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I want to have abstract $f$ function that has a given derivative. But, when I try to substitute it to D[0](f)(t), Sage says:

NameError: name 'D' is not defined



    R.<t,u1,u2> = PolynomialRing(RR,3,'t' 'u1' 'u2') 
    tmp1 = r1*k1*u1-(r1/k1)*k1^2*u1^2-r1*b12/k1*k1*u1*k2*u2

    f=function('f',t)
    a=diff(f)
    a.substitute_expression((D[0](f)(t))==tmp1)

tmp1.integral() won't do the job. I also can't substitute the integral, although it gives no warning.

%var u10, u20,r1,r2,k1,k2,b12,b21,t
u1=function('u1',t)
u2=function('u2',t)
tmp1 = r1*k1*u1-(r1/k1)*k1^2*u1^2-r1*b12/k1*k1*u1*k2*u2
tmp2 = r2*u2*k2-r2/k2*k2^2*u2^2-((r2*b21)/k2)*u1*u2*k1*k2    
v1=integral(tmp1,t)
v2=integral(tmp2,t)
sep1=tmp1.substitute_expression(u1==v1,u2==v2)
sep2=tmp2.substitute_expression(u1==v1,u2==v2)
trial=diff(sep1,t)
trial.substitute_expression((integrate(-b12*k2*r1*u1(t)*u2(t) - k1*r1*u1(t)^2 +    k1*r1*u1(t), t))==v1,  (integrate(-b12*k2*r1*u1(t)*u2(t) - k1*r1*u1(t)^2 + k1*r1*u1(t), t))==v2)

Now let's go back to original version:

d1=diff(tmp1,t)
d1.substitute_function((D[0](u1)(t)),tmp1)



Error in lines 13-13
Traceback (most recent call last):
  File "/projects/b501d31c-1f5d-48aa-bee3-73a2dcb30a39/.sagemathcloud/sage_server.py", line 733, in execute
    exec compile(block+'\n', '', 'single') in namespace, locals
 File "", line 1, in <module>
NameError: name 'D' is not defined
share|improve this question
    
What you are asking simply doesn't make sense to Sage: D[0](f)(t) is a graphical representation of the derivative of f, not an expression. Maybe you want tmp1.integral(t)? –  Luca De Feo May 21 at 18:28
    
Not really. Isn't there a way to substitute it? Problem is that I also have for example variables $$u_1,u_2$$ and their derivates $$du_1/dt$$, $$du_2/dt$$ depend on $$u_1,u_2$$. I want to compute nth derivative of $$u_1,u_2$$ –  Michał Migacz May 21 at 19:24
    
The code you pasted cannot possibly define du₂/dt. As you defined it, the derivative of u1 with respect to t is simply 0, try it yourself. You must have defined u1 another way. Can you paste a working example? –  Luca De Feo May 21 at 22:05
    
I have just added a working example –  Michał Migacz May 22 at 8:27
    
I do not understand what you want do achieve. Why do you say "you can't substitute the integral"? Do you want to solve a differential equation? Maybe have a look at sagemath.org/doc/reference/calculus/sage/calculus/… –  Luca De Feo May 22 at 9:42

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