User:CRGreathouse/Risch
Testing a claim at Risch algorithm
Claim
[edit]The following is a more complex example, which no software (as of March 2008[update]) is known to find an antiderivative for:
I have also added the results of third integral, taken from [Davenport and Trager 1985]:
Summary of Results
[edit]CAS | First | Second | Third |
---|---|---|---|
Axiom | Yes | No | Yes |
Eigenmath | No | No | No |
FriCAS | Yes | No | Yes* |
Maple | Nonelementary | No | Yes |
Mathcad | ? | ? | ? |
Mathematica | Nonelementary | No | Yes* |
Maxima | No | No | Yes* |
Reduce | No | No | Yes* |
SageMath | No | segfault | Yes* |
SpaceTime | No | No | ? |
SymPy | No | Yes | Yes* |
WIRIS | No | No | Yes* |
Yacas | No | No | ? |
* Eliminates the singularity at
Detailed results
[edit]Axiom (version: March 2009)
[edit]integrate(x/sqrt(x**4+10*x**2-96*x-71), x)
Succeeds in finding an elementary antiderivative
integrate((x**2+2*x+1+(3*x+1)*sqrt(x+log(x)))/(x*sqrt(x+log(x))*(x+sqrt(x+log(x)))), x)
Fails with an error
Eigenmath (version: unnamed 2023)
[edit]x/sqrt(x^4+10*x^2-96*x-71) integral
Fails with "Stop: integral: no solution found"
(x^2+2*x+1+(3*x+1)*sqrt(x+log(x)))/(x*sqrt(x+log(x))*(x+sqrt(x+log(x)))) integral
Fails with "Stop: integral: no solution found"
FriCAS (version: 2022)
[edit]integrate(x/sqrt(x^4+10*x^2-96*x-71), x)
Succeeds in finding an elementary antiderivative
integrate((x^2+2*x+1+(3*x+1)*sqrt(x+log(x)))/(x*sqrt(x+log(x))*(x+sqrt(x+log(x)))), x)
Fails with error "implementation incomplete (constant residues)"
integrate(exp(x+10*log(x)), x)
Succeeds (but removes singularity)
Maple (version: 13)
[edit]int(x/sqrt(x^4+10*x^2-96*x-71),x);
Output: contains EllipticF and EllipticPi (these functions are non-elementary)
int((x^2+2*x+1+(3*x+1)*sqrt(x+log(x)))/(x*sqrt(x+log(x))*(x+sqrt(x+log(x)))),x);
Output: Same integral.
int(exp(x+10*log(x)),x);
Output: correct answer found
Mathematica (version: 7)
[edit]Integrate[x/Sqrt[x^4 + 10 x^2 - 96 x - 71], x]
Finds (long) nonelementary antiderivative
Integrate[(x^2 + 2 x + 1 + (3 x + 1) Sqrt[x + Log[x]])/(x Sqrt[x + Log[x]] (x + Sqrt[x + Log[x]])), x]
Returns integral in symbolic form
Maxima (version: 5.45.1, 2021)
[edit]Note from the help file for the command risch:
- Integrates expr with respect to x using the transcendental case of the Risch algorithm. (The algebraic case of the Risch algorithm has not been implemented.) This currently handles the cases of nested exponentials and logarithms which the main part of
integrate
can't do.integrate
will automatically applyrisch
if given these cases.
integrate(x/sqrt(x^4+10*x^2-96*x-71), x);
Returns integral in symbolic form
risch(x/sqrt(x^4+10*x^2-96*x-71), x);
Returns integral in symbolic form
integrate((x^2+2*x+1+(3*x+1)*sqrt(x+log(x)))/(x*sqrt(x+log(x))*(x+sqrt(x+log(x)))), x);
Returns a result in terms of two integrals
risch((x^2+2*x+1+(3*x+1)*sqrt(x+log(x)))/(x*sqrt(x+log(x))*(x+sqrt(x+log(x)))), x);
Returns a result in terms of an integral
Reduce (revision 6550, 2023)
[edit]int(x/sqrt(x^4+10*x^2-96*x-71), x);
Returns a result in terms of two integrals
int((x^2+2*x+1+(3*x+1)*sqrt(x+log(x)))/(x*sqrt(x+log(x))*(x+sqrt(x+log(x)))), x);
Returns a result in terms of three integrals
Sage (version: 9.8, 2023)
[edit]integral(x/sqrt(x^4+10*x^2-96*x-71), x)
Returns integral in symbolic form
integral((x^2+2*x+1+(3*x+1)*sqrt(x+log(x)))/(x*sqrt(x+log(x))*(x+sqrt(x+log(x)))), x)
Segmentation fault
SpaceTime (version: 3.0)
[edit]∫(x/√(x^4+10*x^2-96*x-71), x)
Returns integral in symbolic form
∫((x^2+2*x+1+(3*x+1)*√(x+log(x)))/(x*sqrt(x+log(x))*(x+sqrt(x+log(x)))), x)
Returns a result in terms of three integrals
SymPy (version: 1.11.1, 2022)
[edit]x = Symbol('x') integrate(x/sqrt(x**4+10*x**2-96*x-71), x)
Returns integral in symbolic form
integrate((x**2+2*x+1+(3*x+1)*sqrt(x+log(x)))/(x*sqrt(x+log(x))*(x+sqrt(x+log(x)))), x)
Succeeds in finding an elementary antiderivative
WIRIS CAS
[edit](x^2+2*x+1+(3*x+1)*√(x+log(x)))/(x*sqrt(x+log(x))*(x+sqrt(x+log(x))))
Fails with "Error 0, general error: The operator is binary."
Yacas
[edit]Integrate(x)x/(x^4+10*x^2-96*x-71)^(1/2);
Returns integral in symbolic form
Integrate(x)(x^2+2*x+1+(3*x+1)*(x+Ln(x))^(1/2))/(x*(x+Ln(x))^(1/2)*(x+(x+Ln(x))^(1/2)))
Returns integral in symbolic form
Other CAS
[edit]- CASSIOPEIA uses Maple to antidifferentiate
- Derive was replaced by TI-Nspire
- Euler uses Maxima to antidifferentiate
- FriCAS is an Axiom fork
- GUYacas uses Ycas to antidifferentiate
- Macsyma was replaced by Maxima
- MuPAD is included in MATLAB
- OpenAxiom is an Axiom fork
- Symbolic Math Toolbox uses MAPLE to antidifferentiate
- SympyCore is a research version of SymPy
- Xcas uses Ycas to antidifferentiate
- Entries from Comparison of computer algebra systems that could not be located: MAS, SymbolicC++
- CAS that have not been listed (but can probably integrate): ClassPad Manager, MathXpert, TI-Nspire CAS
- CAS that have not been listed (and probably can't integrate usefully): Magma (polynomials only), Mathomatic (polynomials only), meditor (integrates rational functions only), PARI/GP (integrates rational functions only)
- CAS that have not been listed (and probably can't integrate): Algebrator, bergman, Cadabra, DoCon, DCAS, Fermat, Franklin Math, GAP, GiNaC, JACAL, JAS, LiveMath, Macaulay, MathEclipse, MuMATH, SINGULAR, TRIP