An implementation of normalization by evaluation (nbe) & semantic type checking for Martin-Löf Type Theory with dependent products, dependent sums, natural numbers, id, box, and a cumulative hierarchy of universes. This implementation supports eta-rules for box, pi, and sigma.
For examples, see the test/ directory.
The type theory underlying blott as well as the implementation is described in
Implementing a Modal Dependent Type Theory.
blott has been built with OCaml 4.06.1 and 4.07.1 with opam 2.0. Once these dependencies are installed blott can be built with the following set of commands.
$ opam update
$ opam pin add -y blott . # first time
$ opam upgrade # after packages change
After this, the executable blott should be available. The makefile can be used to rebuild the
package for small tests. Locally, blott is built with dune, running the above
commands will also install dune. Once dune is available the executable can be locally changed and
run with the following:
$ dune exec ./src/bin/main.exe # from the `blott` top-level directory
This experimental proof assistant supports the following top-level declarations:
- A definition, written
let NAME : TYPE = TERM - A command to normalize a definition
normalize def NAME - A command to normalize an expression
normalize TERM at TYPE
Unlike in the paper, names instead of indices are used for the surface syntax. The following are the valid expressions in blott.
(* Let bindings *)
let NAME = TERM in TERM
let NAME : TYPE = TERM in TERM
(* Natural numbers *)
nat, 0, 1, 2...
(* Recursion on natural numbers *)
rec NUMBER at x -> MOTIVE with
| zero -> TERM
| suc n, ih -> TERM
(* Functions *)
(NAME : TP) -> TP
fun NAME -> TERM
TERM TERM
(* Pairs *)
(NAME : TP) * TP
<TERM, TERM>
fst TERM
snd TERM
(* The box modality *)
[box TP]
[lock TERM]
[unlock TERM]
(* Universes *)
U<0>,U<1>,...
(* Identity types *)
Id TYPE TERM TERM
refl TERM
match PRF at x y prf -> MOTIVE with
| refl x -> TERMA small collection of example programs is contained in the test/ directory. See test/README.md
for a brief description of each program's purpose.