.).

Returns:boolFalse if object represents just ASN.1 schema. True if object represents ASN.1 schema and can be used as a normal value.

Note

There is an important distinction between PyASN1 schema and value objects. The PyASN1 schema objects can only participate in ASN.1 schema-related operations (e.g. defining or testing the structure of the data). Most obvious uses of ASN.1 schema is to guide serialisation codecs whilst encoding/decoding serialised ASN.1 contents.

The PyASN1 value objects can additionally participate in many operations involving regular Python objects (e.g. arithmetic, comprehension etc).

setComponentByPosition(idx, value=<NoValue object at 4379922896>, verifyConstraints=True, matchTags=True, matchConstraints=True)

Assign SetOf type component by position.

Equivalent to Python sequence item assignment operation (e.g. []) or list.append() (when idx == len(self)).

Parameters:

idx (int) – Component index (zero-based). Must either refer to existing component or to N+1 component. In the latter case a new component type gets instantiated (if componentType is set, or given ASN.1 object is taken otherwise) and appended to the SetOf sequence.

Keyword Arguments:
 
  • value (object or PyAsn1Item derivative) – A Python value to initialize SetOf component with (if componentType is set) or ASN.1 value object to assign to SetOf component.
  • verifyConstraints (bool) – If False, skip constraints validation
  • matchTags (bool) – If False, skip component tags matching
  • matchConstraints (bool) – If False, skip component constraints matching
Returns:

self

Raises:

IndexError: – When idx > len(self)

tagMap

Return a TagMap object mapping ASN.1 tags to ASN.1 objects within callee object.