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I have the expression D[f[x, y], x], and I want to substitute f[x,y] with x*y, I tried the following:

D[f[x, y], x] /. {f[x,y] -> x*y} and D[f[x, y], x] /. {f -> x*y}

But neither worked. Would appreciate your help! Thanks.

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up vote 10 down vote accepted

The FullForm of the derivative in your expression is

In[145]:= D[f[x,y],x]//FullForm

Out[145]//FullForm= Derivative[1,0][f][x,y]

This should explain why the first rule failed - there is no f[x,y] in your expression any more. The second rule failed because Derivative considers f to be a function, while you substitute it by an expression. What you can do is:

In[146]:= D[f[x,y],x]/.f->(#1*#2&)

Out[146]= y

Note that the parentheses around a pure function are essential, to avoid precedence - related bugs.

Alternatively, you could define your r.h.s through patterns:


Out[149]= y


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great, thanks. Initially, I did not understand the FullForm fully. :) – Qiang Li Feb 12 '11 at 0:11
what does HTH mean? I saw this several times already, but never got its meaning. – Qiang Li Feb 12 '11 at 0:15
"Hope this helps" – joebolte Feb 12 '11 at 0:16
Lenoid's answer is correct. Slightly more generally, D[f[x,y],x]/.f->Times will work for any number of arguments to f. – joebolte Feb 12 '11 at 0:21
HTH............ :) – joebolte Feb 12 '11 at 0:23

Nothing new, just the way I usually think of it:

D[f[x, y], x] /. f -> Function[{x, y}, x y]


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You can also try Hold and Release or Defer etc.

Hold@D[f[x, y], x] /. {f[x, y] -> x*y}

D[x y, x]    

Hold@D[f[x, y], x] /. {f[x, y] -> x*y} // Release

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