How to call proof assistant Coq from external software? Does Coq have some API? Is Coq command line interface rich enough to pass arguments in file and receive response in file? I am interested in Java or C++ bridges.

This is legitimate question. Coq is not the usual business software from which one can expect the developer friendly API. I had similary question about Isabelle/HOL and it was legitimate question with non-trivial answer.

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    I see 3 close votes on this question, saying the question is too broad. I, personally, think it is a legitimate question. Probably someone could share some insight on how to make the question better (more focused, if you will), instead of just closing it right away? Sep 4, 2017 at 9:28
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    The framing of the question already seems to be precise enough to get an informative answer from a Coq developer. :-) But if the OP has a specific application in mind perhaps people can be even more helpful. Sep 4, 2017 at 19:22
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    My intention is to control Coq from github.com/opencog and use it as formal reasoning component (I am trying to implement additional logics in it) along the soft reasoning and knowledge representation available in OpenCog. But programming is not an issue here at all. If Coq is somehow available (and it is - as it can been from answers) from outside then that is fine. I can adapt, no problems. Programmatically talking to Coq is the simplest issue in my plans.
    – TomR
    Sep 4, 2017 at 20:14

2 Answers 2


answer edited for 2023 (disclaimer, I'm the main author of a few tools mentioned here)

As of today, there are three ways to interact with Coq, ordered from more effort to less power:

  1. The OCaml API: This is what Coq plugins do, however, some parts of the OCaml API are notoriously difficult to master and a high expertise is usually needed. The API also changes from one release to another making maintenance hard. There is not official documentation for the OCaml API other than looking at the source code, tho the automatically generated API docs may prove useful. There is an official plugin tutorial, and a few more unofficial ones floating around. Moreover the current Coq OCaml API is lacking some essential capabilities such as incremental document processing, see the next point.

  2. coq-lsp: The coq-lsp project allows users to talk to Coq using the Language Server Protocol standard. This is the protocol of choice for user interfaces. The protocol is language independent, but can be used easily from many other languages that provide LSP client libraries. coq-lsp is built on top a generic document manager called Flèche, implemented in OCaml, which offers a super-set of the LSP functionality.

  3. The command line: As the other answer details, this basically allows to check whether a file can be fully compiled by Coq. There are plans for the command line to become a simple LSP client.

Experimental ways

  1. PyCoq: PyCoq provides a direct Python binding to Coq. As of today, PyCoq exposes the SerAPI 1.0 API, but in the future it will expose Flèche's API which is a superset of LSP. The project doesn't have a lot of manpower these days, so help is welcome.

Deprecated ways:

  1. SerAPI: SerAPI is a protocol for machine-friendly communication with Coq, and provides mature interaction and seralization support. Some parts of it are tied to the OCaml API so it may not be fully stable, see webpage for more information. SerAPI's API has been deprecated in favor of LSP support, so while the project is still maintained, I strongly recommended to migrate your application to coq-lsp which offers many advantages over SerAPI.

  2. The XML protocol: This is what CoqIDE uses. It allows the client to perform basic Coq document operations such as checking a part of it, limited search, retrieving goals, etc... official documentation This API has several shortcomings and may be scheduled for removal. I don't recommend using it.

  3. Coqtop: some utils interact with the coqtop REPL, this is highly non-recommended.

Some additional links:


The command line seems to be the way to go.

Coq includes several command-line tools, including the coqc compiler. This program takes a Coq theory file as input and tries to compile it. If something is wrong with the theory, the command fails with a non-zero exit code and writes some feedback onto its output streams. If everything is OK, the command is (typically) silent, exits with a zero exit code, and writes a .vo file containing the compiled theory.

For example:

$ cat bad.v
Lemma zero_less_than_one: 0 < 1.
$ coqc bad.v ; echo $?
Error: There are pending proofs
$ cat good.v
Lemma zero_less_than_one: 0 < 1.
$ coqc good.v ; echo $?

Here are the docs for Coq's command line tools, which can take various flags: https://coq.inria.fr/refman/practical-tools/coq-commands.html

I am aware of two tools that use Coq as a subordinate proof engine: Frama-C and Why3. Looking at the sources at https://github.com/Frama-C/Frama-C-snapshot/blob/master/src/plugins/wp/ProverCoq.ml (methods compile and check) and at https://github.com/AdaCore/why3/tree/master/drivers, these tools also seem to dump Coq theories to a file and then call Coq's command-line tools. As far as I can tell, there is no more direct API for Coq.

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