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authorNao Pross <np@0hm.ch>2023-10-20 10:12:16 +0200
committerNao Pross <np@0hm.ch>2023-10-20 10:12:16 +0200
commit13b4c9da2c3aef6aea58174653905712f93cc78b (patch)
tree3294eefaf6b10d5ee2ba7e22177d0cb5b15e11d5
parentUpdate Homeworks.md (diff)
downloadact4e-13b4c9da2c3aef6aea58174653905712f93cc78b.tar.gz
act4e-13b4c9da2c3aef6aea58174653905712f93cc78b.zip
Pass Semigroups and Groups representations
TestFiniteSemigroupRepresentation TestFiniteSemigroupConstruct TestFiniteMonoidRepresentation TestFiniteGroupRepresentation
-rw-r--r--src/act4e_solutions/semigroups_representation.py114
1 files changed, 108 insertions, 6 deletions
diff --git a/src/act4e_solutions/semigroups_representation.py b/src/act4e_solutions/semigroups_representation.py
index 4d75708..f5c2780 100644
--- a/src/act4e_solutions/semigroups_representation.py
+++ b/src/act4e_solutions/semigroups_representation.py
@@ -1,29 +1,131 @@
from typing import Any, TypeVar
import act4e_interfaces as I
+from .sets_representation import MyFiniteSet, SolFiniteSetRepresentation
+from .sets_product import MyFiniteSetProduct
+from .maps_representation import MyFiniteMap, SolFiniteMapRepresentation
X = TypeVar("X")
+class MyFiniteSemigroup(I.FiniteSemigroup[X]):
+ _carrier: I.FiniteSet[X]
+ _composition: I.FiniteMap[X, X]
+
+ def __init__(self, s: I.FiniteSet[X], f: I.FiniteMap[X, X]):
+ self._carrier = s
+ self._composition = f
+
+ def carrier(self) -> I.FiniteSet[X]:
+ return self._carrier
+
+ def composition(self) -> I.FiniteMap[X, X]:
+ return self._composition
+
+ def compose(self, a: X, b: X) -> X:
+ p = self._composition.source().pack([a, b])
+ return self._composition(p)
+
+
+class MyFiniteMonoid(MyFiniteSemigroup, I.FiniteMonoid[X]):
+ _identity: X
+ def __init__(self, s: I.FiniteSet[X], f: I.FiniteMap[X, X], e: X):
+ super().__init__(s, f)
+ self._identity = e
+
+ # def compose(self, a: X, b: X) -> X:
+ # if self.carrier().equal(a, self._identity):
+ # return b
+ # elif self.carrier().equal(b, self._identity):
+ # return a
+ # else:
+ # return super().compose(a, b)
+
+ def identity(self) -> X:
+ return self._identity
+
+
+class MyFiniteGroup(MyFiniteMonoid, I.FiniteGroup[X]):
+ _inverse: I.FiniteMap[X, X]
+ def __init__(self, s: I.FiniteSet[X], f: I.FiniteMap[X, X], e: X, i: I.FiniteMap[X, X]):
+ super().__init__(s, f, e)
+ self._inverse = i
+
+ def inverse(self, a: X):
+ return self._inverse(a)
+
class SolFiniteSemigroupRepresentation(I.FiniteSemigroupRepresentation):
def load(self, h: I.IOHelper, s: I.FiniteSemigroup_desc) -> I.FiniteSemigroup[Any]:
- raise NotImplementedError()
+ if not all(k in s.keys() for k in ["carrier", "composition"]):
+ raise I.InvalidFormat()
+
+ fsr = SolFiniteSetRepresentation()
+ A = fsr.load(h, s["carrier"])
+
+ # FIXME: maybe use this?
+ # fmr = SolFiniteMapRepresentation()
+ for inp, out in s["composition"]:
+ if not all(A.contains(i) for i in inp):
+ raise I.InvalidFormat()
+
+ if not A.contains(out):
+ raise I.InvalidFormat()
+
+ p = MyFiniteSetProduct([A, A])
+ f = MyFiniteMap(p, A, s["composition"])
+ return MyFiniteSemigroup(A, f)
def save(self, h: I.IOHelper, m: I.FiniteSemigroup[Any]) -> I.FiniteSemigroup_desc:
- raise NotImplementedError()
+ fsr = SolFiniteSetRepresentation()
+ fmr = SolFiniteMapRepresentation()
+
+ d = {"carrier": fsr.save(h, m.carrier()),
+ "composition": []}
+
+ for a in m.carrier().elements():
+ for b in m.carrier().elements():
+ e = m.composition().source().pack([a, b])
+ d["composition"].append([e, m.compose(a, b)])
+
+ return d
class SolFiniteMonoidRepresentation(I.FiniteMonoidRepresentation):
def load(self, h: I.IOHelper, s: I.FiniteMonoid_desc) -> I.FiniteMonoid[X]:
- raise NotImplementedError()
+ fsgr = SolFiniteSemigroupRepresentation()
+ semi = fsgr.load(h, s)
+
+ if not ("neutral" in s.keys()):
+ raise I.InvalidFormat()
+
+ e = s["neutral"]
+ if not semi.carrier().contains(e):
+ raise I.InvalidFormat()
+
+ return MyFiniteMonoid(semi.carrier(), semi.composition(), e)
def save(self, h: I.IOHelper, m: I.FiniteMonoid[Any]) -> I.FiniteMonoid_desc:
- raise NotImplementedError()
+ fsgr = SolFiniteSemigroupRepresentation()
+ d = fsgr.save(h, m)
+ d["neutral"] = m.identity()
+ return d
class SolFiniteGroupRepresentation(I.FiniteGroupRepresentation):
def load(self, h: I.IOHelper, s: I.FiniteGroup_desc) -> I.FiniteGroup[X]:
- raise NotImplementedError()
+ fmor = SolFiniteMonoidRepresentation()
+ m = fmor.load(h, s)
+
+ if not "inverse" in s.keys():
+ raise I.InvalidFormat()
+
+ i = MyFiniteMap(m.carrier(), m.carrier(), s["inverse"])
+ return MyFiniteGroup(m.carrier(), m.composition(), m.identity(), i)
def save(self, h: I.IOHelper, m: I.FiniteGroup[Any]) -> I.FiniteGroup_desc:
- raise NotImplementedError()
+ fmor = SolFiniteMonoidRepresentation()
+ d = fmor.save(h, m)
+ d["inverse"] = []
+ for c in m.carrier().elements():
+ d["inverse"].append([c, m.inverse(c)])
+ return d