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I want to implement a tactic called solve, which can solve a linear equation expressed as a theorem. For example :

Theorem leq :  exists x , x + 3 = 2*x - 3 .

I want to implement "solve" as a tactic in Coq source code (in OCaml). How can I pass the goal (the linear equation) to OCaml and after solving it, return the value and complete the proof?

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1 Answer 1

See the following introduction to Coq plugins as a working example of implementing a tactic in OCaml. Note however that what the decision procedure you want to write is non-trivial, and:

  • it's not clear to me that you couldn't use ring or omega that already exists
  • proof-by-reflection approaches may allow you to develop the tactic in an easier and safer way, by reflecting the desired equation in a Coq datatype and implementing the solving procedure in Coq directly -- a small part of OCaml code could then be used to automate the syntactic reflection.
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