/usr/share/axiom-20170501/input/hyperell.input is in axiom-test 20170501-3.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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)sys rm -f hyperell.output
)spool hyperell.output
)set message auto off
)clear all
--S 1 of 26
p:= nextPrime(2^20)
--R
--R
--R (1) 1048583
--R Type: PositiveInteger
--E 1
--S 2 of 26
K:=PF p
--R
--R
--R (2) PrimeField(1048583)
--R Type: Domain
--E 2
--S 3 of 26
R:=DMP([x,y,z],K)
--R
--R
--R (3) DistributedMultivariatePolynomial([x,y,z],PrimeField(1048583))
--R Type: Domain
--E 3
--S 4 of 26
P:=PAFFFF( K, [x,y,z], BLQT)
--R
--R
--R (4)
--R PackageForAlgebraicFunctionFieldOverFiniteField(PrimeField(1048583),[x,y,z],B
--R lowUpWithQuadTrans)
--R Type: Domain
--E 4
--S 5 of 26
ProjPl := PROJPLPS PrimeField p
--R
--R
--R (5)
--R ProjectivePlaneOverPseudoAlgebraicClosureOfFiniteField(PrimeField(1048583))
--R Type: Domain
--E 5
--S 6 of 26
f:R:= y^2 - (x-1)*(x-2)*(x-3)*(x-4)*(x-5)
--R
--R
--R 5 4 3 2 2
--R (6) 1048582x + 15x + 1048498x + 225x + 1048309x + y + 120
--R Type: DistributedMultivariatePolynomial([x,y,z],PrimeField(1048583))
--E 6
--S 7 of 26
fh:R:= homogenize( f , 3 )$P
--R
--R
--R 5 4 3 2 2 3 4 2 3 5
--R (7) 1048582x + 15x z + 1048498x z + 225x z + 1048309x z + y z + 120z
--R Type: DistributedMultivariatePolynomial([x,y,z],PrimeField(1048583))
--E 7
--S 8 of 26
setCurve(fh)$P
--R
--R
--R 5 4 3 2 2 3 4 2 3 5
--R (8) 1048582x + 15x z + 1048498x z + 225x z + 1048309x z + y z + 120z
--R Type: DistributedMultivariatePolynomial([x,y,z],PrimeField(1048583))
--E 8
--S 9 of 26
g:=genus()$P
--R
--R
--R (9) 2
--R Type: NonNegativeInteger
--E 9
--S 10 of 26
divZ := intersectionDivisor(z)$P
--R
--R
--R 1
--I (10) 5 %I7
--RType: Divisor(PlacesOverPseudoAlgebraicClosureOfFiniteField(PrimeField(1048583)))
--E 10
--S 11 of 26
pInf:= first supp divZ
--R
--R
--R 1
--I (11) %I7
--R Type: PlacesOverPseudoAlgebraicClosureOfFiniteField(PrimeField(1048583))
--E 11
--S 12 of 26
p1:= projectivePoint( [1,0,1] :: List K )$ProjPl
--R
--R
--R 1
--R (12) (1:0:1)
--RType: ProjectivePlaneOverPseudoAlgebraicClosureOfFiniteField(PrimeField(1048583))
--E 12
--S 13 of 26
pl1:= first placesAbove( p1 )$P
--R
--R
--R 1
--R (13) [1:0:1]
--R Type: PlacesOverPseudoAlgebraicClosureOfFiniteField(PrimeField(1048583))
--E 13
--S 14 of 26
p2:= projectivePoint( [2,0,1] :: List K )$ProjPl
--R
--R
--R 1
--R (14) (2:0:1)
--RType: ProjectivePlaneOverPseudoAlgebraicClosureOfFiniteField(PrimeField(1048583))
--E 14
--S 15 of 26
pl2:= first placesAbove( p2 )$P
--R
--R
--R 1
--R (15) [2:0:1]
--R Type: PlacesOverPseudoAlgebraicClosureOfFiniteField(PrimeField(1048583))
--E 15
--S 16 of 26
p3:= projectivePoint( [3,0,1] :: List K )$ProjPl
--R
--R
--R 1
--R (16) (3:0:1)
--RType: ProjectivePlaneOverPseudoAlgebraicClosureOfFiniteField(PrimeField(1048583))
--E 16
--S 17 of 26
pl3:= first placesAbove( p3 )$P
--R
--R
--R 1
--R (17) [3:0:1]
--R Type: PlacesOverPseudoAlgebraicClosureOfFiniteField(PrimeField(1048583))
--E 17
--S 18 of 26
p4:= projectivePoint( [4,0,1] :: List K )$ProjPl
--R
--R
--R 1
--R (18) (4:0:1)
--RType: ProjectivePlaneOverPseudoAlgebraicClosureOfFiniteField(PrimeField(1048583))
--E 18
--S 19 of 26
pl4:= first placesAbove( p4 )$P
--R
--R
--R 1
--R (19) [4:0:1]
--R Type: PlacesOverPseudoAlgebraicClosureOfFiniteField(PrimeField(1048583))
--E 19
--S 20 of 26
p5:= projectivePoint( [5,0,1] :: List K )$ProjPl
--R
--R
--R 1
--R (20) (5:0:1)
--RType: ProjectivePlaneOverPseudoAlgebraicClosureOfFiniteField(PrimeField(1048583))
--E 20
--S 21 of 26
pl5:= first placesAbove( p5 )$P
--R
--R
--R 1
--R (21) [5:0:1]
--R Type: PlacesOverPseudoAlgebraicClosureOfFiniteField(PrimeField(1048583))
--E 21
--S 22 of 26
D:= pl1+pl2+ 3*pl3 - 5* pInf
--R
--R
--R 1 1 1 1
--I (22) [1:0:1] + [2:0:1] + 3 [3:0:1] - 5 %I7
--RType: Divisor(PlacesOverPseudoAlgebraicClosureOfFiniteField(PrimeField(1048583)))
--E 22
--S 23 of 26
lb:= lBasis( D + g*pInf )$P
--R
--R Trying to interpolate with forms of degree:
--R 2
--R Trying to interpolate with forms of degree:
--R 3
--R Denominator found
--R Intersection Divisor of Denominator found
--R
--R (23)
--R 2 3 2 2 2 3
--R [num= [873819x y z + y z ],den= 873819x + x z + 174762x z + 87382y z + z ]
--IType: Record(num: List(DistributedMultivariatePolynomial(...
--E 23
--S 24 of 26
g1:= first lb.num
--R
--R
--R 2
--R (24) 873819x y z + y z
--R Type: DistributedMultivariatePolynomial([x,y,z],PrimeField(1048583))
--E 24
--S 25 of 26
g0:= lb.den
--R
--R
--R 3 2 2 2 3
--R (25) 873819x + x z + 174762x z + 87382y z + z
--R Type: DistributedMultivariatePolynomial([x,y,z],PrimeField(1048583))
--E 25
-- Voici le diviseur equivalent a D ayant un diviseur des zeros (partie effective)
-- de degree au plus 2 ( g=2)
--S 26 of 26
intersectionDivisor(g1)$P - intersectionDivisor(g0)$P + D
--R
--R
--R 1 1 1
--I (26) [5:0:1] + [4:0:1] - 2 %I7
--RType: Divisor(PlacesOverPseudoAlgebraicClosureOfFiniteField(PrimeField(1048583)))
--E 26
)spool
)lisp (bye)
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