ligo/src/test/test_helpers.ml

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open! Trace
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type test_case = unit Alcotest.test_case
type test =
| Test_suite of (string * test list)
| Test of test_case
let wrap_test name f =
let result =
trace (error (thunk "running test") (thunk name)) @@
f () in
match result with
| Ok ((), annotations) -> ignore annotations; ()
| Error err ->
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Format.printf "%a\n%!" (Ligo.Display.error_pp ~dev:true) (err ()) ;
raise Alcotest.Test_error
let wrap_test_raw f =
match f () with
| Trace.Ok ((), annotations) -> ignore annotations; ()
| Error err ->
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Format.printf "%a\n%!" (Ligo.Display.error_pp ~dev:true) (err ())
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let test name f =
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Test (
Alcotest.test_case name `Quick @@ fun () ->
wrap_test name f
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)
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let test_suite name lst = Test_suite (name , lst)
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open Ast_simplified
let pack_payload (program:Ast_typed.program) (payload:expression) : bytes result =
let%bind code =
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let env = Ast_typed.program_environment program in
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let%bind (typed,_) = Compile.Of_simplified.compile_expression
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~env ~state:(Typer.Solver.initial_state) payload in
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let%bind mini_c = Compile.Of_typed.compile_expression typed in
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Compile.Of_mini_c.compile_expression mini_c in
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let (Ex_ty payload_ty) = code.expr_ty in
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let%bind (payload: Tezos_utils.Michelson.michelson) =
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Ligo.Run.Of_michelson.evaluate_expression code.expr code.expr_ty in
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Ligo.Run.Of_michelson.pack_payload payload payload_ty
let sign_message (program:Ast_typed.program) (payload : expression) sk : string result =
let open Tezos_crypto in
let%bind packed_payload = pack_payload program payload in
let signed_data = Signature.sign sk packed_payload in
let signature_str = Signature.to_b58check signed_data in
ok signature_str
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let contract id =
let open Proto_alpha_utils.Memory_proto_alpha in
let id = List.nth dummy_environment.identities id in
id.implicit_contract
let addr id =
let open Proto_alpha_utils.Memory_proto_alpha in
Protocol.Alpha_context.Contract.to_b58check @@ contract id
let gen_keys = fun () ->
let open Tezos_crypto in
let (raw_pkh,raw_pk,raw_sk) = Signature.generate_key () in
(raw_pkh,raw_pk,raw_sk)
let str_keys (raw_pkh, raw_pk, raw_sk) =
let open Tezos_crypto in
let sk_str = Signature.Secret_key.to_b58check raw_sk in
let pk_str = Signature.Public_key.to_b58check raw_pk in
let pkh_str = Signature.Public_key_hash.to_b58check raw_pkh in
(pkh_str,pk_str,sk_str)
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let sha_256_hash pl =
let open Proto_alpha_utils.Memory_proto_alpha.Alpha_environment in
Raw_hashes.sha256 pl
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open Ast_simplified.Combinators
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let typed_program_with_simplified_input_to_michelson
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(program: Ast_typed.program) (entry_point: string)
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(input: Ast_simplified.expression) : Compiler.compiled_expression result =
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let env = Ast_typed.program_environment program in
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let state = Typer.Solver.initial_state in
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let%bind app = Compile.Of_simplified.apply entry_point input in
let%bind (typed_app,_) = Compile.Of_simplified.compile_expression ~env ~state app in
let%bind compiled_applied = Compile.Of_typed.compile_expression typed_app in
let%bind mini_c_prg = Compile.Of_typed.compile program in
Compile.Of_mini_c.aggregate_and_compile_expression mini_c_prg compiled_applied
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let run_typed_program_with_simplified_input ?options
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(program: Ast_typed.program) (entry_point: string)
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(input: Ast_simplified.expression) : Ast_simplified.expression result =
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let%bind michelson_program = typed_program_with_simplified_input_to_michelson program entry_point input in
let%bind michelson_output = Ligo.Run.Of_michelson.run ?options michelson_program.expr michelson_program.expr_ty in
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Uncompile.uncompile_typed_program_entry_function_result program entry_point michelson_output
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let expect ?options program entry_point input expecter =
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let%bind result =
let run_error =
let title () = "expect run" in
let content () = Format.asprintf "Entry_point: %s" entry_point in
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error title content
in
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trace run_error @@
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run_typed_program_with_simplified_input ?options program entry_point input in
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expecter result
let expect_fail ?options program entry_point input =
let run_error =
let title () = "expect run" in
let content () = Format.asprintf "Entry_point: %s" entry_point in
error title content
in
trace run_error @@
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Assert.assert_fail @@
run_typed_program_with_simplified_input ?options program entry_point input
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let expect_string_failwith ?options program entry_point input expected_failwith =
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let%bind michelson_program = typed_program_with_simplified_input_to_michelson program entry_point input in
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let%bind err = Ligo.Run.Of_michelson.run_failwith
?options michelson_program.expr michelson_program.expr_ty in
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match err with
| Ligo.Run.Of_michelson.Failwith_string s -> Assert.assert_equal_string expected_failwith s
| _ -> simple_fail "Expected to fail with a string"
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let expect_eq ?options program entry_point input expected =
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let expecter = fun result ->
let expect_error =
let title () = "expect result" in
let content () = Format.asprintf "Expected %a, got %a"
Ast_simplified.PP.expression expected
Ast_simplified.PP.expression result in
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error title content in
trace expect_error @@
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Ast_simplified.Misc.assert_value_eq (expected , result) in
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expect ?options program entry_point input expecter
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let expect_evaluate program entry_point expecter =
let error =
let title () = "expect evaluate" in
let content () = Format.asprintf "Entry_point: %s" entry_point in
error title content in
trace error @@
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let%bind mini_c = Ligo.Compile.Of_typed.compile program in
let%bind (exp,_) = Mini_c.get_entry mini_c entry_point in
let%bind michelson_value = Ligo.Compile.Of_mini_c.aggregate_and_compile_expression mini_c exp in
let%bind res_michelson = Ligo.Run.Of_michelson.run michelson_value.expr michelson_value.expr_ty in
let%bind res_simpl = Uncompile.uncompile_typed_program_entry_expression_result program entry_point res_michelson in
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expecter res_simpl
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let expect_eq_evaluate program entry_point expected =
let expecter = fun result ->
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Ast_simplified.Misc.assert_value_eq (expected , result) in
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expect_evaluate program entry_point expecter
let expect_n_aux ?options lst program entry_point make_input make_expecter =
let aux n =
let input = make_input n in
let expecter = make_expecter n in
trace (simple_error ("expect_n " ^ (string_of_int n))) @@
let result = expect ?options program entry_point input expecter in
result
in
let%bind _ = bind_map_list aux lst in
ok ()
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let expect_eq_n_trace_aux ?options lst program entry_point make_input make_expected =
let aux n =
let%bind input = make_input n in
let%bind expected = make_expected n in
trace (simple_error ("expect_eq_n " ^ (string_of_int n))) @@
let result = expect_eq ?options program entry_point input expected in
result
in
let%bind _ = bind_map_list_seq aux lst in
ok ()
let expect_eq_exp_trace_aux ?options explst program entry_point make_input make_expected =
let aux exp =
let%bind input = make_input exp in
let%bind expected = make_expected exp in
let pps = Format.asprintf "%a" Ast_simplified.PP.expression exp in
trace (simple_error ("expect_eq_exp " ^ pps )) @@
let result = expect_eq ?options program entry_point input expected in
result
in
let%bind _ = bind_map_list_seq aux explst in
ok ()
let expect_failwith_exp_trace_aux ?options explst program entry_point make_input make_expected_failwith =
let aux exp =
let%bind input = make_input exp in
let%bind expected = make_expected_failwith exp in
let pps = Format.asprintf "%a" Ast_simplified.PP.expression exp in
trace (simple_error ("expect_eq_exp " ^ pps )) @@
let result = expect_string_failwith ?options program entry_point input expected in
result
in
let%bind _ = bind_map_list_seq aux explst in
ok ()
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let expect_eq_n_aux ?options lst program entry_point make_input make_expected =
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let aux n =
let input = make_input n in
let expected = make_expected n in
trace (simple_error ("expect_eq_n " ^ (string_of_int n))) @@
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let result = expect_eq ?options program entry_point input expected in
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result
in
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let%bind _ = bind_map_list_seq aux lst in
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ok ()
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let expect_eq_n ?options = expect_eq_n_aux ?options [0 ; 1 ; 2 ; 42 ; 163 ; -1]
let expect_eq_n_pos ?options = expect_eq_n_aux ?options [0 ; 1 ; 2 ; 42 ; 163]
let expect_eq_n_strict_pos ?options = expect_eq_n_aux ?options [2 ; 42 ; 163]
let expect_eq_n_pos_small ?options = expect_eq_n_aux ?options [0 ; 1 ; 2 ; 10]
let expect_eq_n_strict_pos_small ?options = expect_eq_n_aux ?options [1 ; 2 ; 10]
let expect_eq_n_pos_mid = expect_eq_n_aux [0 ; 1 ; 2 ; 10 ; 33]
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let expect_n_pos_small ?options = expect_n_aux ?options [0 ; 2 ; 10]
let expect_n_strict_pos_small ?options = expect_n_aux ?options [2 ; 10]
let expect_eq_b program entry_point make_expected =
let aux b =
let input = e_bool b in
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let expected = make_expected b in
expect_eq program entry_point input expected
in
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let%bind _ = bind_map_list_seq aux [false ; true] in
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ok ()
let expect_eq_n_int a b c =
expect_eq_n a b e_int (fun n -> e_int (c n))
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let expect_eq_b_bool a b c =
let open Ast_simplified.Combinators in
expect_eq_b a b (fun bool -> e_bool (c bool))
let rec test_height : test -> int = fun t ->
match t with
| Test _ -> 1
| Test_suite (_ , lst) -> (List.fold_left max 1 @@ List.map test_height lst) + 1
let extract_test : test -> test_case = fun t ->
match t with
| Test tc -> tc
| _ -> assert false
let extract_param : test -> (string * (string * test_case list) list) =
let extract_element = extract_test in
let extract_group : test -> (string * test_case list) = fun t ->
match t with
| Test tc -> ("isolated" , [ tc ])
| Test_suite (name , lst) -> (name , List.map extract_element lst) in
fun t ->
match t with
| Test tc -> ("" , [ ("isolated" , [ tc ] ) ])
| Test_suite (name , lst) -> (name , List.map extract_group lst)
let x : _ -> (unit Alcotest.test) = fun x -> x
(*
Alcotest.run parameters:
string * (string * f list) list
*)
let rec run_test ?(prefix = "") : test -> unit = fun t ->
match t with
| Test case -> Alcotest.run "isolated test" [ ("" , [ case ]) ]
| Test_suite (name , lst) -> (
if (test_height t <= 3) then (
let (name , tests) = extract_param t in
Alcotest.run (prefix ^ name) tests
) else (
List.iter (run_test ~prefix:(prefix ^ name ^ "_")) lst
)
)