## Wherefore?

### The usecase context in which my problem occures

I define 3 random item of a triangle. Microsoft Z3 should output:

- Are the constraints satisfiabe or are there invalid input values?
- A model for all the other triangle items where all the variables are assigned to concrete values.

In order to constrain the items i need to ** assert** triangle equalities - i wanted to start out with the Pythagorean Theorem (

`(h_c² + p² = b²) ^ (h_c² + q² = a²)`

).## The Problem

I know that Microsoft Z3 has only limited capabilities to solve non-linear arithematic problems. But even some hand calculators are able to solve a very *simplified version* like this:

```
(set-option :print-success true)
(set-option :produce-proofs true)
(declare-const a Real)
(declare-const b Real)
(assert (= a 1.0))
(assert (= b 1.0))
(assert
(exists
((c Real))
(=
(+
(* a a)
(* b b)
)
(* c c)
)
)
)
(check-sat)
(get-model)
```

## The Question

- Is there a way to get Microsoft Z3 to solve the Pythagorean Theorem if two values are given?
- Or: Is there another theorem prover which is able to handle these case of non-linear arithmetic?

Thanks for your help concerning that - If anything is unclear, please comment.