126 lines
3.5 KiB
Markdown
126 lines
3.5 KiB
Markdown
# Pantograph
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A Machine-to-Machine interaction system for Lean 4.
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Pantograph provides interfaces to execute proofs, construct expressions, and
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examine the symbol list of a Lean project for machine learning.
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## Installation
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For Nix users, run
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``` sh
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nix build .#{sharedLib,executable}
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```
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to build either the shared library or executable.
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Install `elan` and `lake`, and run
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``` sh
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lake build
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```
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This builds the executable in `.lake/build/bin/pantograph-repl`.
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## Executable Usage
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``` sh
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pantograph MODULES|LEAN_OPTIONS
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```
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The REPL loop accepts commands as single-line JSON inputs and outputs either an
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`Error:` (indicating malformed command) or a JSON return value indicating the
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result of a command execution. The command can be passed in one of two formats
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```
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command { ... }
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{ "cmd": command, "payload": ... }
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```
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The list of available commands can be found in `Pantograph/Protocol.lean` and below. An
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empty command aborts the REPL.
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The `pantograph` executable must be run with a list of modules to import. It can
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also accept lean options of the form `--key=value` e.g. `--pp.raw=true`.
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Example: (~5k symbols)
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```
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$ pantograph Init
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env.catalog
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env.inspect {"name": "Nat.le_add_left"}
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```
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Example with `mathlib4` (~90k symbols, may stack overflow, see troubleshooting)
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```
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$ pantograph Mathlib.Analysis.Seminorm
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env.catalog
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```
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Example proving a theorem: (alternatively use `goal.start {"copyFrom": "Nat.add_comm"}`) to prime the proof
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```
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$ pantograph Init
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goal.start {"expr": "∀ (n m : Nat), n + m = m + n"}
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goal.tactic {"stateId": 0, "goalId": 0, "tactic": "intro n m"}
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goal.tactic {"stateId": 1, "goalId": 0, "tactic": "assumption"}
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goal.delete {"stateIds": [0]}
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stat {}
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goal.tactic {"stateId": 1, "goalId": 0, "tactic": "rw [Nat.add_comm]"}
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stat
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```
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where the application of `assumption` should lead to a failure.
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For a list of commands, see [REPL Documentation](doc/repl.md).
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### Project Environment
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To use Pantograph in a project environment, setup the `LEAN_PATH` environment
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variable so it contains the library path of lean libraries. The libraries must
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be built in advance. For example, if `mathlib4` is stored at `../lib/mathlib4`,
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the environment might be setup like this:
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``` sh
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LIB="../lib"
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LIB_MATHLIB="$LIB/mathlib4/.lake"
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export LEAN_PATH="$LIB/mathlib4/build/lib:$LIB_MATHLIB/aesop/build/lib:$LIB_MATHLIB/Qq/build/lib:$LIB_MATHLIB/std/build/lib"
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LEAN_PATH=$LEAN_PATH build/bin/pantograph $@
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```
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The `$LEAN_PATH` executable of any project can be extracted by
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``` sh
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lake env printenv LEAN_PATH
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```
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### Troubleshooting
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If lean encounters stack overflow problems when printing catalog, execute this before running lean:
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```sh
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ulimit -s unlimited
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```
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## Library Usage
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`Pantograph/Library.lean` exposes a series of interfaces which allow FFI call
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with `Pantograph` which mirrors the REPL commands above. It is recommended to
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call Pantograph via this FFI since it provides a tremendous speed up.
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The executable can be used as-is, but linking against the shared library
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requires the presence of `lean-all`. Note that there isn't a 1-1 correspondence
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between executable (REPL) commands and library functions.
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Inject any project path via the `pantograph_init_search` function.
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## Developing
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A Lean development shell is provided in the Nix flake.
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### Testing
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The tests are based on `LSpec`. To run tests, use either
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``` sh
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nix flake check
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```
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or
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``` sh
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lake test
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```
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You can run an individual test by specifying a prefix
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``` sh
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lake test -- "Tactic/No Confuse"
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```
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