package ppx_assert
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sha256=94c47289a6393642b1cca7d2cdb8decdbf387c3cee4faf50d9b00efc871cce8b
README.md.html
ppx_assert
Extension nodes to compare value and raise useful errors if they differ.
This ppx rewriter defines 3 extension nodes.
[%test_eq: typ]
in expressions
[%test_eq: typ]
in expressions expands to a function of type:
?equal:(type -> type -> bool) -> ?here:Lexing.position list -> type -> type -> unit
i.e., it asserts the equality of its two anonymous arguments, using the provided equality or [%compare: typ]
(sadly the type need to be comparable even if you provide an equality), and if they are not equal, an exception containing the value displayed by using [%sexp_of: typ]
is thrown.
The exception also contains the source code position of the extension node and the additional positions from the here parameter. The ?here parameter is meant for cases where you want additional locations, usually because the backtrace is lacking information.
[%test_result: typ]
in expressions
[%test_result: typ]
is very similar to [%test_eq:typ]
. It has a slightly improved error message for the common case where rather than comparing two arbitrary values, you have one expected value, and one computed value.
[%test_result: typ]
expands to a function of type:
?here:Lexing.position list -> ?message:string -> ?equal:(type -> type -> bool) -> expect:typ -> typ -> unit
[%test_pred: typ]
in expressions
This one is the least useful. [%test_pred: typ]
expands to a function of type:
?here:Lexing.position list -> ?message:string -> (type -> bool) -> type -> unit
It simply applies the given predicate to the given value, and if the predicate returns false
, then an exception containing the value shown using [%sexp_of: typ]
is thrown.
Intended usage
These assertions are very useful when testing. Compared to using assert (x = y)
, errors display the values that are not equal. Also, there is no mechanism to remove these tests in production builds like -noassert
does for assert
. Compared to using the various assert_bool
or assert_string
functions you can find in various unit testing libraries, it works with any sexpable and comparable type for zero effort. For instance, tests commonly look like this:
let%test_unit "List.length" =
[%test_result: int] (List.length [1; 2]) ~expect:2
let%test_unit "List.tail" =
[%test_result: int list] (List.tail [1; 2]) ~expect:[2]
However convenient these extensions are for testing, it is also possible to use these extensions even outside of test, in production code, for instance in a function that checks invariants, or when checking some form of precondition.