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\(\int \frac {(2-3 x+x^2) (d+e x+f x^2+g x^3+h x^4+i x^5)}{(4-5 x^2+x^4)^2} \, dx\) [93]

Optimal result
Mathematica [A] (verified)
Rubi [A] (verified)
Maple [A] (verified)
Fricas [B] (verification not implemented)
Sympy [F(-1)]
Maxima [A] (verification not implemented)
Giac [A] (verification not implemented)
Mupad [B] (verification not implemented)
Reduce [B] (verification not implemented)

Optimal result

Integrand size = 46, antiderivative size = 153 \[ \int \frac {\left (2-3 x+x^2\right ) \left (d+e x+f x^2+g x^3+h x^4+i x^5\right )}{\left (4-5 x^2+x^4\right )^2} \, dx=-\frac {5 d-6 e+8 f-12 g+20 h-36 i+(3 d-4 e+6 f-10 g+18 h-34 i) x}{12 \left (2+3 x+x^2\right )}-\frac {1}{36} (d+e+f+g+h+i) \log (1-x)+\frac {1}{144} (d+2 e+4 f+8 g+16 h+32 i) \log (2-x)-\frac {1}{36} (7 d-13 e+19 f-25 g+31 h-37 i) \log (1+x)+\frac {1}{144} (31 d-50 e+76 f-104 g+112 h-32 i) \log (2+x) \] Output: 

-1/12*(5*d-6*e+8*f-12*g+20*h-36*i+(3*d-4*e+6*f-10*g+18*h-34*i)*x)/(x^2+3*x 
+2)-1/36*(d+e+f+g+h+i)*ln(1-x)+1/144*(d+2*e+4*f+8*g+16*h+32*i)*ln(2-x)-1/3 
6*(7*d-13*e+19*f-25*g+31*h-37*i)*ln(1+x)+1/144*(31*d-50*e+76*f-104*g+112*h 
-32*i)*ln(2+x)

Mathematica [A] (verified)

Time = 0.09 (sec) , antiderivative size = 153, normalized size of antiderivative = 1.00 \[ \int \frac {\left (2-3 x+x^2\right ) \left (d+e x+f x^2+g x^3+h x^4+i x^5\right )}{\left (4-5 x^2+x^4\right )^2} \, dx=\frac {1}{144} \left (\frac {12 (-d (5+3 x)+2 (-4 f+6 g-10 h+18 i-3 f x+5 g x-9 h x+17 i x+e (3+2 x)))}{2+3 x+x^2}-4 (d+e+f+g+h+i) \log (1-x)+(d+2 e+4 (f+2 g+4 h+8 i)) \log (2-x)+4 (-7 d+13 e-19 f+25 g-31 h+37 i) \log (1+x)+(31 d-50 e+76 f-104 g+112 h-32 i) \log (2+x)\right ) \] Input: 

Integrate[((2 - 3*x + x^2)*(d + e*x + f*x^2 + g*x^3 + h*x^4 + i*x^5))/(4 - 
 5*x^2 + x^4)^2,x]

Output: 

((12*(-(d*(5 + 3*x)) + 2*(-4*f + 6*g - 10*h + 18*i - 3*f*x + 5*g*x - 9*h*x 
 + 17*i*x + e*(3 + 2*x))))/(2 + 3*x + x^2) - 4*(d + e + f + g + h + i)*Log 
[1 - x] + (d + 2*e + 4*(f + 2*g + 4*h + 8*i))*Log[2 - x] + 4*(-7*d + 13*e 
- 19*f + 25*g - 31*h + 37*i)*Log[1 + x] + (31*d - 50*e + 76*f - 104*g + 11 
2*h - 32*i)*Log[2 + x])/144

Rubi [A] (verified)

Time = 0.57 (sec) , antiderivative size = 147, normalized size of antiderivative = 0.96, number of steps used = 3, number of rules used = 3, \(\frac {\text {number of rules}}{\text {integrand size}}\) = 0.065, Rules used = {2019, 7279, 2009}

Below are the steps used by Rubi to obtain the solution. The rule number used for the transformation is given above next to the arrow. The rules definitions used are listed below.

\(\displaystyle \int \frac {\left (x^2-3 x+2\right ) \left (d+e x+f x^2+g x^3+h x^4+i x^5\right )}{\left (x^4-5 x^2+4\right )^2} \, dx\)

\(\Big \downarrow \) 2019

\(\displaystyle \int \frac {d+e x+f x^2+g x^3+h x^4+i x^5}{\left (x^2-3 x+2\right ) \left (x^2+3 x+2\right )^2}dx\)

\(\Big \downarrow \) 7279

\(\displaystyle \int \left (\frac {d-2 e+4 f-8 g+16 h-32 i}{12 (x+2)^2}+\frac {d+2 e+4 f+8 g+16 h+32 i}{144 (x-2)}+\frac {-d-e-f-g-h-i}{36 (x-1)}+\frac {-7 d+13 e-19 f+25 g-31 h+37 i}{36 (x+1)}+\frac {31 d-50 e+76 f-104 g+112 h-32 i}{144 (x+2)}+\frac {d-e+f-g+h-i}{6 (x+1)^2}\right )dx\)

\(\Big \downarrow \) 2009

\(\displaystyle -\frac {d-2 e+4 f-8 g+16 h-32 i}{12 (x+2)}-\frac {d-e+f-g+h-i}{6 (x+1)}-\frac {1}{36} \log (1-x) (d+e+f+g+h+i)+\frac {1}{144} \log (2-x) (d+2 e+4 f+8 g+16 h+32 i)-\frac {1}{36} \log (x+1) (7 d-13 e+19 f-25 g+31 h-37 i)+\frac {1}{144} \log (x+2) (31 d-50 e+76 f-104 g+112 h-32 i)\)

Input: 

Int[((2 - 3*x + x^2)*(d + e*x + f*x^2 + g*x^3 + h*x^4 + i*x^5))/(4 - 5*x^2 
 + x^4)^2,x]

Output: 

-1/6*(d - e + f - g + h - i)/(1 + x) - (d - 2*e + 4*f - 8*g + 16*h - 32*i) 
/(12*(2 + x)) - ((d + e + f + g + h + i)*Log[1 - x])/36 + ((d + 2*e + 4*f 
+ 8*g + 16*h + 32*i)*Log[2 - x])/144 - ((7*d - 13*e + 19*f - 25*g + 31*h - 
 37*i)*Log[1 + x])/36 + ((31*d - 50*e + 76*f - 104*g + 112*h - 32*i)*Log[2 
 + x])/144

Defintions of rubi rules used

rule 2009 
Int[u_, x_Symbol] :> Simp[IntSum[u, x], x] /; SumQ[u]

rule 2019 
Int[(u_.)*(Px_)^(p_.)*(Qx_)^(q_.), x_Symbol] :> Int[u*PolynomialQuotient[Px 
, Qx, x]^p*Qx^(p + q), x] /; FreeQ[q, x] && PolyQ[Px, x] && PolyQ[Qx, x] && 
 EqQ[PolynomialRemainder[Px, Qx, x], 0] && IntegerQ[p] && LtQ[p*q, 0]

rule 7279 
Int[(u_)/((a_.) + (b_.)*(x_)^(n_.) + (c_.)*(x_)^(n2_.)), x_Symbol] :> With[ 
{v = RationalFunctionExpand[u/(a + b*x^n + c*x^(2*n)), x]}, Int[v, x] /; Su 
mQ[v]] /; FreeQ[{a, b, c}, x] && EqQ[n2, 2*n] && IGtQ[n, 0]
Maple [A] (verified)

Time = 0.10 (sec) , antiderivative size = 150, normalized size of antiderivative = 0.98

method result size
default \(\left (\frac {d}{144}+\frac {e}{72}+\frac {f}{36}+\frac {g}{18}+\frac {h}{9}+\frac {2 i}{9}\right ) \ln \left (x -2\right )+\left (-\frac {7 d}{36}+\frac {13 e}{36}-\frac {19 f}{36}+\frac {25 g}{36}-\frac {31 h}{36}+\frac {37 i}{36}\right ) \ln \left (1+x \right )-\frac {\frac {d}{6}-\frac {e}{6}+\frac {f}{6}-\frac {g}{6}+\frac {h}{6}-\frac {i}{6}}{1+x}+\left (-\frac {d}{36}-\frac {e}{36}-\frac {f}{36}-\frac {g}{36}-\frac {h}{36}-\frac {i}{36}\right ) \ln \left (x -1\right )-\frac {\frac {d}{12}-\frac {e}{6}+\frac {f}{3}-\frac {2 g}{3}+\frac {4 h}{3}-\frac {8 i}{3}}{x +2}+\left (\frac {31 d}{144}-\frac {25 e}{72}+\frac {19 f}{36}-\frac {13 g}{18}-\frac {2 i}{9}+\frac {7 h}{9}\right ) \ln \left (x +2\right )\) \(150\)
norman \(\frac {\left (-\frac {d}{4}+\frac {e}{3}-\frac {f}{2}+\frac {5 g}{6}+\frac {17 i}{6}-\frac {3 h}{2}\right ) x^{3}+\left (\frac {3 d}{4}-\frac {5 e}{6}+f -\frac {4 g}{3}+2 h -\frac {10 i}{3}\right ) x +\left (\frac {d}{3}-\frac {e}{2}+\frac {5 f}{6}-\frac {3 g}{2}+\frac {17 h}{6}-\frac {11 i}{2}\right ) x^{2}+6 i -\frac {5 d}{6}+e +2 g -\frac {10 h}{3}-\frac {4 f}{3}}{x^{4}-5 x^{2}+4}+\left (-\frac {7 d}{36}+\frac {13 e}{36}-\frac {19 f}{36}+\frac {25 g}{36}-\frac {31 h}{36}+\frac {37 i}{36}\right ) \ln \left (1+x \right )+\left (-\frac {d}{36}-\frac {e}{36}-\frac {f}{36}-\frac {g}{36}-\frac {h}{36}-\frac {i}{36}\right ) \ln \left (x -1\right )+\left (\frac {d}{144}+\frac {e}{72}+\frac {f}{36}+\frac {g}{18}+\frac {h}{9}+\frac {2 i}{9}\right ) \ln \left (x -2\right )+\left (\frac {31 d}{144}-\frac {25 e}{72}+\frac {19 f}{36}-\frac {13 g}{18}-\frac {2 i}{9}+\frac {7 h}{9}\right ) \ln \left (x +2\right )\) \(193\)
risch \(\frac {\ln \left (2-x \right ) e}{72}+\frac {\ln \left (2-x \right ) g}{18}-\frac {25 \ln \left (x +2\right ) e}{72}-\frac {31 \ln \left (-x -1\right ) h}{36}+\frac {25 \ln \left (-x -1\right ) g}{36}+\frac {\ln \left (2-x \right ) d}{144}+\frac {\ln \left (2-x \right ) f}{36}-\frac {19 \ln \left (-x -1\right ) f}{36}+\frac {13 \ln \left (-x -1\right ) e}{36}+\frac {19 \ln \left (x +2\right ) f}{36}+\frac {37 \ln \left (-x -1\right ) i}{36}-\frac {\ln \left (x -1\right ) d}{36}-\frac {7 \ln \left (-x -1\right ) d}{36}+\frac {31 \ln \left (x +2\right ) d}{144}+\frac {\left (-\frac {d}{4}+\frac {e}{3}-\frac {f}{2}+\frac {5 g}{6}+\frac {17 i}{6}-\frac {3 h}{2}\right ) x -\frac {5 d}{12}+\frac {e}{2}-\frac {2 f}{3}+g +3 i -\frac {5 h}{3}}{x^{2}+3 x +2}-\frac {\ln \left (x -1\right ) e}{36}+\frac {\ln \left (2-x \right ) h}{9}-\frac {\ln \left (x -1\right ) f}{36}-\frac {13 \ln \left (x +2\right ) g}{18}+\frac {7 \ln \left (x +2\right ) h}{9}-\frac {2 \ln \left (x +2\right ) i}{9}+\frac {2 \ln \left (2-x \right ) i}{9}-\frac {\ln \left (x -1\right ) g}{36}-\frac {\ln \left (x -1\right ) h}{36}-\frac {\ln \left (x -1\right ) i}{36}\) \(243\)
parallelrisch \(\frac {432 i -96 f +144 g -36 d x -72 f x -240 h -60 d +72 e +120 g x +48 e x +4 \ln \left (x -2\right ) e -32 \ln \left (x +2\right ) x^{2} i -100 \ln \left (x +2\right ) e -4 \ln \left (x -1\right ) x^{2} d -84 \ln \left (1+x \right ) x d +156 \ln \left (1+x \right ) x e +93 \ln \left (x +2\right ) x d -150 \ln \left (x +2\right ) x e -4 \ln \left (x -1\right ) x^{2} e +100 \ln \left (1+x \right ) x^{2} g +228 \ln \left (x +2\right ) x f +3 \ln \left (x -2\right ) x d +8 \ln \left (x -2\right ) f -56 \ln \left (1+x \right ) d +152 \ln \left (x +2\right ) f -8 \ln \left (x -1\right ) d +148 \ln \left (1+x \right ) x^{2} i -104 \ln \left (x +2\right ) x^{2} g +112 \ln \left (x +2\right ) x^{2} h -12 \ln \left (x -1\right ) x e +8 \ln \left (x -2\right ) x^{2} g +16 \ln \left (x -2\right ) x^{2} h -228 \ln \left (1+x \right ) x f +62 \ln \left (x +2\right ) d +12 \ln \left (x -2\right ) x f +2 \ln \left (x -2\right ) d -8 \ln \left (x -1\right ) e -152 \ln \left (1+x \right ) f +104 \ln \left (1+x \right ) e -8 \ln \left (x -1\right ) f +96 \ln \left (x -2\right ) x i +444 \ln \left (1+x \right ) x i -96 \ln \left (x +2\right ) x i -248 \ln \left (1+x \right ) h +296 \ln \left (1+x \right ) i +200 \ln \left (1+x \right ) g -12 \ln \left (x -1\right ) x i -4 \ln \left (x -1\right ) x^{2} f -28 \ln \left (1+x \right ) x^{2} d +52 \ln \left (1+x \right ) x^{2} e +\ln \left (x -2\right ) x^{2} d +2 \ln \left (x -2\right ) x^{2} e -76 \ln \left (1+x \right ) x^{2} f +31 \ln \left (x +2\right ) x^{2} d -50 \ln \left (x +2\right ) x^{2} e +76 \ln \left (x +2\right ) x^{2} f -4 \ln \left (x -1\right ) x^{2} i -216 h x +32 \ln \left (x -2\right ) x^{2} i -124 \ln \left (1+x \right ) x^{2} h +408 i x -208 \ln \left (x +2\right ) g +224 \ln \left (x +2\right ) h -64 \ln \left (x +2\right ) i -4 \ln \left (x -1\right ) x^{2} g -4 \ln \left (x -1\right ) x^{2} h +6 \ln \left (x -2\right ) x e -12 \ln \left (x -1\right ) x d -12 \ln \left (x -1\right ) x f +4 \ln \left (x -2\right ) x^{2} f +16 \ln \left (x -2\right ) g +32 \ln \left (x -2\right ) h +64 \ln \left (x -2\right ) i -8 \ln \left (x -1\right ) g -8 \ln \left (x -1\right ) h -8 \ln \left (x -1\right ) i +24 \ln \left (x -2\right ) x g +300 \ln \left (1+x \right ) x g +336 \ln \left (x +2\right ) x h -12 \ln \left (x -1\right ) x h -372 \ln \left (1+x \right ) x h +48 \ln \left (x -2\right ) x h -12 \ln \left (x -1\right ) x g -312 \ln \left (x +2\right ) x g}{144 x^{2}+432 x +288}\) \(655\)

Input: 

int((x^2-3*x+2)*(i*x^5+h*x^4+g*x^3+f*x^2+e*x+d)/(x^4-5*x^2+4)^2,x,method=_ 
RETURNVERBOSE)

Output: 

(1/144*d+1/72*e+1/36*f+1/18*g+1/9*h+2/9*i)*ln(x-2)+(-7/36*d+13/36*e-19/36* 
f+25/36*g-31/36*h+37/36*i)*ln(1+x)-(1/6*d-1/6*e+1/6*f-1/6*g+1/6*h-1/6*i)/( 
1+x)+(-1/36*d-1/36*e-1/36*f-1/36*g-1/36*h-1/36*i)*ln(x-1)-(1/12*d-1/6*e+1/ 
3*f-2/3*g+4/3*h-8/3*i)/(x+2)+(31/144*d-25/72*e+19/36*f-13/18*g-2/9*i+7/9*h 
)*ln(x+2)

Fricas [B] (verification not implemented)

Leaf count of result is larger than twice the leaf count of optimal. 305 vs. \(2 (143) = 286\).

Time = 21.78 (sec) , antiderivative size = 305, normalized size of antiderivative = 1.99 \[ \int \frac {\left (2-3 x+x^2\right ) \left (d+e x+f x^2+g x^3+h x^4+i x^5\right )}{\left (4-5 x^2+x^4\right )^2} \, dx=-\frac {12 \, {\left (3 \, d - 4 \, e + 6 \, f - 10 \, g + 18 \, h - 34 \, i\right )} x - {\left ({\left (31 \, d - 50 \, e + 76 \, f - 104 \, g + 112 \, h - 32 \, i\right )} x^{2} + 3 \, {\left (31 \, d - 50 \, e + 76 \, f - 104 \, g + 112 \, h - 32 \, i\right )} x + 62 \, d - 100 \, e + 152 \, f - 208 \, g + 224 \, h - 64 \, i\right )} \log \left (x + 2\right ) + 4 \, {\left ({\left (7 \, d - 13 \, e + 19 \, f - 25 \, g + 31 \, h - 37 \, i\right )} x^{2} + 3 \, {\left (7 \, d - 13 \, e + 19 \, f - 25 \, g + 31 \, h - 37 \, i\right )} x + 14 \, d - 26 \, e + 38 \, f - 50 \, g + 62 \, h - 74 \, i\right )} \log \left (x + 1\right ) + 4 \, {\left ({\left (d + e + f + g + h + i\right )} x^{2} + 3 \, {\left (d + e + f + g + h + i\right )} x + 2 \, d + 2 \, e + 2 \, f + 2 \, g + 2 \, h + 2 \, i\right )} \log \left (x - 1\right ) - {\left ({\left (d + 2 \, e + 4 \, f + 8 \, g + 16 \, h + 32 \, i\right )} x^{2} + 3 \, {\left (d + 2 \, e + 4 \, f + 8 \, g + 16 \, h + 32 \, i\right )} x + 2 \, d + 4 \, e + 8 \, f + 16 \, g + 32 \, h + 64 \, i\right )} \log \left (x - 2\right ) + 60 \, d - 72 \, e + 96 \, f - 144 \, g + 240 \, h - 432 \, i}{144 \, {\left (x^{2} + 3 \, x + 2\right )}} \] Input: 

integrate((x^2-3*x+2)*(i*x^5+h*x^4+g*x^3+f*x^2+e*x+d)/(x^4-5*x^2+4)^2,x, a 
lgorithm="fricas")

Output: 

-1/144*(12*(3*d - 4*e + 6*f - 10*g + 18*h - 34*i)*x - ((31*d - 50*e + 76*f 
 - 104*g + 112*h - 32*i)*x^2 + 3*(31*d - 50*e + 76*f - 104*g + 112*h - 32* 
i)*x + 62*d - 100*e + 152*f - 208*g + 224*h - 64*i)*log(x + 2) + 4*((7*d - 
 13*e + 19*f - 25*g + 31*h - 37*i)*x^2 + 3*(7*d - 13*e + 19*f - 25*g + 31* 
h - 37*i)*x + 14*d - 26*e + 38*f - 50*g + 62*h - 74*i)*log(x + 1) + 4*((d 
+ e + f + g + h + i)*x^2 + 3*(d + e + f + g + h + i)*x + 2*d + 2*e + 2*f + 
 2*g + 2*h + 2*i)*log(x - 1) - ((d + 2*e + 4*f + 8*g + 16*h + 32*i)*x^2 + 
3*(d + 2*e + 4*f + 8*g + 16*h + 32*i)*x + 2*d + 4*e + 8*f + 16*g + 32*h + 
64*i)*log(x - 2) + 60*d - 72*e + 96*f - 144*g + 240*h - 432*i)/(x^2 + 3*x 
+ 2)

Sympy [F(-1)]

Timed out. \[ \int \frac {\left (2-3 x+x^2\right ) \left (d+e x+f x^2+g x^3+h x^4+i x^5\right )}{\left (4-5 x^2+x^4\right )^2} \, dx=\text {Timed out} \] Input: 

integrate((x**2-3*x+2)*(i*x**5+h*x**4+g*x**3+f*x**2+e*x+d)/(x**4-5*x**2+4) 
**2,x)

Output: 

Timed out

Maxima [A] (verification not implemented)

Time = 0.04 (sec) , antiderivative size = 139, normalized size of antiderivative = 0.91 \[ \int \frac {\left (2-3 x+x^2\right ) \left (d+e x+f x^2+g x^3+h x^4+i x^5\right )}{\left (4-5 x^2+x^4\right )^2} \, dx=\frac {1}{144} \, {\left (31 \, d - 50 \, e + 76 \, f - 104 \, g + 112 \, h - 32 \, i\right )} \log \left (x + 2\right ) - \frac {1}{36} \, {\left (7 \, d - 13 \, e + 19 \, f - 25 \, g + 31 \, h - 37 \, i\right )} \log \left (x + 1\right ) - \frac {1}{36} \, {\left (d + e + f + g + h + i\right )} \log \left (x - 1\right ) + \frac {1}{144} \, {\left (d + 2 \, e + 4 \, f + 8 \, g + 16 \, h + 32 \, i\right )} \log \left (x - 2\right ) - \frac {{\left (3 \, d - 4 \, e + 6 \, f - 10 \, g + 18 \, h - 34 \, i\right )} x + 5 \, d - 6 \, e + 8 \, f - 12 \, g + 20 \, h - 36 \, i}{12 \, {\left (x^{2} + 3 \, x + 2\right )}} \] Input: 

integrate((x^2-3*x+2)*(i*x^5+h*x^4+g*x^3+f*x^2+e*x+d)/(x^4-5*x^2+4)^2,x, a 
lgorithm="maxima")

Output: 

1/144*(31*d - 50*e + 76*f - 104*g + 112*h - 32*i)*log(x + 2) - 1/36*(7*d - 
 13*e + 19*f - 25*g + 31*h - 37*i)*log(x + 1) - 1/36*(d + e + f + g + h + 
i)*log(x - 1) + 1/144*(d + 2*e + 4*f + 8*g + 16*h + 32*i)*log(x - 2) - 1/1 
2*((3*d - 4*e + 6*f - 10*g + 18*h - 34*i)*x + 5*d - 6*e + 8*f - 12*g + 20* 
h - 36*i)/(x^2 + 3*x + 2)

Giac [A] (verification not implemented)

Time = 0.12 (sec) , antiderivative size = 143, normalized size of antiderivative = 0.93 \[ \int \frac {\left (2-3 x+x^2\right ) \left (d+e x+f x^2+g x^3+h x^4+i x^5\right )}{\left (4-5 x^2+x^4\right )^2} \, dx=\frac {1}{144} \, {\left (31 \, d - 50 \, e + 76 \, f - 104 \, g + 112 \, h - 32 \, i\right )} \log \left ({\left | x + 2 \right |}\right ) - \frac {1}{36} \, {\left (7 \, d - 13 \, e + 19 \, f - 25 \, g + 31 \, h - 37 \, i\right )} \log \left ({\left | x + 1 \right |}\right ) - \frac {1}{36} \, {\left (d + e + f + g + h + i\right )} \log \left ({\left | x - 1 \right |}\right ) + \frac {1}{144} \, {\left (d + 2 \, e + 4 \, f + 8 \, g + 16 \, h + 32 \, i\right )} \log \left ({\left | x - 2 \right |}\right ) - \frac {{\left (3 \, d - 4 \, e + 6 \, f - 10 \, g + 18 \, h - 34 \, i\right )} x + 5 \, d - 6 \, e + 8 \, f - 12 \, g + 20 \, h - 36 \, i}{12 \, {\left (x + 2\right )} {\left (x + 1\right )}} \] Input: 

integrate((x^2-3*x+2)*(i*x^5+h*x^4+g*x^3+f*x^2+e*x+d)/(x^4-5*x^2+4)^2,x, a 
lgorithm="giac")

Output: 

1/144*(31*d - 50*e + 76*f - 104*g + 112*h - 32*i)*log(abs(x + 2)) - 1/36*( 
7*d - 13*e + 19*f - 25*g + 31*h - 37*i)*log(abs(x + 1)) - 1/36*(d + e + f 
+ g + h + i)*log(abs(x - 1)) + 1/144*(d + 2*e + 4*f + 8*g + 16*h + 32*i)*l 
og(abs(x - 2)) - 1/12*((3*d - 4*e + 6*f - 10*g + 18*h - 34*i)*x + 5*d - 6* 
e + 8*f - 12*g + 20*h - 36*i)/((x + 2)*(x + 1))

Mupad [B] (verification not implemented)

Time = 19.37 (sec) , antiderivative size = 151, normalized size of antiderivative = 0.99 \[ \int \frac {\left (2-3 x+x^2\right ) \left (d+e x+f x^2+g x^3+h x^4+i x^5\right )}{\left (4-5 x^2+x^4\right )^2} \, dx=\ln \left (x-2\right )\,\left (\frac {d}{144}+\frac {e}{72}+\frac {f}{36}+\frac {g}{18}+\frac {h}{9}+\frac {2\,i}{9}\right )-\ln \left (x-1\right )\,\left (\frac {d}{36}+\frac {e}{36}+\frac {f}{36}+\frac {g}{36}+\frac {h}{36}+\frac {i}{36}\right )-\ln \left (x+1\right )\,\left (\frac {7\,d}{36}-\frac {13\,e}{36}+\frac {19\,f}{36}-\frac {25\,g}{36}+\frac {31\,h}{36}-\frac {37\,i}{36}\right )+\ln \left (x+2\right )\,\left (\frac {31\,d}{144}-\frac {25\,e}{72}+\frac {19\,f}{36}-\frac {13\,g}{18}+\frac {7\,h}{9}-\frac {2\,i}{9}\right )-\frac {\frac {5\,d}{12}-\frac {e}{2}+\frac {2\,f}{3}-g+\frac {5\,h}{3}-3\,i+x\,\left (\frac {d}{4}-\frac {e}{3}+\frac {f}{2}-\frac {5\,g}{6}+\frac {3\,h}{2}-\frac {17\,i}{6}\right )}{x^2+3\,x+2} \] Input: 

int(((x^2 - 3*x + 2)*(d + e*x + f*x^2 + g*x^3 + h*x^4 + i*x^5))/(x^4 - 5*x 
^2 + 4)^2,x)

Output: 

log(x - 2)*(d/144 + e/72 + f/36 + g/18 + h/9 + (2*i)/9) - log(x - 1)*(d/36 
 + e/36 + f/36 + g/36 + h/36 + i/36) - log(x + 1)*((7*d)/36 - (13*e)/36 + 
(19*f)/36 - (25*g)/36 + (31*h)/36 - (37*i)/36) + log(x + 2)*((31*d)/144 - 
(25*e)/72 + (19*f)/36 - (13*g)/18 + (7*h)/9 - (2*i)/9) - ((5*d)/12 - e/2 + 
 (2*f)/3 - g + (5*h)/3 - 3*i + x*(d/4 - e/3 + f/2 - (5*g)/6 + (3*h)/2 - (1 
7*i)/6))/(3*x + x^2 + 2)

Reduce [B] (verification not implemented)

Time = 0.16 (sec) , antiderivative size = 667, normalized size of antiderivative = 4.36 \[ \int \frac {\left (2-3 x+x^2\right ) \left (d+e x+f x^2+g x^3+h x^4+i x^5\right )}{\left (4-5 x^2+x^4\right )^2} \, dx =\text {Too large to display} \] Input: 

int((x^2-3*x+2)*(i*x^5+h*x^4+g*x^3+f*x^2+e*x+d)/(x^4-5*x^2+4)^2,x)

Output: 

(log(x - 2)*d*x**2 + 3*log(x - 2)*d*x + 2*log(x - 2)*d + 2*log(x - 2)*e*x* 
*2 + 6*log(x - 2)*e*x + 4*log(x - 2)*e + 4*log(x - 2)*f*x**2 + 12*log(x - 
2)*f*x + 8*log(x - 2)*f + 8*log(x - 2)*g*x**2 + 24*log(x - 2)*g*x + 16*log 
(x - 2)*g + 16*log(x - 2)*h*x**2 + 48*log(x - 2)*h*x + 32*log(x - 2)*h + 3 
2*log(x - 2)*i*x**2 + 96*log(x - 2)*i*x + 64*log(x - 2)*i - 4*log(x - 1)*d 
*x**2 - 12*log(x - 1)*d*x - 8*log(x - 1)*d - 4*log(x - 1)*e*x**2 - 12*log( 
x - 1)*e*x - 8*log(x - 1)*e - 4*log(x - 1)*f*x**2 - 12*log(x - 1)*f*x - 8* 
log(x - 1)*f - 4*log(x - 1)*g*x**2 - 12*log(x - 1)*g*x - 8*log(x - 1)*g - 
4*log(x - 1)*h*x**2 - 12*log(x - 1)*h*x - 8*log(x - 1)*h - 4*log(x - 1)*i* 
x**2 - 12*log(x - 1)*i*x - 8*log(x - 1)*i + 31*log(x + 2)*d*x**2 + 93*log( 
x + 2)*d*x + 62*log(x + 2)*d - 50*log(x + 2)*e*x**2 - 150*log(x + 2)*e*x - 
 100*log(x + 2)*e + 76*log(x + 2)*f*x**2 + 228*log(x + 2)*f*x + 152*log(x 
+ 2)*f - 104*log(x + 2)*g*x**2 - 312*log(x + 2)*g*x - 208*log(x + 2)*g + 1 
12*log(x + 2)*h*x**2 + 336*log(x + 2)*h*x + 224*log(x + 2)*h - 32*log(x + 
2)*i*x**2 - 96*log(x + 2)*i*x - 64*log(x + 2)*i - 28*log(x + 1)*d*x**2 - 8 
4*log(x + 1)*d*x - 56*log(x + 1)*d + 52*log(x + 1)*e*x**2 + 156*log(x + 1) 
*e*x + 104*log(x + 1)*e - 76*log(x + 1)*f*x**2 - 228*log(x + 1)*f*x - 152* 
log(x + 1)*f + 100*log(x + 1)*g*x**2 + 300*log(x + 1)*g*x + 200*log(x + 1) 
*g - 124*log(x + 1)*h*x**2 - 372*log(x + 1)*h*x - 248*log(x + 1)*h + 148*l 
og(x + 1)*i*x**2 + 444*log(x + 1)*i*x + 296*log(x + 1)*i + 12*d*x**2 - ...

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