ode:=diff(y(x),x) = a*exp(lambda*x)*y(x)^2+b*exp(-lambda*x); 
dsolve(ode,y(x), singsol=all);
 

\[ y = -\frac {\left (\lambda ^{2}-\tan \left (\frac {\sqrt {4 a b \,\lambda ^{2}-\lambda ^{4}}\, \left (\lambda x +c_{1} \right )}{2 \lambda ^{2}}\right ) \sqrt {4 a b \,\lambda ^{2}-\lambda ^{4}}\right ) {\mathrm e}^{-\lambda x}}{2 a \lambda } \]

ode=D[y[x],x]==a*Exp[\[Lambda]*x]*y[x]^2+b*Exp[-\[Lambda]*x]; 
ic={}; 
DSolve[{ode,ic},y[x],x,IncludeSingularSolutions->True]
 

from sympy import * 
x = symbols("x") 
a = symbols("a") 
b = symbols("b") 
cg = symbols("cg") 
y = Function("y") 
ode = Eq(-a*y(x)**2*exp(cg*x) - b*exp(-cg*x) + Derivative(y(x), x),0) 
ics = {} 
dsolve(ode,func=y(x),ics=ics)
 

\[ y{\left (x \right )} = \frac {\left (4 a b \sqrt {- \frac {1}{4 a b - cg^{2}}} e^{\frac {\sqrt {- \frac {1}{4 a b - cg^{2}}} \left (4 C_{1} a b - cg \left (C_{1} cg + 4 a b x - cg^{2} x\right )\right )}{cg}} + 4 a b \sqrt {- \frac {1}{4 a b - cg^{2}}} - cg^{2} \sqrt {- \frac {1}{4 a b - cg^{2}}} e^{\frac {\sqrt {- \frac {1}{4 a b - cg^{2}}} \left (4 C_{1} a b - cg \left (C_{1} cg + 4 a b x - cg^{2} x\right )\right )}{cg}} - cg^{2} \sqrt {- \frac {1}{4 a b - cg^{2}}} - cg e^{\frac {\sqrt {- \frac {1}{4 a b - cg^{2}}} \left (4 C_{1} a b - cg \left (C_{1} cg + 4 a b x - cg^{2} x\right )\right )}{cg}} + cg\right ) e^{- cg x}}{2 a \left (e^{\frac {\sqrt {- \frac {1}{4 a b - cg^{2}}} \left (4 C_{1} a b - cg \left (C_{1} cg + 4 a b x - cg^{2} x\right )\right )}{cg}} - 1\right )} \]