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I would like to know if there is a straightforward algorithm for rearranging simple symbolic algebraic expressions. Ideally I would like to be able to rewrite any such expression with one variable alone on the left hand side. For example, given the input:

m = (x + y) / 2

... I would like to be able to ask about x in terms of m and y, or y in terms of x and m, and get these:

x = 2*m - y
y = 2*m - x

Of course we've all done this algorithm on paper for years. But I was wondering if there was a name for it. It seems simple enough but if somebody has already cataloged the various "gotchas" it would make life easier.

For my purposes I won't need it to handle quadratics.

(And yes, CAS systems do this, and yes I know I could just use them as a library. I would like to avoid such a dependency in my application. I really would just like to know if there are named algorithms for approaching this problem.)

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those ' named algorithms ' are the ones implemented in a CAS. Is this a case of NIH? (Not Invented Here) –  Mitch Wheat Jan 2 '11 at 3:52

3 Answers 3

up vote 2 down vote accepted

What you want is equation solving algorithm(s). But i bet that this is huge topic. In general case, there may be:

  • system of equations
  • equations may be non-linear, thus additional algorithms such as equation factorization needed.
  • knowledge how to reverse functions is needed,- for example => sin(x) + 10 = z, solving for x we reverse sin(), which is arcsin(). (Not all functions may be reversible !)
  • finally some equations may be hard-solvable even for CAS, such as sin(x)+x=y, solve for x.

Hard answer is - your best bet is to take source code of some CAS,- for example you can take a look at MAXIMA CAS source code which is written in LISP. And find code which is responsible for equation solving.

Easy answer - if all that you need is solving equation which is linear and is composed only from basic operators +-*/. Then you know answer already - use old good paper method - think of what rules we used on paper, and just re-write these rules as symbolic algorithm which manipulates equation string.

good luck !

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I did some more research and discovered that constraint solvers all handle this sort of thing. Since my application is going to rely heavily on constraints anyway, I can use just use something like Choco or JaCoP. You're right about it being a huge topic, and I'm pretty sure your intuition (and the other answer below) is right that systems of equations are where it's at. –  Gabe Johnson Jan 3 '11 at 4:43

It seems like what you're interested in doing is maintaining a system of linear equations and then, at any time, being able to solve for one variable in terms of all the others. If you encode the relationships as a matrix, it seems like you could then reduce the matrix to some nice form (for example, reduced row echelon form) to get the "simplest" dependencies amongst the variables (for some nice definition of "simplest.") Once you have the data like this, you should be able to read off all the dependencies by just looking at some row that has a nonzero entry for the variable in question, then normalizing it so that the variable has coefficient one.

A note - in general, you won't always get a unique solution for each variable. For example, given the trivial equations

x = y
x = z

Then solving for z could yield either "z = x" or "z = y," depending on how much simplification you want. Or alternatively, in a setup like

x = 2y + 3w
x = 9z

Returning a value for x could hand back either expression, or their sum over two, or a whole bunch of other things that are all technically true but not necessarily useful. I'm not sure how you'd handle this, but depending on the form of your equations you can probably find a way to handle it.

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There are various simple ways in which the initial equation can be modified, performing the correct modifications in the correct order will lead to the correct solution. So how about seeing this as a search or even a pathfinding problem?

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