Multiplicative Abelian Groups With Values¶
Often, one ends up with a set that forms an Abelian group. It would be
nice if one could return an Abelian group class to encapsulate the
data. However,
AbelianGroup()
is an
abstract Abelian group defined by generators and relations. This
module implements AbelianGroupWithValues
that allows the
group elements to be decorated with values.
An example where this module is used is the unit group of a number
field, see sage.rings.number_field.unit_group
. The units form a
finitely generated Abelian group. We can think of the elements either
as abstract Abelian group elements or as particular numbers in the
number field. The AbelianGroupWithValues()
keeps track of these
associated values.
Warning
Really, this requires a group homomorphism from the abstract
Abelian group to the set of values. This is only checked if you
pass the check=True
option to AbelianGroupWithValues()
.
EXAMPLES:
Here is \(\ZZ_6\) with value \(-1\) assigned to the generator:
sage: Z6 = AbelianGroupWithValues([-1], [6], names='g')
sage: g = Z6.gen(0)
sage: g.value()
-1
sage: g*g
g^2
sage: (g*g).value()
1
sage: for i in range(7):
....: print((i, g^i, (g^i).value()))
(0, 1, 1)
(1, g, -1)
(2, g^2, 1)
(3, g^3, -1)
(4, g^4, 1)
(5, g^5, -1)
(6, 1, 1)
The elements come with a coercion embedding into the
values_group()
, so you can use the
group elements instead of the values:
sage: CF3.<zeta> = CyclotomicField(3)
sage: Z3.<g> = AbelianGroupWithValues([zeta], [3])
sage: Z3.values_group()
Cyclotomic Field of order 3 and degree 2
sage: g.value()
zeta
sage: CF3(g)
zeta
sage: g + zeta
2*zeta
sage: zeta + g
2*zeta
-
sage.groups.abelian_gps.values.
AbelianGroupWithValues
(values, n, gens_orders=None, names='f', check=False, values_group=None)¶ Construct an Abelian group with values associated to the generators.
INPUT:
values
– a list/tuple/iterable of values that you want to associate to the generators.n
– integer (optional). If not specified, will be derived- from
gens_orders
.
gens_orders
– a list of non-negative integers in the form- \([a_0, a_1, \dots, a_{n-1}]\), typically written in increasing order. This list is padded with zeros if it has length less than n. The orders of the commuting generators, with \(0\) denoting an infinite cyclic factor.
names
– (optional) names of generatorsvalues_group
– a parent orNone
(default). The common parent of the values. This might be a group, but can also just contain the values. For example, if the values are units in a ring then thevalues_group
would be the whole ring. IfNone
it will be derived from the values.
EXAMPLES:
sage: G = AbelianGroupWithValues([-1], [6]) sage: g = G.gen(0) sage: for i in range(7): ....: print((i, g^i, (g^i).value())) (0, 1, 1) (1, f, -1) (2, f^2, 1) (3, f^3, -1) (4, f^4, 1) (5, f^5, -1) (6, 1, 1) sage: G.values_group() Integer Ring
The group elements come with a coercion embedding into the
values_group()
, so you can use them like theirvalue()
sage: G.values_embedding() Generic morphism: From: Multiplicative Abelian group isomorphic to C6 To: Integer Ring sage: g.value() -1 sage: 0 + g -1 sage: 1 + 2*g -1
-
class
sage.groups.abelian_gps.values.
AbelianGroupWithValuesElement
(parent, exponents, value=None)¶ Bases:
sage.groups.abelian_gps.abelian_group_element.AbelianGroupElement
An element of an Abelian group with values assigned to generators.
INPUT:
exponents
– tuple of integers. The exponent vector defining the group element.parent
– the parent.value
– the value assigned to the group element orNone
(default). In the latter case, the value is computed as needed.
EXAMPLES:
sage: F = AbelianGroupWithValues([1,-1], [2,4]) sage: a,b = F.gens() sage: TestSuite(a*b).run()
-
inverse
()¶ Return the inverse element.
EXAMPLES:
sage: G.<a,b> = AbelianGroupWithValues([2,-1], [0,4]) sage: a.inverse() a^-1 sage: a.inverse().value() 1/2 sage: a.__invert__().value() 1/2 sage: (~a).value() 1/2 sage: (a*b).value() -2 sage: (a*b).inverse().value() -1/2
-
value
()¶ Return the value of the group element.
OUTPUT:
The value according to the values for generators, see
gens_values()
.EXAMPLES:
sage: G = AbelianGroupWithValues([5], 1) sage: G.0.value() 5
-
class
sage.groups.abelian_gps.values.
AbelianGroupWithValuesEmbedding
(domain, codomain)¶ Bases:
sage.categories.morphism.Morphism
The morphism embedding the Abelian group with values in its values group.
INPUT:
domain
– aAbelianGroupWithValues_class
codomain
– the values group (need not be in the category of groups, e.g. symbolic ring).
EXAMPLES:
sage: Z4.<g> = AbelianGroupWithValues([I], [4]) sage: embedding = Z4.values_embedding(); embedding Generic morphism: From: Multiplicative Abelian group isomorphic to C4 To: Symbolic Ring sage: embedding(1) 1 sage: embedding(g) I sage: embedding(g^2) -1
-
class
sage.groups.abelian_gps.values.
AbelianGroupWithValues_class
(generator_orders, names, values, values_group)¶ Bases:
sage.groups.abelian_gps.abelian_group.AbelianGroup_class
The class of an Abelian group with values associated to the generator.
INPUT:
generator_orders
– tuple of integers. The orders of the generators.names
– string or list of strings. The names for the generators.values
– Tuple the same length as the number of generators. The values assigned to the generators.values_group
– the common parent of the values.
EXAMPLES:
sage: G.<a,b> = AbelianGroupWithValues([2,-1], [0,4]) sage: TestSuite(G).run()
-
Element
¶ alias of
AbelianGroupWithValuesElement
-
gen
(i=0)¶ The \(i\)-th generator of the abelian group.
INPUT:
i
– integer (default: 0). The index of the generator.
OUTPUT:
A group element.
EXAMPLES:
sage: F = AbelianGroupWithValues([1,2,3,4,5], 5,[],names='a') sage: F.0 a0 sage: F.0.value() 1 sage: F.2 a2 sage: F.2.value() 3 sage: G = AbelianGroupWithValues([-1,0,1], [2,1,3]) sage: G.gens() (f0, 1, f2)
-
gens_values
()¶ Return the values associated to the generators.
OUTPUT:
A tuple.
EXAMPLES:
sage: G = AbelianGroupWithValues([-1,0,1], [2,1,3]) sage: G.gens() (f0, 1, f2) sage: G.gens_values() (-1, 0, 1)
-
values_embedding
()¶ Return the embedding of
self
invalues_group()
.OUTPUT:
A morphism.
EXAMPLES:
sage: Z4 = AbelianGroupWithValues([I], [4]) sage: Z4.values_embedding() Generic morphism: From: Multiplicative Abelian group isomorphic to C4 To: Symbolic Ring
-
values_group
()¶ The common parent of the values.
The values need to form a multiplicative group, but can be embedded in a larger structure. For example, if the values are units in a ring then the
values_group()
would be the whole ring.OUTPUT:
The common parent of the values, containing the group generated by all values.
EXAMPLES:
sage: G = AbelianGroupWithValues([-1,0,1], [2,1,3]) sage: G.values_group() Integer Ring sage: Z4 = AbelianGroupWithValues([I], [4]) sage: Z4.values_group() Symbolic Ring