This function creates an object of type DivisorClassRepresentativeM0nbar. Here is a basic example:
i1 : L1= { {{1,3},1}, {{1,4},1} } o1 = {{{1, 3}, 1}, {{1, 4}, 1}} o1 : List |
i2 : divisorClassRepresentativeM0nbar(6,L1) o2 = DivisorClassRepresentativeM0nbar{DivisorExpression => HashTable{{1, 3} => 1}} {1, 4} => 1 NumberOfMarkedPoints => 6 o2 : DivisorClassRepresentativeM0nbar |
The input can be a list or a hash table (see the documentation for (divisorClassRepresentativeM0nbar,ZZ,HashTable)) . The elements of the list should be pairs {I,c}. This will add $c \delta_{I}$ to the divisor class expression. Equivalently, you can type I=>c instead of {I,c}.
i3 : L2= { {1,3}=>1, {1,4}=>1 } o3 = {{1, 3} => 1, {1, 4} => 1} o3 : List |
i4 : divisorClassRepresentativeM0nbar(6,L2) o4 = DivisorClassRepresentativeM0nbar{DivisorExpression => HashTable{{1, 3} => 1}} {1, 4} => 1 NumberOfMarkedPoints => 6 o4 : DivisorClassRepresentativeM0nbar |
The function divisorClassRepresentative does some minimal testing to make sure the expression makes sense. For instance, if you type "L=\{ {1,7\}=>1 \}" and then run "divisorClassRepresentativeM0nbar(6,L)" you will get an error that "The divisor expression is invalid."
The function sorts the divisor class labels. If sorting creates like terms, they are combined:
i5 : L3={ {{1,3},1}, {{1,4},1}, {{3,1},1} }; |
i6 : divisorClassRepresentativeM0nbar(6,L3) o6 = DivisorClassRepresentativeM0nbar{DivisorExpression => HashTable{{1, 3} => 2}} {1, 4} => 1 NumberOfMarkedPoints => 6 o6 : DivisorClassRepresentativeM0nbar |
If $\#I^c < \# I$ the function will replace $\delta_I$ by $\delta_{I^c}$.
i7 : L4= { {{1,3},1}, {{1,4},1}, {{2,4,5,6},1} }; |
i8 : divisorClassRepresentativeM0nbar(6,L4) o8 = DivisorClassRepresentativeM0nbar{DivisorExpression => HashTable{{1, 3} => 2}} {1, 4} => 1 NumberOfMarkedPoints => 6 o8 : DivisorClassRepresentativeM0nbar |
If $\#I = n/2$ and 1 is not in $I$ it will replace $\delta_I$ by $\delta_{I^c}$.
i9 : L5= { {{1,3},1}, {{1,4},1}, {{4,5,6},1} }; |
i10 : divisorClassRepresentativeM0nbar(6,L5) o10 = DivisorClassRepresentativeM0nbar{DivisorExpression => HashTable{{1, 2, 3} => 1}} {1, 3} => 1 {1, 4} => 1 NumberOfMarkedPoints => 6 o10 : DivisorClassRepresentativeM0nbar |
It deletes terms whose coefficient is zero.
i11 : L6= { {{1,3},1}, {{1,4},1}, {{4,5,6},1},{{1,2,3},-1} }; |
i12 : divisorClassRepresentativeM0nbar(6,L6) o12 = DivisorClassRepresentativeM0nbar{DivisorExpression => HashTable{{1, 3} => 1}} {1, 4} => 1 NumberOfMarkedPoints => 6 o12 : DivisorClassRepresentativeM0nbar |
The object divisorClassRepresentativeM0nbar is a method function.