Extract operations from symbolic expression
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Hello,
given a symbolic expression, I want to extract the fundamental operations that take place in this symbolic expression. In the end, I want to create a Simulink model that does the same as the symbolic expression but without a simple matlab function block but with basic simulink blocks. For that, I need to know what happens to the inputs and in what order.
For example:
I have the symbolic expression z = cos(x)*y + y^2.
How exactly do I get the necessary information from the sym object? I want to extract that the cosine of x is computed which is then multiplied with y and then this product is added to the square of y.
Are there any built-in function that can help me with this? So far, the only solution I could think of was to parse the string generated by "simscapeEquation(z)"
Thanks so much!
2 commentaires
Walter Roberson
le 28 Jan 2023
If you have
z = cos(x)*y + y^2/cos(x)
then what would the desired output look like? For example are you hoping for a stream of RPN operations such as might be used for an HP29c calculator, with code like
x COS DUP y DUP SWAP2 * SWAP DUP * SWAP2 / +
? This specifies the stream of operations (and is at least partially optimized... I would have to think about whether you could do better by entering y first)
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Paul
le 28 Jan 2023
Hi Cedric
What's the objection to using a Matlab Function block? If that wasn't a constraint, you could use matlabFunctionBlock
Even if you break down the expression, what would be the next step for implementing all of the individual Simulink blocks to rebuild the expression in Simulink?
5 commentaires
Paul
le 29 Jan 2023
Modifié(e) : Paul
le 11 Fév 2023
Yes, symFunType is what would be needed. Don't know how I didn't see that.
Assuming the original expression can be implemented in Simulink in the first place ....
One feasible apprroach may be to use symvar to find out the inputs to the epxression and create inport blocks for those, and create an outport block for the output
Then recurse as follows:
Check the symFunType of the expression.
Map the result to the a Simulink library block and add it to the model.
Determine if the expression has additional children that need to processed.
All while keeping track of the parent block to to which the children blocks need to be connected.
Don't know if that will really work, but it seems like it might.
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