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- Sun Aug 18 15:48:48 2002 run on Windows
- % Tests of the poly package polynomial decomposition and gcds.
- % Test for the univariate and multivariate polynomial decomposition.
- % Herbert Melenk, ZIB Berlin, 1990.
- procedure testdecompose u;
- begin scalar r,p,val,nextvar;
- write "decomposition of ",u;
- r := decompose u;
- if length r = 1 then rederr "decomposition failed";
- write " leads to ",r;
- % test if the result is algebraically correct.
- r := reverse r;
- nextvar := lhs first r; val := rhs first r;
- r := rest r;
- while not(r={}) do
- << p := first r; r := rest r;
- if 'equal = part(p,0) then
- <<val := sub(nextvar=val,rhs p); nextvar := lhs p>>
- else
- val := sub(nextvar=val,p);
- >>;
- if val = u then write " O.K. "
- else
- <<write "**** reconstructed polynomial: ";
- write val;
- rederr "reconstruction leads to different polynomial";
- >>;
- end;
- testdecompose
- % univariate decompositions
- testdecompose(x**4+x**2+1);
- 4 2
- decomposition of x + x + 1
- 2 2
- leads to {u + u + 1,u=x }
- O.K.
-
- testdecompose(x**6+9x**5+52x**4+177x**3+435x**2+630x+593);
- 6 5 4 3 2
- decomposition of x + 9*x + 52*x + 177*x + 435*x + 630*x + 593
- 3 2 2
- leads to {u + 25*u + 210*u + 593,u=x + 3*x}
- O.K.
-
- testdecompose(x**6+6x**4+x**3+9x**2+3x-5);
- 6 4 3 2
- decomposition of x + 6*x + x + 9*x + 3*x - 5
- 2 3
- leads to {u + u - 5,u=x + 3*x}
- O.K.
-
- testdecompose(x**8-88*x**7+2924*x**6-43912*x**5+263431*x**4-218900*x**3+
- 65690*x**2-7700*x+234);
- 8 7 6 5 4 3
- decomposition of x - 88*x + 2924*x - 43912*x + 263431*x - 218900*x
- 2
- + 65690*x - 7700*x + 234
- 2
- leads to {u + 35*u + 234,
- 2
- u=v + 10*v,
- 2
- v=x - 22*x}
- O.K.
- % multivariate cases
- testdecompose(u**2+v**2+2u*v+1);
- 2 2
- decomposition of u + 2*u*v + v + 1
- 2
- leads to {w + 1,w=u + v}
- O.K.
-
- testdecompose(x**4+2x**3*y + 3x**2*y**2 + 2x*y**3 + y**4 + 2x**2*y
- +2x*y**2 + 2y**3 + 5 x**2 + 5*x*y + 6*y**2 + 5y + 9);
- 4 3 2 2 2 2 3 2
- decomposition of x + 2*x *y + 3*x *y + 2*x *y + 5*x + 2*x*y + 2*x*y + 5*x*y
- 4 3 2
- + y + 2*y + 6*y + 5*y + 9
- 2 2 2
- leads to {u + 5*u + 9,u=x + x*y + y + y}
- O.K.
- testdecompose sub(u=(2 x**2 + 17 x+y + y**3),u**2+2 u + 1);
- 4 3 2 3 2 2 3
- decomposition of 4*x + 68*x + 4*x *y + 4*x *y + 293*x + 34*x*y + 34*x*y
- 6 4 3 2
- + 34*x + y + 2*y + 2*y + y + 2*y + 1
- 2 2 3
- leads to {u + 2*u + 1,u=2*x + 17*x + y + y}
- O.K.
- testdecompose sub(u=(2 x**2 *y + 17 x+y + y**3),u**2+2 u + 1);
- 4 2 3 2 4 2 2 2 2
- decomposition of 4*x *y + 68*x *y + 4*x *y + 4*x *y + 4*x *y + 289*x
- 3 6 4 3 2
- + 34*x*y + 34*x*y + 34*x + y + 2*y + 2*y + y + 2*y + 1
- 2 2 3
- leads to {u + 2*u + 1,u=2*x *y + 17*x + y + y}
- O.K.
- % some cases which require a special (internal) mapping
- testdecompose ( (x + y)**2);
- 2 2
- decomposition of x + 2*x*y + y
- 2
- leads to {u ,u=x + y}
- O.K.
- testdecompose ((x + y**2)**2);
- 2 2 4
- decomposition of x + 2*x*y + y
- 2 2
- leads to {u ,u=x + y }
- O.K.
- testdecompose ( (x**2 + y)**2);
- 4 2 2
- decomposition of x + 2*x *y + y
- 2 2
- leads to {u ,u=x + y}
- O.K.
- testdecompose ( (u + v)**2 +10 );
- 2 2
- decomposition of u + 2*u*v + v + 10
- 2
- leads to {w + 10,w=u + v}
- O.K.
- % the decomposition is not unique and might generate quite
- % different images:
- testdecompose ( (u + v + 10)**2 -100 );
- 2 2
- decomposition of u + 2*u*v + 20*u + v + 20*v
- leads to {w*(w + 20),w=u + v}
- O.K.
- % some special (difficult) cases
- testdecompose (X**4 + 88*X**3*Y + 2904*X**2*Y**2 - 10*X**2
- + 42592*X*Y**3 - 440*X*Y + 234256*Y**4 - 4840*Y**2);
- 4 3 2 2 2 3
- decomposition of x + 88*x *y + 2904*x *y - 10*x + 42592*x*y - 440*x*y
- 4 2
- + 234256*y - 4840*y
- 2
- leads to {u*(u - 10),u=v ,v=x + 22*y}
- O.K.
- % a polynomial with complex coefficients
- on complex;
- testdecompose(X**4 + (88*I)*X**3*Y - 2904*X**2*Y**2 - 10*X**2 -
- (42592*I)*X*Y**3 - (440*I)*X*Y + 234256*Y**4 + 4840*Y**2);
- 4 3 2 2 2 3
- decomposition of x + 88*i*x *y - 2904*x *y - 10*x - 42592*i*x*y - 440*i*x*y
- 4 2
- + 234256*y + 4840*y
- 2
- leads to {u*(u - 10),u=v ,v=x + 22*i*y}
- O.K.
- off complex;
- % Examples given by J. Gutierrez and J.M. Olazabal.
- f1:=x**6-2x**5+x**4-3x**3+3x**2+5$
- testdecompose(f1);
- 6 5 4 3 2
- decomposition of x - 2*x + x - 3*x + 3*x + 5
- 2 3 2
- leads to {u - 3*u + 5,u=x - x }
- O.K.
- f2:=x**32-1$
- testdecompose(f2);
- 32
- decomposition of x - 1
- 2 2 2 2 2
- leads to {u - 1,u=v ,v=w ,w=a ,a=x }
- O.K.
- f3:=x**4-(2/3)*x**3-(26/9)*x**2+x+3$
- testdecompose(f3);
- 4 3 2
- 9*x - 6*x - 26*x + 9*x + 27
- decomposition of --------------------------------
- 9
- 2
- u - 9*u + 27 2
- leads to {---------------,u=3*x - x}
- 9
- O.K.
- f4:=sub(x=x**4-x**3-2x+1,x**3-x**2-1)$
- testdecompose(f4);
- 12 11 10 9 8 7 6 5
- decomposition of x - 3*x + 3*x - 7*x + 14*x - 10*x + 14*x - 20*x
- 4 3 2
- + 9*x - 9*x + 8*x - 2*x - 1
- 3 2 4 3
- leads to {u + 2*u + u - 1,u=x - x - 2*x}
- O.K.
- f5:=sub(x=f4,x**5-5)$
- testdecompose(f5);
- 60 59 58 57 56 55
- decomposition of x - 15*x + 105*x - 485*x + 1795*x - 5873*x
- 54 53 52 51 50
- + 17255*x - 45845*x + 112950*x - 261300*x + 567203*x
- 49 48 47 46
- - 1164475*x + 2280835*x - 4259830*x + 7604415*x
- 45 44 43 42
- - 13053437*x + 21545220*x - 34200855*x + 52436150*x
- 41 40 39 38
- - 77668230*x + 111050794*x - 153746645*x + 206190770*x
- 37 36 35
- - 267484170*x + 336413145*x - 410387890*x
- 34 33 32
- + 484672110*x - 555048350*x + 616671710*x
- 31 30 29
- - 663135380*x + 690884384*x - 697721320*x
- 28 27 26
- + 681039235*x - 642661265*x + 586604975*x
- 25 24 23
- - 516016275*x + 437051535*x - 356628245*x
- 22 21 20
- + 278991765*x - 208571965*x + 149093999*x
- 19 18 17 16
- - 101204325*x + 64656350*x - 38848040*x + 21710870*x
- 15 14 13 12
- - 10971599*x + 4928210*x - 1904450*x + 519730*x
- 11 10 9 8 7
- - 15845*x - 71947*x + 52015*x - 26740*x + 5510*x
- 6 5 4 3
- + 3380*x - 1972*x - 75*x + 195*x - 10*x - 6
- 5 4 3 2
- leads to {u - 5*u + 10*u - 10*u + 5*u - 6,
- 3 2
- u=v + 2*v + v,
- 4 3
- v=x - x - 2*x}
- O.K.
- clear f1,f2,f3,f4,f5;
- % Tests of gcd code.
- % The following examples were introduced in Moses, J. and Yun, D.Y.Y.,
- % "The EZ GCD Algorithm", Proc. ACM 73 (1973) 159-166, and considered
- % further in Hearn, A.C., "Non-modular Computation of Polynomial GCD's
- % Using Trial Division", Proc. EUROSAM 79, 227-239, 72, published as
- % Lecture Notes on Comp. Science, # 72, Springer-Verlag, Berlin, 1979.
- on gcd;
- % The following is the best setting for this file.
- on ezgcd;
- % In systems that have the heugcd code, the following is also a
- % possibility, although not all examples complete in a reasonable time.
- % load heugcd; on heugcd;
- % The final alternative is to use neither ezgcd nor heugcd. In that case,
- % most examples take excessive amounts of computer time.
- share n;
- operator xx;
- % Case 1.
- for n := 2:5
- do write gcd(((for i:=1:n sum xx(i))-1)*((for i:=1:n sum xx(i)) + 2),
- ((for i:=1:n sum xx(i))+1)
- *(-3xx(2)*xx(1)**2+xx(2)**2-1)**2);
- 1
- 1
- 1
- 1
- % Case 2.
- let d = (for i:=1:n sum xx(i)**n) + 1;
- for n := 2:7 do write gcd(d*((for i:=1:n sum xx(i)**n) - 2),
- d*((for i:=1:n sum xx(i)**n) + 2));
- 2 2
- xx(2) + xx(1) + 1
- 3 3 3
- xx(3) + xx(2) + xx(1) + 1
- 4 4 4 4
- xx(4) + xx(3) + xx(2) + xx(1) + 1
- 5 5 5 5 5
- xx(5) + xx(4) + xx(3) + xx(2) + xx(1) + 1
- 6 6 6 6 6 6
- xx(6) + xx(5) + xx(4) + xx(3) + xx(2) + xx(1) + 1
- 7 7 7 7 7 7 7
- xx(7) + xx(6) + xx(5) + xx(4) + xx(3) + xx(2) + xx(1) + 1
- for n := 2:7 do write gcd(d*((for i:=1:n sum xx(i)**n) - 2),
- d*((for i:=1:n sum xx(i)**(n-1)) + 2));
- 2 2
- xx(2) + xx(1) + 1
- 3 3 3
- xx(3) + xx(2) + xx(1) + 1
- 4 4 4 4
- xx(4) + xx(3) + xx(2) + xx(1) + 1
- 5 5 5 5 5
- xx(5) + xx(4) + xx(3) + xx(2) + xx(1) + 1
- 6 6 6 6 6 6
- xx(6) + xx(5) + xx(4) + xx(3) + xx(2) + xx(1) + 1
- 7 7 7 7 7 7 7
- xx(7) + xx(6) + xx(5) + xx(4) + xx(3) + xx(2) + xx(1) + 1
- % Case 3.
- let d = xx(2)**2*xx(1)**2 + (for i := 3:n sum xx(i)**2) + 1;
- for n := 2:5
- do write gcd(d*(xx(2)*xx(1) + (for i:=3:n sum xx(i)) + 2)**2,
- d*(xx(1)**2-xx(2)**2 + (for i:=3:n sum xx(i)**2) - 1));
- 2 2
- xx(2) *xx(1) + 1
- 2 2 2
- xx(3) + xx(2) *xx(1) + 1
- 2 2 2 2
- xx(4) + xx(3) + xx(2) *xx(1) + 1
- 2 2 2 2 2
- xx(5) + xx(4) + xx(3) + xx(2) *xx(1) + 1
- % Case 4.
- let u = xx(1) - xx(2)*xx(3) + 1,
- v = xx(1) - xx(2) + 3xx(3);
- gcd(u*v**2,v*u**2);
- 2 2
- 3*xx(3) *xx(2) - xx(3)*xx(2) + xx(3)*xx(2)*xx(1) - 3*xx(3)*xx(1) - 3*xx(3)
- 2
- + xx(2)*xx(1) + xx(2) - xx(1) - xx(1)
- gcd(u*v**3,v*u**3);
- 2 2
- 3*xx(3) *xx(2) - xx(3)*xx(2) + xx(3)*xx(2)*xx(1) - 3*xx(3)*xx(1) - 3*xx(3)
- 2
- + xx(2)*xx(1) + xx(2) - xx(1) - xx(1)
- gcd(u*v**4,v*u**4);
- 2 2
- 3*xx(3) *xx(2) - xx(3)*xx(2) + xx(3)*xx(2)*xx(1) - 3*xx(3)*xx(1) - 3*xx(3)
- 2
- + xx(2)*xx(1) + xx(2) - xx(1) - xx(1)
- gcd(u**2*v**4,v**2*u**4);
- 4 2 3 3 3 2
- 9*xx(3) *xx(2) - 6*xx(3) *xx(2) + 6*xx(3) *xx(2) *xx(1)
- 3 3 2 4
- - 18*xx(3) *xx(2)*xx(1) - 18*xx(3) *xx(2) + xx(3) *xx(2)
- 2 3 2 2 2 2 2
- - 2*xx(3) *xx(2) *xx(1) + xx(3) *xx(2) *xx(1) + 12*xx(3) *xx(2) *xx(1)
- 2 2 2 2 2
- + 12*xx(3) *xx(2) - 12*xx(3) *xx(2)*xx(1) - 12*xx(3) *xx(2)*xx(1)
- 2 2 2 2 3
- + 9*xx(3) *xx(1) + 18*xx(3) *xx(1) + 9*xx(3) - 2*xx(3)*xx(2) *xx(1)
- 3 2 2 2
- - 2*xx(3)*xx(2) + 4*xx(3)*xx(2) *xx(1) + 4*xx(3)*xx(2) *xx(1)
- 3 2
- - 2*xx(3)*xx(2)*xx(1) - 8*xx(3)*xx(2)*xx(1) - 12*xx(3)*xx(2)*xx(1)
- 3 2
- - 6*xx(3)*xx(2) + 6*xx(3)*xx(1) + 12*xx(3)*xx(1) + 6*xx(3)*xx(1)
- 2 2 2 2 3 2
- + xx(2) *xx(1) + 2*xx(2) *xx(1) + xx(2) - 2*xx(2)*xx(1) - 4*xx(2)*xx(1)
- 4 3 2
- - 2*xx(2)*xx(1) + xx(1) + 2*xx(1) + xx(1)
- % Case 5.
- let d = (for i := 1:n product (xx(i)+1)) - 3;
- for n := 2:5 do write gcd(d*for i := 1:n product (xx(i) - 2),
- d*for i := 1:n product (xx(i) + 2));
- xx(2)*xx(1) + xx(2) + xx(1) - 2
- xx(3)*xx(2)*xx(1) + xx(3)*xx(2) + xx(3)*xx(1) + xx(3) + xx(2)*xx(1) + xx(2)
- + xx(1) - 2
- xx(4)*xx(3)*xx(2)*xx(1) + xx(4)*xx(3)*xx(2) + xx(4)*xx(3)*xx(1) + xx(4)*xx(3)
- + xx(4)*xx(2)*xx(1) + xx(4)*xx(2) + xx(4)*xx(1) + xx(4) + xx(3)*xx(2)*xx(1)
- + xx(3)*xx(2) + xx(3)*xx(1) + xx(3) + xx(2)*xx(1) + xx(2) + xx(1) - 2
- xx(5)*xx(4)*xx(3)*xx(2)*xx(1) + xx(5)*xx(4)*xx(3)*xx(2)
- + xx(5)*xx(4)*xx(3)*xx(1) + xx(5)*xx(4)*xx(3) + xx(5)*xx(4)*xx(2)*xx(1)
- + xx(5)*xx(4)*xx(2) + xx(5)*xx(4)*xx(1) + xx(5)*xx(4) + xx(5)*xx(3)*xx(2)*xx(1)
- + xx(5)*xx(3)*xx(2) + xx(5)*xx(3)*xx(1) + xx(5)*xx(3) + xx(5)*xx(2)*xx(1)
- + xx(5)*xx(2) + xx(5)*xx(1) + xx(5) + xx(4)*xx(3)*xx(2)*xx(1)
- + xx(4)*xx(3)*xx(2) + xx(4)*xx(3)*xx(1) + xx(4)*xx(3) + xx(4)*xx(2)*xx(1)
- + xx(4)*xx(2) + xx(4)*xx(1) + xx(4) + xx(3)*xx(2)*xx(1) + xx(3)*xx(2)
- + xx(3)*xx(1) + xx(3) + xx(2)*xx(1) + xx(2) + xx(1) - 2
- clear d,u,v;
- % The following examples were discussed in Char, B.W., Geddes, K.O.,
- % Gonnet, G.H., "GCDHEU: Heuristic Polynomial GCD Algorithm Based
- % on Integer GCD Computation", Proc. EUROSAM 84, 285-296, published as
- % Lecture Notes on Comp. Science, # 174, Springer-Verlag, Berlin, 1984.
- % Maple Problem 1.
- gcd(34*x**80-91*x**99+70*x**31-25*x**52+20*x**76-86*x**44-17*x**33
- -6*x**89-56*x**54-17,
- 91*x**49+64*x**10-21*x**52-88*x**74-38*x**76-46*x**84-16*x**95
- -81*x**72+96*x**25-20);
- 1
-
- % Maple Problem 2.
- g := 34*x**19-91*x+70*x**7-25*x**16+20*x**3-86;
- 19 16 7 3
- g := 34*x - 25*x + 70*x + 20*x - 91*x - 86
- gcd(g * (64*x**34-21*x**47-126*x**8-46*x**5-16*x**60-81),
- g * (72*x**60-25*x**25-19*x**23-22*x**39-83*x**52+54*x**10+81) );
- 19 16 7 3
- 34*x - 25*x + 70*x + 20*x - 91*x - 86
- % Maple Problem 3.
- gcd(3427088418+8032938293*x-9181159474*x**2-9955210536*x**3
- +7049846077*x**4-3120124818*x**5-2517523455*x**6+5255435973*x**7
- +2020369281*x**8-7604863368*x**9-8685841867*x**10+4432745169*x**11
- -1746773680*x**12-3351440965*x**13-580100705*x**14+8923168914*x**15
- -5660404998*x**16 +5441358149*x**17-1741572352*x**18
- +9148191435*x**19-4940173788*x**20+6420433154*x**21+980100567*x**22
- -2128455689*x**23+5266911072*x**24-8800333073*x**25-7425750422*x**26
- -3801290114*x**27-7680051202*x**28-4652194273*x**29-8472655390*x**30
- -1656540766*x**31+9577718075*x**32-8137446394*x**33+7232922578*x**34
- +9601468396*x**35-2497427781*x**36-2047603127*x**37-1893414455*x**38
- -2508354375*x**39-2231932228*x**40,
- 2503247071-8324774912*x+6797341645*x**2+5418887080*x**3
- -6779305784*x**4+8113537696*x**5+2229288956*x**6+2732713505*x**7
- +9659962054*x**8-1514449131*x**9+7981583323*x**10+3729868918*x**11
- -2849544385*x**12-5246360984*x**13+2570821160*x**14-5533328063*x**15
- -274185102*x**16+8312755945*x**17-2941669352*x**18-4320254985*x**19
- +9331460166*x**20-2906491973*x**21-7780292310*x**22-4971715970*x**23
- -6474871482*x**24-6832431522*x**25-5016229128*x**26-6422216875*x**27
- -471583252*x**28+3073673916*x**29+2297139923*x**30+9034797416*x**31
- +6247010865*x**32+5965858387*x**33-4612062748*x**34+5837579849*x**35
- -2820832810*x**36-7450648226*x**37+2849150856*x**38+2109912954*x**39
- +2914906138*x**40);
- 1
- % Maple Problem 4.
- g := 34271+80330*x-91812*x**2-99553*x**3+70499*x**4-31201*x**5
- -25175*x**6+52555*x**7+20204*x**8-76049*x**9-86859*x**10;
- 10 9 8 7 6 5
- g := - 86859*x - 76049*x + 20204*x + 52555*x - 25175*x - 31201*x
- 4 3 2
- + 70499*x - 99553*x - 91812*x + 80330*x + 34271
- gcd(g * (44328-17468*x-33515*x**2-5801*x**3+89232*x**4-56604*x**5
- +54414*x**6-17416*x**7+91482*x**8-49402*x**9+64205*x**10
- +9801*x**11-21285*x**12+52669*x**13-88004*x**14-74258*x**15
- -38013*x**16-76801*x**17-46522*x**18-84727*x**19-16565*x**20
- +95778*x**21-81375*x**22+72330*x**23+96015*x**24-24974*x**25
- -20476*x**26-18934*x**27-25084*x**28-22319*x**29+25033*x**30),
- g * (-83248+67974*x+54189*x**2-67793*x**3+81136*x**4+22293*x**5
- +27327*x**6+96600*x**7-15145*x**8+79816*x**9+37299*x**10
- -28496*x**11-52464*x**12+25708*x**13-55334*x**14-2742*x**15
- +83128*x**16-29417*x**17-43203*x**18+93315*x**19-29065*x**20
- -77803*x**21-49717*x**22-64749*x**23-68325*x**24-50163*x**25
- -64222*x**26-4716*x**27+30737*x**28+22972*x**29+90348*x**30));
- 10 9 8 7 6 5 4
- 86859*x + 76049*x - 20204*x - 52555*x + 25175*x + 31201*x - 70499*x
- 3 2
- + 99553*x + 91812*x - 80330*x - 34271
- % Maple Problem 5.
- gcd(-8472*x**4*y**10-8137*x**9*y**10-2497*x**4*y**4-2508*x**4*y**6
- -8324*x**9*y**8-6779*x**9*y**6+2733*x**10*y**4+7981*x**7*y**3
- -5246*x**6*y**2-274*x**10*y**3-4320,
- 15168*x**3*y-4971*x*y-2283*x*y**5+3074*x**6*y**10+6247*x**8*y**2
- +2849*x**6*y**7-2039*x**7-2626*x**2*y**7+9229*x**6*y**5+2404*y**5
- +1387*x**4*y**8+5602*x**5*y**2-6212*x**3*y**7-8561);
- 1
- % Maple Problem 6.
- g := -19*x**4*y**4+25*y**9+54*x*y**9+22*x**7*y**10-15*x**9*y**7-28;
- 9 7 7 10 4 4 9 9
- g := - 15*x *y + 22*x *y - 19*x *y + 54*x*y + 25*y - 28
- gcd(g*(91*x**2*y**9+10*x**4*y**8-88*x*y**3-76*x**2-16*x**10*y
- +72*x**10*y**4-20),
- g*(34*x**9-99*x**9*y**3-25*x**8*y**6-76*y**7-17*x**3*y**5
- +89*x**2*y**8-17));
- 9 7 7 10 4 4 9 9
- 15*x *y - 22*x *y + 19*x *y - 54*x*y - 25*y + 28
- % Maple Problem 7.
- gcd(6713544209*x**9+8524923038*x**3*y**3*z**7+6010184640*x*z**7
- +4126613160*x**3*y**4*z**9+2169797500*x**7*y**4*z**9
- +2529913106*x**8*y**5*z**3+7633455535*y*z**3+1159974399*x**2*z**4
- +9788859037*y**8*z**9+3751286109*x**3*y**4*z**3,
- 3884033886*x**6*z**8+7709443539*x*y**9*z**6
- +6366356752*x**9*y**4*z**8+6864934459*x**3*y**2*z**6
- +2233335968*x**4*y**9*z**3+2839872507*x**9*y**3*z
- +2514142015*x*y*z**2+1788891562*x**4*y**6*z**6
- +9517398707*x**8*y**7*z**2+7918789924*x**3*y*z**6
- +6054956477*x**6*y**3*z**6);
- 1
- % Maple Problem 8.
- g := u**3*(x**2-y)*z**2+(u-3*u**2*x)*y*z-u**4*x*y+3;
- 4 3 2 2 3 2 2
- g := - u *x*y + u *x *z - u *y*z - 3*u *x*y*z + u*y*z + 3
- gcd(g * ((y**2+x)*z**2+u**5*(x*y+x**2)*z-y+5),
- g * ((y**2-x)*z**2+u**5*(x*y-x**2)*z+y+9) );
- 4 3 2 2 3 2 2
- u *x*y - u *x *z + u *y*z + 3*u *x*y*z - u*y*z - 3
- % Maple Problem 9.
- g := 34*u**2*y**2*z-25*u**2*v*z**2-18*v*x**2*z**2-18*u**2*x**2*y*z+53
- +x**3;
- 2 2 2 2 2 2 2 2 3
- g := - 25*u *v*z - 18*u *x *y*z + 34*u *y *z - 18*v*x *z + x + 53
- gcd( g * (-85*u*v**2*y**2*z**2-25*u*v*x*y*z-84*u**2*v**2*y**2*z
- +27*u**2*v*x**2*y**2*z-53*u*x*y**2*z+34*x**3),
- g * (48*x**3-99*u*x**2*y**2*z-69*x*y*z-75*u*v*x*y*z**2
- -43*u**2*v+91*u**2*v**2*y**2*z) );
- 2 2 2 2 2 2 2 2 3
- 25*u *v*z + 18*u *x *y*z - 34*u *y *z + 18*v*x *z - x - 53
- % Maple Problem 10.
- gcd(-9955*v**9*x**3*y**4*z**8+2020*v*y**7*z**4
- -3351*v**5*x**10*y**2*z**8-1741*v**10*x**2*y**9*z**6
- -2128*v**8*y*z**3-7680*v**2*y**4*z**10-8137*v**9*x**10*y**4*z**4
- -1893*v**4*x**4*y**6+6797*v**8*x*y**9*z**6
- +2733*v**10*x**4*y**9*z**7-2849*v**2*x**6*y**2*z**5
- +8312*v**3*x**3*y**10*z**3-7780*v**2*x*y*z**2
- -6422*v**5*x**7*y**6*z**10+6247*v**8*x**2*y**8*z**3
- -7450*v**7*x**6*y**7*z**4+3625*x**4*y**2*z**7+9229*v**6*x**5*y**6
- -112*v**6*x**4*y**8*z**7-7867*v**5*x**8*y**5*z**2
- -6212*v**3*x**7*z**5+8699*v**8*x**2*y**2*z**5
- +4442*v**10*x**5*y**4*z+1965*v**10*y**3*z**3-8906*v**6*x*y**4*z**5
- +5552*x**10*y**4+3055*v**5*x**3*y**6*z**2+6658*v**7*x**10*z**6
- +3721*v**8*x**9*y**4*z**8+9511*v*x**6*y+5437*v**3*x**9*y**9*z**7
- -1957*v**6*x**4*y*z**3+9214*v**3*x**9*y**3*z**7
- +7273*v**2*x**8*y**4*z**10+1701*x**10*y**7*z**2
- +4944*v**5*x**5*y**8*z**8-1935*v**3*x**6*y**10*z**7
- +4029*x**6*y**10*z**3+9462*v**6*x**5*y**4*z**8-3633*v**4*x*y**7*z**5
- -1876,
- -5830*v**7*x**8*y*z**2-1217*v**8*x*y**2*z**5
- -1510*v**9*x**3*y**10*z**10+7036*v**6*x**8*y**3*z**3
- +1022*v**9*y**3*z**8+3791*v**8*x**3*y**7+6906*v**6*x*y*z**10
- +117*v**7*x**2*y**4*z**4+6654*v**6*x**5*y**2*z**3
- -7302*v**10*x**8*y**3-5343*v**8*x**5*y**9*z
- -2244*v**9*x**3*y**8*z**9-3719*v**5*x**10*y**6*z**8
- +2629*x**3*y**2*z**10+8517*x**9*y**6*z**7-9551*v**5*x**6*y**6*z**2
- -7750*x**10*y**7*z**4-5035*v**5*x**2*y**5*z-5967*v**9*x**5*y**9*z**5
- -8517*v**3*x**2*y**7*z**6-2668*v**10*y**9*z**4+1630*v**5*x**5*y*z**8
- +9099*v**7*x**9*y**4*z**3-5358*v**9*x**5*y**6*z**2
- +5766*v**5*y**3*z**4-3624*v*x**4*y**10*z**10
- +8839*v**6*x**9*y**10*z**4+3378*x**7*y**2*z**5+7582*v**7*x*y**8*z**7
- -85*v*x**2*y**9*z**6-9495*v**9*x**10*y**6*z**3+1983*v**9*x**3*y
- -4613*v**10*x**4*y**7*z**6+5529*v**10*x*y**6
- +5030*v**4*x**5*y**4*z**9-9202*x**6*y**3*z**9
- -4988*v**2*x**2*y**10*z**4-8572*v**9*x**7*y**10*z**10
- +4080*v**4*x**8*z**8-382*v**9*x**9*y**2*z**2-7326);
- 1
- end;
- Time for test: 8212 ms, plus GC time: 351 ms
|