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# IRIS COQ DEVELOPMENT

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This is the Coq development of the [Iris Project](http://iris-project.org).
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## Prerequisites
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This version is known to compile with:

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 - Coq 8.6.1 / 8.7.0
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 - Ssreflect 1.6.4
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 - A development version of [std++](https://gitlab.mpi-sws.org/robbertkrebbers/coq-stdpp)
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If you need to work with Coq 8.5, please check out the
[iris-3.0 branch](https://gitlab.mpi-sws.org/FP/iris-coq/tree/iris-3.0).

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The easiest way to install the correct versions of the dependencies is through
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opam.  You will need the Coq and Iris opam repositories:
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    opam repo add coq-released https://coq.inria.fr/opam/released
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    opam repo add iris-dev https://gitlab.mpi-sws.org/FP/opam-dev.git
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Once you got opam set up, run `make build-dep` to install the right versions
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of the dependencies.
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## Updating

After doing `git pull`, the development may fail to compile because of outdated
dependencies.  To fix that, please run `opam update` followed by
`make build-dep`.
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## Building
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Run `make -jN` to build the full development, where `N` is the number of your
CPU cores.
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## Directory Structure
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* The folder [algebra](theories/algebra) contains the COFE and CMRA
  constructions as well as the solver for recursive domain equations.
* The folder [base_logic](theories/base_logic) defines the Iris base logic and
  the primitive connectives.  It also contains derived constructions that are
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  entirely independent of the choice of resources.
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  * The subfolder [lib](theories/base_logic/lib) contains some generally useful
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    derived constructions.  Most importantly, it defines composeable
    dynamic resources and ownership of them; the other constructions depend
    on this setup.
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* The folder [program_logic](theories/program_logic) specializes the base logic
  to build Iris, the program logic.   This includes weakest preconditions that
  are defined for any language satisfying some generic axioms, and some derived
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  constructions that work for any such language.
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* The folder [proofmode](theories/proofmode) contains the Iris proof mode, which
  extends Coq with contexts for persistent and spatial Iris assertions. It also
  contains tactics for interactive proofs in Iris. Documentation can be found in
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  [ProofMode.md](ProofMode.md).
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* The folder [heap_lang](theories/heap_lang) defines the ML-like concurrent heap
  language
  * The subfolder [lib](theories/heap_lang/lib) contains a few derived
    constructions within this language, e.g., parallel composition.
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    For more examples of using Iris and heap_lang, have a look at the
    [Iris Examples](https://gitlab.mpi-sws.org/FP/iris-examples).
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* The folder [tests](theories/tests) contains modules we use to test our
  infrastructure. Users of the Iris Coq library should *not* depend on these
  modules; they may change or disappear without any notice.
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## Documentation
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A LaTeX version of the core logic definitions and some derived forms is
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available in [docs/iris.tex](docs/iris.tex).  A compiled PDF version of this
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document is [available online](http://plv.mpi-sws.org/iris/appendix-3.1.pdf).

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## Case Studies
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The following is a (probably incomplete) list of case studies that use Iris, and
that should be compatible with this version:

* [Iris Examples](https://gitlab.mpi-sws.org/FP/iris-examples) is where we
  collect miscellaneous case studies that do not have their own repository.
* [LambdaRust](https://gitlab.mpi-sws.org/FP/LambdaRust-coq/) is a Coq
  formalization of the core Rust type system.
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* [Iris Atomic](https://gitlab.mpi-sws.org/FP/iris-atomic/) is an experimental
  formalization of logically atomic triples in Iris.
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## For Developers: How to update the std++ dependency

* Do the change in std++, push it.
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* Wait for CI to publish a new std++ version on the opam archive, then run
  `opam update iris-dev`.
* In Iris, change the `opam` file to depend on the new version.
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* Run `make build-dep` (in Iris) to install the new version of std++.
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  You may have to do `make clean` as Coq will likely complain about .vo file
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  mismatches.