Input:
dsolve(y(pi,x)-y(-pi,x)=exp(x))
Write:
`dsolve(y(pi,x)-y(-pi,x)=exp(x))`
Compute:
$$dsolve(y^{(pi)}(x) - y^{((-pi))}(x)=exp(x))$$
Output:
$$dsolve(y^{(pi)}(x) - y^{((-pi))}(x)=exp(x))== C_1\ \frac{d^{{(-pi)}}E_{(-2)*pi} ({x}^{(-2)\ \pi })}{dx^{{(-pi)}}}+\frac {\frac{1}{2}}{\pi }\ ((-exp(x))\ \pi +exp(x)\ x)$$
Result: $$C_1\ \frac{d^{{(-pi)}}E_{(-2)*pi} ({x}^{(-2)\ \pi })}{dx^{{(-pi)}}}+\frac {\frac{1}{2}}{\pi }\ ((-exp(x))\ \pi +exp(x)\ x)$$
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