open Trace open Test_helpers open Ast_imperative.Combinators let retype_file f = let%bind typed,state = Ligo.Compile.Utils.type_file f "reasonligo" Env in let () = Typer.Solver.discard_state state in ok typed let mtype_file f = let%bind typed,state = Ligo.Compile.Utils.type_file f "cameligo" Env in let () = Typer.Solver.discard_state state in ok typed let type_file f = let%bind typed,state = Ligo.Compile.Utils.type_file f "pascaligo" Env in let () = Typer.Solver.discard_state state in ok typed let type_alias () : unit result = let%bind program = type_file "./contracts/type-alias.ligo" in expect_eq_evaluate program "foo" (e_int 23) let function_ () : unit result = let%bind program = type_file "./contracts/function.ligo" in let make_expect = fun n -> n in expect_eq_n_int program "main" make_expect let blockless () : unit result = let%bind program = type_file "./contracts/blockless.ligo" in let make_expect = fun n-> n + 10 in expect_eq_n_int program "blockless" make_expect (* Procedures are not supported yet let procedure () : unit result = let%bind program = type_file "./contracts/procedure.ligo" in let make_expect = fun n -> n + 1 in expect_eq_n_int program "main" make_expect *) let assign () : unit result = let%bind program = type_file "./contracts/assign.ligo" in let make_expect = fun n -> n + 1 in expect_eq_n_int program "main" make_expect let annotation () : unit result = let%bind program = type_file "./contracts/annotation.ligo" in let%bind () = expect_eq_evaluate program "lst" (e_list []) in let%bind () = expect_eq_evaluate program "my_address" (e_address "tz1KqTpEZ7Yob7QbPE4Hy4Wo8fHG8LhKxZSx") in ok () let complex_function () : unit result = let%bind program = type_file "./contracts/function-complex.ligo" in let make_expect = fun n -> (3 * n + 2) in expect_eq_n_int program "main" make_expect let anon_function () : unit result = let%bind program = type_file "./contracts/function-anon.ligo" in let%bind () = expect_eq_evaluate program "x" (e_int 42) in ok () let application () : unit result = let%bind program = type_file "./contracts/application.ligo" in let%bind () = let expected = e_int 42 in expect_eq_evaluate program "x" expected in let%bind () = let expected = e_int 42 in expect_eq_evaluate program "y" expected in let%bind () = let expected = e_int 42 in expect_eq_evaluate program "z" expected in ok () let variant () : unit result = let%bind program = type_file "./contracts/variant.ligo" in let%bind () = let expected = e_constructor "Foo" (e_int 42) in expect_eq_evaluate program "foo" expected in let%bind () = let expected = e_constructor "Bar" (e_bool true) in expect_eq_evaluate program "bar" expected in let%bind () = let expected = e_constructor "Kee" (e_nat 23) in expect_eq_evaluate program "kee" expected in ok () let variant_mligo () : unit result = let%bind program = mtype_file "./contracts/variant.mligo" in let%bind () = let expected = e_constructor "Foo" (e_int 42) in expect_eq_evaluate program "foo" expected in let%bind () = let expected = e_constructor "Bar" (e_bool true) in expect_eq_evaluate program "bar" expected in let%bind () = let expected = e_constructor "Kee" (e_nat 23) in expect_eq_evaluate program "kee" expected in ok () let variant_religo () : unit result = let%bind program = retype_file "./contracts/variant.religo" in let%bind () = let expected = e_constructor "Foo" (e_int 42) in expect_eq_evaluate program "foo" expected in let%bind () = let expected = e_constructor "Bar" (e_bool true) in expect_eq_evaluate program "bar" expected in let%bind () = let expected = e_constructor "Kee" (e_nat 23) in expect_eq_evaluate program "kee" expected in ok () let variant_matching () : unit result = let%bind program = type_file "./contracts/variant-matching.ligo" in let%bind () = let make_input = fun n -> e_constructor "Foo" (e_int n) in let make_expected = e_int in expect_eq program "fb" (make_input 0) (make_expected 0) >>? fun () -> expect_eq_n program "fb" make_input make_expected >>? fun () -> expect_eq program "fb" (e_constructor "Kee" (e_nat 50)) (e_int 23) >>? fun () -> expect_eq program "fb" (e_constructor "Bar" (e_bool true)) (e_int 42) >>? fun () -> ok () in ok () let closure () : unit result = let%bind program = type_file "./contracts/closure.ligo" in let%bind program_1 = type_file "./contracts/closure-1.ligo" in let%bind program_2 = type_file "./contracts/closure-2.ligo" in let%bind program_3 = type_file "./contracts/closure-3.ligo" in let%bind _ = let make_expect = fun n -> (49 + n) in expect_eq_n_int program_3 "foobar" make_expect in let%bind _ = let make_expect = fun n -> (45 + n) in expect_eq_n_int program_2 "foobar" make_expect in let%bind () = let make_expect = fun n -> (2 * n) in expect_eq_n_int program_1 "foo" make_expect in let%bind _ = let make_expect = fun n -> (4 * n) in expect_eq_n_int program "toto" make_expect in ok () let closure_mligo () : unit result = let%bind program = mtype_file "./contracts/closure.mligo" in let%bind _ = let input = e_int 0 in let expected = e_int 25 in expect_eq program "test" input expected in ok () let closure_religo () : unit result = let%bind program = retype_file "./contracts/closure.religo" in let%bind _ = let input = e_int 0 in let expected = e_int 25 in expect_eq program "test" input expected in ok () let shadow () : unit result = let%bind program = type_file "./contracts/shadow.ligo" in let make_expect = fun _ -> 0 in expect_eq_n_int program "foo" make_expect let higher_order () : unit result = let%bind program = type_file "./contracts/high-order.ligo" in let make_expect = fun n -> n in let%bind _ = expect_eq_n_int program "foobar" make_expect in let%bind _ = expect_eq_n_int program "foobar2" make_expect in let%bind _ = expect_eq_n_int program "foobar3" make_expect in let%bind _ = expect_eq_n_int program "foobar4" make_expect in let%bind _ = expect_eq_n_int program "foobar5" make_expect in (* let%bind _ = applies_expect_eq_n_int program "foobar5" make_expect in *) ok () let higher_order_mligo () : unit result = let%bind program = mtype_file "./contracts/high-order.mligo" in let make_expect = fun n -> n in let%bind _ = expect_eq_n_int program "foobar" make_expect in let%bind _ = expect_eq_n_int program "foobar2" make_expect in let%bind _ = expect_eq_n_int program "foobar3" make_expect in let%bind _ = expect_eq_n_int program "foobar4" make_expect in let%bind _ = expect_eq_n_int program "foobar5" make_expect in ok () let higher_order_religo () : unit result = let%bind program = retype_file "./contracts/high-order.religo" in let make_expect = fun n -> n in let%bind _ = expect_eq_n_int program "foobar" make_expect in let%bind _ = expect_eq_n_int program "foobar2" make_expect in let%bind _ = expect_eq_n_int program "foobar3" make_expect in let%bind _ = expect_eq_n_int program "foobar4" make_expect in let%bind _ = expect_eq_n_int program "foobar5" make_expect in ok () let shared_function () : unit result = let%bind program = type_file "./contracts/function-shared.ligo" in let%bind () = let make_expect = fun n -> (n + 1) in expect_eq_n_int program "inc" make_expect in let%bind () = expect_eq program "double_inc" (e_int 0) (e_int 2) in let%bind () = let make_expect = fun n -> (n + 2) in expect_eq_n_int program "double_inc" make_expect in let%bind () = let make_expect = fun n -> (2 * n + 3) in expect_eq program "foo" (e_int 0) (e_int @@ make_expect 0) in let%bind () = let make_expect = fun n -> (2 * n + 3) in expect_eq_n_int program "foo" make_expect in ok () let shared_function_mligo () : unit result = let%bind program = mtype_file "./contracts/function-shared.mligo" in let%bind () = let make_expect = fun n -> (2 * n + 70) in expect_eq_n_int program "foobar" make_expect in ok () let shared_function_religo () : unit result = let%bind program = retype_file "./contracts/function-shared.religo" in let%bind () = let make_expect = fun n -> (2 * n + 70) in expect_eq_n_int program "foobar" make_expect in ok () let bool_expression () : unit result = let%bind program = type_file "./contracts/boolean_operators.ligo" in let%bind _ = let aux (name , f) = expect_eq_b_bool program name f in bind_map_list aux [ ("or_true", fun b -> b || true) ; ("or_false", fun b -> b || false) ; ("and_true", fun b -> b && true) ; ("and_false", fun b -> b && false) ; ("not_bool", fun b -> not b) ; ] in ok () let bool_expression_mligo () : unit result = let%bind program = mtype_file "./contracts/boolean_operators.mligo" in let%bind _ = let aux (name, f) = expect_eq_b_bool program name f in bind_map_list aux [ ("or_true", fun b -> b || true) ; ("or_false", fun b -> b || false) ; ("and_true", fun b -> b && true) ; ("and_false", fun b -> b && false) ; ("not_bool", fun b -> not b) ; ] in ok () let bool_expression_religo () : unit result = let%bind program = retype_file "./contracts/boolean_operators.religo" in let%bind _ = let aux (name, f) = expect_eq_b_bool program name f in bind_map_list aux [ ("or_true", fun b -> b || true) ; ("or_false", fun b -> b || false) ; ("and_true", fun b -> b && true) ; ("and_false", fun b -> b && false) ; ("not_bool", fun b -> not b) ; ] in ok () let arithmetic () : unit result = let%bind program = type_file "./contracts/arithmetic.ligo" in let%bind _ = let aux (name , f) = expect_eq_n_int program name f in bind_map_list aux [ ("plus_op", fun n -> (n + 42)) ; ("minus_op", fun n -> (n - 42)) ; ("times_op", fun n -> (n * 42)) ; ("neg_op", fun n -> (-n)) ; ] in let%bind () = expect_eq_n_pos program "int_op" e_nat e_int in let%bind () = expect_eq_n_pos program "mod_op" e_int (fun n -> e_nat (n mod 42)) in let%bind () = expect_eq_n_pos program "div_op" e_int (fun n -> e_int (n / 2)) in ok () let arithmetic_mligo () : unit result = let%bind program = mtype_file "./contracts/arithmetic.mligo" in let%bind _ = let aux (name, f) = expect_eq_n_int program name f in bind_map_list aux [ ("plus_op", fun n -> (n + 42)) ; ("minus_op", fun n -> (n - 42)) ; ("times_op", fun n -> (n * 42)) ; ("neg_op", fun n -> (-n)) ; ("neg_op_2", fun n -> -(n + 10)) ; ] in let%bind () = expect_eq_n_pos program "mod_op" e_int (fun n -> e_nat (n mod 42)) in let%bind () = expect_eq_n_pos program "div_op" e_int (fun n -> e_int (n / 2)) in ok () let arithmetic_religo () : unit result = let%bind program = retype_file "./contracts/arithmetic.religo" in let%bind _ = let aux (name, f) = expect_eq_n_int program name f in bind_map_list aux [ ("plus_op", fun n -> (n + 42)) ; ("minus_op", fun n -> (n - 42)) ; ("times_op", fun n -> (n * 42)) ; ("neg_op", fun n -> (-n)) ; ("neg_op_2", fun n -> -(n + 10)) ; ] in let%bind () = expect_eq_n_pos program "mod_op" e_int (fun n -> e_nat (n mod 42)) in let%bind () = expect_eq_n_pos program "div_op" e_int (fun n -> e_int (n / 2)) in ok () let bitwise_arithmetic () : unit result = let%bind program = type_file "./contracts/bitwise_arithmetic.ligo" in let%bind () = expect_eq program "or_op" (e_nat 7) (e_nat 7) in let%bind () = expect_eq program "or_op" (e_nat 3) (e_nat 7) in let%bind () = expect_eq program "or_op" (e_nat 2) (e_nat 6) in let%bind () = expect_eq program "or_op" (e_nat 14) (e_nat 14) in let%bind () = expect_eq program "or_op" (e_nat 10) (e_nat 14) in let%bind () = expect_eq program "and_op" (e_nat 7) (e_nat 7) in let%bind () = expect_eq program "and_op" (e_nat 3) (e_nat 3) in let%bind () = expect_eq program "and_op" (e_nat 2) (e_nat 2) in let%bind () = expect_eq program "and_op" (e_nat 14) (e_nat 6) in let%bind () = expect_eq program "and_op" (e_nat 10) (e_nat 2) in let%bind () = expect_eq program "xor_op" (e_nat 0) (e_nat 7) in let%bind () = expect_eq program "xor_op" (e_nat 7) (e_nat 0) in let%bind () = expect_eq program "lsl_op" (e_nat 1000) (e_nat 128000) in let%bind () = expect_eq program "lsr_op" (e_nat 128000) (e_nat 1000) in ok () let bitwise_arithmetic_mligo () : unit result = let%bind program = mtype_file "./contracts/bitwise_arithmetic.mligo" in let%bind () = expect_eq program "or_op" (e_nat 7) (e_nat 7) in let%bind () = expect_eq program "or_op" (e_nat 3) (e_nat 7) in let%bind () = expect_eq program "or_op" (e_nat 2) (e_nat 6) in let%bind () = expect_eq program "or_op" (e_nat 14) (e_nat 14) in let%bind () = expect_eq program "or_op" (e_nat 10) (e_nat 14) in let%bind () = expect_eq program "and_op" (e_nat 7) (e_nat 7) in let%bind () = expect_eq program "and_op" (e_nat 3) (e_nat 3) in let%bind () = expect_eq program "and_op" (e_nat 2) (e_nat 2) in let%bind () = expect_eq program "and_op" (e_nat 14) (e_nat 6) in let%bind () = expect_eq program "and_op" (e_nat 10) (e_nat 2) in let%bind () = expect_eq program "xor_op" (e_nat 0) (e_nat 7) in let%bind () = expect_eq program "xor_op" (e_nat 7) (e_nat 0) in let%bind () = expect_eq program "lsl_op" (e_nat 1000) (e_nat 128000) in let%bind () = expect_eq program "lsr_op" (e_nat 128000) (e_nat 1000) in ok () let bitwise_arithmetic_religo () : unit result = let%bind program = retype_file "./contracts/bitwise_arithmetic.religo" in let%bind () = expect_eq program "or_op" (e_nat 7) (e_nat 7) in let%bind () = expect_eq program "or_op" (e_nat 3) (e_nat 7) in let%bind () = expect_eq program "or_op" (e_nat 2) (e_nat 6) in let%bind () = expect_eq program "or_op" (e_nat 14) (e_nat 14) in let%bind () = expect_eq program "or_op" (e_nat 10) (e_nat 14) in let%bind () = expect_eq program "and_op" (e_nat 7) (e_nat 7) in let%bind () = expect_eq program "and_op" (e_nat 3) (e_nat 3) in let%bind () = expect_eq program "and_op" (e_nat 2) (e_nat 2) in let%bind () = expect_eq program "and_op" (e_nat 14) (e_nat 6) in let%bind () = expect_eq program "and_op" (e_nat 10) (e_nat 2) in let%bind () = expect_eq program "xor_op" (e_nat 0) (e_nat 7) in let%bind () = expect_eq program "xor_op" (e_nat 7) (e_nat 0) in let%bind () = expect_eq program "lsl_op" (e_nat 1000) (e_nat 128000) in let%bind () = expect_eq program "lsr_op" (e_nat 128000) (e_nat 1000) in ok () let string_arithmetic () : unit result = let%bind program = type_file "./contracts/string_arithmetic.ligo" in let%bind () = expect_eq program "concat_op" (e_string "foo") (e_string "foototo") in let%bind () = expect_eq program "concat_op" (e_string "") (e_string "toto") in let%bind () = expect_eq program "slice_op" (e_string "tata") (e_string "at") in let%bind () = expect_eq program "slice_op" (e_string "foo") (e_string "oo") in let%bind () = expect_fail program "slice_op" (e_string "ba") in ok () let string_arithmetic_mligo () : unit result = let%bind program = mtype_file "./contracts/string_arithmetic.mligo" in let%bind () = expect_eq program "size_op" (e_string "tata") (e_nat 4) in let%bind () = expect_eq program "slice_op" (e_string "tata") (e_string "at") in let%bind () = expect_eq program "slice_op" (e_string "foo") (e_string "oo") in let%bind () = expect_eq program "concat_syntax" (e_string "string_") (e_string "string_test_literal") in ok () let string_arithmetic_religo () : unit result = let%bind program = retype_file "./contracts/string_arithmetic.religo" in let%bind () = expect_eq program "size_op" (e_string "tata") (e_nat 4) in let%bind () = expect_eq program "slice_op" (e_string "tata") (e_string "at") in let%bind () = expect_eq program "slice_op" (e_string "foo") (e_string "oo") in let%bind () = expect_eq program "concat_syntax" (e_string "string_") (e_string "string_test_literal") in ok () let bytes_arithmetic () : unit result = let%bind program = type_file "./contracts/bytes_arithmetic.ligo" in let%bind foo = e_bytes_hex "0f00" in let%bind foototo = e_bytes_hex "0f007070" in let%bind toto = e_bytes_hex "7070" in let%bind empty = e_bytes_hex "" in let%bind tata = e_bytes_hex "ff7a7aff" in let%bind at = e_bytes_hex "7a7a" in let%bind ba = e_bytes_hex "ba" in let%bind () = expect_eq program "concat_op" foo foototo in let%bind () = expect_eq program "concat_op" empty toto in let%bind () = expect_eq program "slice_op" tata at in let%bind () = expect_fail program "slice_op" foo in let%bind () = expect_fail program "slice_op" ba in let%bind b1 = Test_helpers.run_typed_program_with_imperative_input program "hasherman" foo in let%bind () = expect_eq_core program "hasherman" foo b1 in let%bind b3 = Test_helpers.run_typed_program_with_imperative_input program "hasherman" foototo in let%bind () = Assert.assert_fail @@ Ast_core.Misc.assert_value_eq (b3 , b1) in ok () let crypto () : unit result = let%bind program = type_file "./contracts/crypto.ligo" in let%bind foo = e_bytes_hex "0f00" in let%bind foototo = e_bytes_hex "0f007070" in let%bind b1 = Test_helpers.run_typed_program_with_imperative_input program "hasherman512" foo in let%bind () = expect_eq_core program "hasherman512" foo b1 in let%bind b2 = Test_helpers.run_typed_program_with_imperative_input program "hasherman512" foototo in let%bind () = Assert.assert_fail @@ Ast_core.Misc.assert_value_eq (b2 , b1) in let%bind b4 = Test_helpers.run_typed_program_with_imperative_input program "hasherman_blake" foo in let%bind () = expect_eq_core program "hasherman_blake" foo b4 in let%bind b5 = Test_helpers.run_typed_program_with_imperative_input program "hasherman_blake" foototo in let%bind () = Assert.assert_fail @@ Ast_core.Misc.assert_value_eq (b5 , b4) in ok () let crypto_mligo () : unit result = let%bind program = mtype_file "./contracts/crypto.mligo" in let%bind foo = e_bytes_hex "0f00" in let%bind foototo = e_bytes_hex "0f007070" in let%bind b1 = Test_helpers.run_typed_program_with_imperative_input program "hasherman512" foo in let%bind () = expect_eq_core program "hasherman512" foo b1 in let%bind b2 = Test_helpers.run_typed_program_with_imperative_input program "hasherman512" foototo in let%bind () = Assert.assert_fail @@ Ast_core.Misc.assert_value_eq (b2 , b1) in let%bind b4 = Test_helpers.run_typed_program_with_imperative_input program "hasherman_blake" foo in let%bind () = expect_eq_core program "hasherman_blake" foo b4 in let%bind b5 = Test_helpers.run_typed_program_with_imperative_input program "hasherman_blake" foototo in let%bind () = Assert.assert_fail @@ Ast_core.Misc.assert_value_eq (b5 , b4) in ok () let crypto_religo () : unit result = let%bind program = retype_file "./contracts/crypto.religo" in let%bind foo = e_bytes_hex "0f00" in let%bind foototo = e_bytes_hex "0f007070" in let%bind b1 = Test_helpers.run_typed_program_with_imperative_input program "hasherman512" foo in let%bind () = expect_eq_core program "hasherman512" foo b1 in let%bind b2 = Test_helpers.run_typed_program_with_imperative_input program "hasherman512" foototo in let%bind () = Assert.assert_fail @@ Ast_core.Misc.assert_value_eq (b2 , b1) in let%bind b4 = Test_helpers.run_typed_program_with_imperative_input program "hasherman_blake" foo in let%bind () = expect_eq_core program "hasherman_blake" foo b4 in let%bind b5 = Test_helpers.run_typed_program_with_imperative_input program "hasherman_blake" foototo in let%bind () = Assert.assert_fail @@ Ast_core.Misc.assert_value_eq (b5 , b4) in ok () let bytes_arithmetic_mligo () : unit result = let%bind program = mtype_file "./contracts/bytes_arithmetic.mligo" in let%bind foo = e_bytes_hex "0f00" in let%bind foototo = e_bytes_hex "0f007070" in let%bind toto = e_bytes_hex "7070" in let%bind empty = e_bytes_hex "" in let%bind tata = e_bytes_hex "ff7a7aff" in let%bind at = e_bytes_hex "7a7a" in let%bind ba = e_bytes_hex "ba" in let%bind () = expect_eq program "concat_op" foo foototo in let%bind () = expect_eq program "concat_op" empty toto in let%bind () = expect_eq program "slice_op" tata at in let%bind () = expect_fail program "slice_op" foo in let%bind () = expect_fail program "slice_op" ba in let%bind b1 = Test_helpers.run_typed_program_with_imperative_input program "hasherman" foo in let%bind () = expect_eq_core program "hasherman" foo b1 in let%bind b3 = Test_helpers.run_typed_program_with_imperative_input program "hasherman" foototo in let%bind () = Assert.assert_fail @@ Ast_core.Misc.assert_value_eq (b3 , b1) in ok () let bytes_arithmetic_religo () : unit result = let%bind program = retype_file "./contracts/bytes_arithmetic.religo" in let%bind foo = e_bytes_hex "0f00" in let%bind foototo = e_bytes_hex "0f007070" in let%bind toto = e_bytes_hex "7070" in let%bind empty = e_bytes_hex "" in let%bind tata = e_bytes_hex "ff7a7aff" in let%bind at = e_bytes_hex "7a7a" in let%bind ba = e_bytes_hex "ba" in let%bind () = expect_eq program "concat_op" foo foototo in let%bind () = expect_eq program "concat_op" empty toto in let%bind () = expect_eq program "slice_op" tata at in let%bind () = expect_fail program "slice_op" foo in let%bind () = expect_fail program "slice_op" ba in let%bind b1 = Test_helpers.run_typed_program_with_imperative_input program"hasherman" foo in let%bind () = expect_eq_core program "hasherman" foo b1 in let%bind b3 = Test_helpers.run_typed_program_with_imperative_input program "hasherman" foototo in let%bind () = Assert.assert_fail @@ Ast_core.Misc.assert_value_eq (b3 , b1) in ok () let set_arithmetic () : unit result = let%bind program = type_file "./contracts/set_arithmetic.ligo" in let%bind program_1 = type_file "./contracts/set_arithmetic-1.ligo" in let%bind () = expect_eq program_1 "iter_op" (e_set [e_int 2 ; e_int 4 ; e_int 7]) (e_int 13) in let%bind () = expect_eq program "add_op" (e_set [e_string "foo" ; e_string "bar"]) (e_set [e_string "foo" ; e_string "bar" ; e_string "foobar"]) in let%bind () = expect_eq program "add_op" (e_set [e_string "foo" ; e_string "bar" ; e_string "foobar"]) (e_set [e_string "foo" ; e_string "bar" ; e_string "foobar"]) in let%bind () = expect_eq program "remove_op" (e_set [e_string "foo" ; e_string "bar"]) (e_set [e_string "foo" ; e_string "bar"]) in let%bind () = expect_eq program "remove_op" (e_set [e_string "foo" ; e_string "bar" ; e_string "foobar"]) (e_set [e_string "foo" ; e_string "bar"]) in let%bind () = expect_eq program "remove_syntax" (e_set [e_string "foo" ; e_string "bar" ; e_string "foobar"]) (e_set [e_string "foo" ; e_string "bar"]) in let%bind () = expect_eq program "remove_deep" (e_pair (e_set [e_string "foo" ; e_string "bar" ; e_string "foobar"]) (e_nat 42)) (e_pair (e_set [e_string "foo" ; e_string "bar"]) (e_nat 42)) in let%bind () = expect_eq program "patch_op" (e_set [e_string "foo" ; e_string "bar"]) (e_set [e_string "foo" ; e_string "bar"; e_string "foobar"]) in let%bind () = expect_eq program "patch_op_deep" (e_pair (e_set [e_string "foo" ; e_string "bar"]) (e_nat 42)) (e_pair (e_set [e_string "foo" ; e_string "bar" ; e_string "foobar"]) (e_nat 42)) in let%bind () = expect_eq program "mem_op" (e_set [e_string "foo" ; e_string "bar" ; e_string "foobar"]) (e_bool true) in let%bind () = expect_eq program "mem_op" (e_set [e_string "foo" ; e_string "bar"]) (e_bool false) in let%bind () = expect_eq program_1 "fold_op" (e_set [ e_int 4 ; e_int 10 ]) (e_int 29) in ok () let set_arithmetic_mligo () : unit result = let%bind program = mtype_file "./contracts/set_arithmetic.mligo" in let%bind program_1 = type_file "./contracts/set_arithmetic-1.ligo" in let%bind () = expect_eq program "literal_op" (e_unit ()) (e_set [e_string "foo"; e_string "bar"; e_string "foobar"]) in let%bind () = expect_eq program "size_op" (e_set [e_string "foo"; e_string "bar"; e_string "foobar"]) (e_nat 3) in let%bind () = expect_eq program "add_op" (e_set [e_string "foo" ; e_string "bar"]) (e_set [e_string "foo" ; e_string "bar" ; e_string "foobar"]) in let%bind () = expect_eq program "add_op" (e_set [e_string "foo" ; e_string "bar" ; e_string "foobar"]) (e_set [e_string "foo" ; e_string "bar" ; e_string "foobar"]) in let%bind () = expect_eq program "remove_op" (e_set [e_string "foo" ; e_string "bar"]) (e_set [e_string "foo" ; e_string "bar"]) in let%bind () = expect_eq program "remove_op" (e_set [e_string "foo" ; e_string "bar" ; e_string "foobar"]) (e_set [e_string "foo" ; e_string "bar"]) in let%bind () = expect_eq program_1 "fold_op" (e_set [ e_int 4 ; e_int 10 ]) (e_int 29) in ok () let set_arithmetic_religo () : unit result = let%bind program = retype_file "./contracts/set_arithmetic.religo" in let%bind program_1 = type_file "./contracts/set_arithmetic-1.ligo" in let%bind () = expect_eq program "literal_op" (e_unit ()) (e_set [e_string "foo"; e_string "bar"; e_string "foobar"]) in let%bind () = expect_eq program "size_op" (e_set [e_string "foo"; e_string "bar"; e_string "foobar"]) (e_nat 3) in let%bind () = expect_eq program "add_op" (e_set [e_string "foo" ; e_string "bar"]) (e_set [e_string "foo" ; e_string "bar" ; e_string "foobar"]) in let%bind () = expect_eq program "add_op" (e_set [e_string "foo" ; e_string "bar" ; e_string "foobar"]) (e_set [e_string "foo" ; e_string "bar" ; e_string "foobar"]) in let%bind () = expect_eq program "remove_op" (e_set [e_string "foo" ; e_string "bar"]) (e_set [e_string "foo" ; e_string "bar"]) in let%bind () = expect_eq program "remove_op" (e_set [e_string "foo" ; e_string "bar" ; e_string "foobar"]) (e_set [e_string "foo" ; e_string "bar"]) in let%bind () = expect_eq program_1 "fold_op" (e_set [ e_int 4 ; e_int 10 ]) (e_int 29) in ok () let unit_expression () : unit result = let%bind program = type_file "./contracts/unit.ligo" in expect_eq_evaluate program "u" (e_unit ()) let string_expression () : unit result = let%bind program = type_file "./contracts/string.ligo" in let%bind _ = expect_eq_evaluate program "s" (e_string "toto") in expect_eq_evaluate program "y" (e_string "foototobar") let include_ () : unit result = let%bind program = type_file "./contracts/includer.ligo" in expect_eq_evaluate program "bar" (e_int 144) let include_mligo () : unit result = let%bind program = mtype_file "./contracts/includer.mligo" in expect_eq_evaluate program "bar" (e_int 144) let include_religo () : unit result = let%bind program = retype_file "./contracts/includer.religo" in expect_eq_evaluate program "bar" (e_int 144) let record_ez_int names n = e_record_ez @@ List.map (fun x -> x, e_int n) names let tuple_ez_int names n = e_tuple @@ List.map (fun _ -> e_int n) names let multiple_parameters () : unit result = let%bind program = type_file "./contracts/multiple-parameters.ligo" in let aux ((name : string) , make_input , make_output) = let make_output' = fun n -> e_int @@ make_output n in expect_eq_n program name make_input make_output' in let%bind _ = bind_list @@ List.map aux [ ("ab", tuple_ez_int ["a";"b"], fun n -> 2 * n) ; ("abcd", tuple_ez_int ["a";"b";"c";"d"], fun n -> 4 * n + 2) ; ("abcde", tuple_ez_int ["a";"b";"c";"d";"e"], fun n -> 2 * n + 3) ; ] in ok () let multiple_parameters_mligo () : unit result = let%bind program = mtype_file "./contracts/multiple-parameters.mligo" in let aux ((name : string) , make_input , make_output) = let make_output' = fun n -> e_int @@ make_output n in expect_eq_n program name make_input make_output' in let%bind _ = bind_list @@ List.map aux [ (* Didn't include the other tests because they're probably not necessary *) ("abcde", tuple_ez_int ["a";"b";"c";"d";"e"], fun n -> 2 * n + 3) ; ] in ok () let multiple_parameters_religo () : unit result = let%bind program = retype_file "./contracts/multiple-parameters.religo" in let aux ((name : string) , make_input , make_output) = let make_output' = fun n -> e_int @@ make_output n in expect_eq_n program name make_input make_output' in let%bind _ = bind_list @@ List.map aux [ (* Didn't include the other tests because they're probably not necessary *) ("abcde", tuple_ez_int ["a";"b";"c";"d";"e"], fun n -> 2 * n + 3) ; ] in ok () let record () : unit result = let%bind program = type_file "./contracts/record.ligo" in let%bind () = let expected = record_ez_int ["foo" ; "bar"] 0 in expect_eq_evaluate program "fb" expected in let%bind () = let%bind () = expect_eq_evaluate program "a" (e_int 42) in let%bind () = expect_eq_evaluate program "b" (e_int 142) in let%bind () = expect_eq_evaluate program "c" (e_int 242) in ok () in let%bind () = let make_input = record_ez_int ["foo" ; "bar"] in let make_expected = fun n -> e_int (2 * n) in expect_eq_n program "projection" make_input make_expected in let%bind () = let make_input = record_ez_int ["foo" ; "bar"] in let make_expected = fun n -> e_record_ez [("foo" , e_int 256) ; ("bar" , e_int n) ] in expect_eq_n program "modify" make_input make_expected in let%bind () = let make_input = record_ez_int ["a" ; "b" ; "c"] in let make_expected = fun n -> e_record_ez [ ("a" , e_int n) ; ("b" , e_int 2048) ; ("c" , e_int 42) ] in expect_eq_n program "modify_abc" make_input make_expected in let%bind () = let expected = record_ez_int ["a";"b";"c";"d";"e"] 23 in expect_eq_evaluate program "br" expected in let%bind () = let make_input = fun n -> e_record_ez [("inner", record_ez_int ["a";"b";"c"] n)] in let make_expected = fun n -> e_record_ez [("inner", e_record_ez[ ("a" , e_int n) ; ("b" , e_int 2048) ; ("c" , e_int n) ])] in expect_eq_n program "modify_inner" make_input make_expected in ok () let record_mligo () : unit result = let%bind program = mtype_file "./contracts/record.mligo" in let%bind () = let expected = record_ez_int ["foo" ; "bar"] 0 in expect_eq_evaluate program "fb" expected in let%bind () = let%bind () = expect_eq_evaluate program "a" (e_int 42) in let%bind () = expect_eq_evaluate program "b" (e_int 142) in let%bind () = expect_eq_evaluate program "c" (e_int 242) in ok () in let%bind () = let make_input = record_ez_int ["foo" ; "bar"] in let make_expected = fun n -> e_int (2 * n) in expect_eq_n program "projection" make_input make_expected in let%bind () = let make_input = record_ez_int ["foo" ; "bar"] in let make_expected = fun n -> e_record_ez [("foo" , e_int 256) ; ("bar" , e_int n) ] in expect_eq_n program "modify" make_input make_expected in let%bind () = let make_input = record_ez_int ["a" ; "b" ; "c"] in let make_expected = fun n -> e_record_ez [ ("a" , e_int n) ; ("b" , e_int 2048) ; ("c" , e_int 42) ] in expect_eq_n program "modify_abc" make_input make_expected in let%bind () = let expected = record_ez_int ["a";"b";"c";"d";"e"] 23 in expect_eq_evaluate program "br" expected in let%bind () = let make_input = fun n -> e_record_ez [("inner", record_ez_int ["a";"b";"c"] n)] in let make_expected = fun n -> e_record_ez [("inner", e_record_ez [ ("a" , e_int n) ; ("b" , e_int 2048) ; ("c" , e_int n) ])] in expect_eq_n program "modify_inner" make_input make_expected in ok () let record_religo () : unit result = let%bind program = retype_file "./contracts/record.religo" in let%bind () = let expected = record_ez_int ["foo" ; "bar"] 0 in expect_eq_evaluate program "fb" expected in let%bind () = let%bind () = expect_eq_evaluate program "a" (e_int 42) in let%bind () = expect_eq_evaluate program "b" (e_int 142) in let%bind () = expect_eq_evaluate program "c" (e_int 242) in ok () in let%bind () = let make_input = record_ez_int ["foo" ; "bar"] in let make_expected = fun n -> e_int (2 * n) in expect_eq_n program "projection" make_input make_expected in let%bind () = let make_input = record_ez_int ["foo" ; "bar"] in let make_expected = fun n -> e_record_ez [("foo" , e_int 256) ; ("bar" , e_int n) ] in expect_eq_n program "modify" make_input make_expected in let%bind () = let make_input = record_ez_int ["a" ; "b" ; "c"] in let make_expected = fun n -> e_record_ez [ ("a" , e_int n) ; ("b" , e_int 2048) ; ("c" , e_int 42) ] in expect_eq_n program "modify_abc" make_input make_expected in let%bind () = let expected = record_ez_int ["a";"b";"c";"d";"e"] 23 in expect_eq_evaluate program "br" expected in let%bind () = let make_input = fun n -> e_record_ez [("inner", record_ez_int ["a";"b";"c"] n)] in let make_expected = fun n -> e_record_ez [("inner", e_record_ez[ ("a" , e_int n) ; ("b" , e_int 2048) ; ("c" , e_int n) ])] in expect_eq_n program "modify_inner" make_input make_expected in ok () let tuple () : unit result = let%bind program = type_file "./contracts/tuple.ligo" in let ez n = e_tuple (List.map e_int n) in let%bind () = let expected = ez [0 ; 0] in expect_eq_evaluate program "fb" expected in let%bind () = let make_input = fun n -> ez [n ; n] in let make_expected = fun n -> e_int (2 * n) in expect_eq_n program "projection" make_input make_expected in let%bind () = let make_input = fun n -> ez [n ; 2 * n ; n] in let make_expected = fun n -> e_int (2 * n) in expect_eq_n program "projection_abc" make_input make_expected in let%bind () = let make_input = fun n -> ez [n ; n ; n] in let make_expected = fun n -> ez [n ; 2048 ; n] in expect_eq program "modify_abc" (make_input 12) (make_expected 12) in let%bind () = let make_input = fun n -> ez [n ; n ; n] in let make_expected = fun n -> ez [n ; 2048 ; n] in expect_eq_n program "modify_abc" make_input make_expected in let%bind () = let expected = ez [0 ; 1 ; 2 ; 3 ; 4; 5; 6; 7; 8; 9; 10; 11] in expect_eq_evaluate program "br" expected in let%bind () = let make_input = fun n -> ez [n; n; n; n; n; n; n; n; n; n; n; n] in let make_expected = fun n -> ez [n; n; n; n; n; n; n; n; n; n; n; 2048] in expect_eq_n program "update" make_input make_expected in ok () let tuple_mligo () : unit result = let%bind program = mtype_file "./contracts/tuple.mligo" in let ez n = e_tuple (List.map e_int n) in let%bind () = let expected = ez [0 ; 0] in expect_eq_evaluate program "fb" expected in let%bind () = let make_input = fun n -> ez [n ; n] in let make_expected = fun n -> e_int (2 * n) in expect_eq_n program "projection" make_input make_expected in let%bind () = let make_input = fun n -> ez [n ; 2 * n ; n] in let make_expected = fun n -> e_int (2 * n) in expect_eq_n program "projection_abc" make_input make_expected in let%bind () = let expected = ez [23 ; 23 ; 23 ; 23 ; 23] in expect_eq_evaluate program "br" expected in ok () let tuple_religo () : unit result = let%bind program = retype_file "./contracts/tuple.religo" in let ez n = e_tuple (List.map e_int n) in let%bind () = let expected = ez [0 ; 0] in expect_eq_evaluate program "fb" expected in let%bind () = let make_input = fun n -> ez [n ; n] in let make_expected = fun n -> e_int (2 * n) in expect_eq_n program "projection" make_input make_expected in let%bind () = let make_input = fun n -> ez [n ; 2 * n ; n] in let make_expected = fun n -> e_int (2 * n) in expect_eq_n program "projection_abc" make_input make_expected in let%bind () = let expected = ez [23 ; 23 ; 23 ; 23 ; 23] in expect_eq_evaluate program "br" expected in ok () let option () : unit result = let%bind program = type_file "./contracts/option.ligo" in let%bind () = let expected = e_some (e_int 42) in expect_eq_evaluate program "s" expected in let%bind () = let expected = e_typed_none t_int in expect_eq_evaluate program "n" expected in let%bind () = let expected = e_typed_none t_int in expect_eq program "assign" (e_int 12) expected in ok () let moption () : unit result = let%bind program = mtype_file "./contracts/option.mligo" in let%bind () = let expected = e_some (e_int 42) in expect_eq_evaluate program "s" expected in let%bind () = let expected = e_typed_none t_int in expect_eq_evaluate program "n" expected in ok () let reoption () : unit result = let%bind program = retype_file "./contracts/option.religo" in let%bind () = let expected = e_some (e_int 42) in expect_eq_evaluate program "s" expected in let%bind () = let expected = e_typed_none t_int in expect_eq_evaluate program "n" expected in ok () let map_ type_f path : unit result = let%bind program = type_f path in let ez lst = let lst' = List.map (fun (x, y) -> e_int x, e_int y) lst in e_typed_map lst' t_int t_int in let%bind () = let make_input = fun n -> let m = ez [(23 , 0) ; (42 , 0)] in e_tuple [(e_int n) ; m] in let make_expected = fun n -> ez [(23 , n) ; (42 , 0)] in expect_eq_n_pos_small program "set_" make_input make_expected in let%bind () = let input = (e_pair (e_int 23) (ez [(42, 42)])) in let expected = ez [(23, 23) ; (42, 42)] in expect_eq program "add" input expected in let%bind () = let input = ez [(23, 23) ; (42, 42)] in let expected = ez [23, 23] in expect_eq program "rm" input expected in let%bind () = let input = ez [(0,0) ; (1,1) ; (2,2)] in let expected = ez [(0, 5) ; (1, 6) ; (2, 7)] in expect_eq program "patch_" input expected in let%bind () = let input = (e_pair (ez [(0,0) ; (1,1) ; (2,2)]) (e_nat 10)) in let expected = (e_pair (ez [(0,0) ; (1,9) ; (2,2)]) (e_nat 10)) in expect_eq program "patch_deep" input expected in let%bind () = let make_input = fun n -> ez List.(map (fun x -> (x, x)) @@ range n) in let make_expected = e_nat in expect_eq_n_strict_pos_small program "size_" make_input make_expected in let%bind () = let make_input = fun n -> ez [(23, n) ; (42, 4)] in let make_expected = fun _ -> e_some @@ e_int 4 in expect_eq_n program "get" make_input make_expected in let%bind () = let input_map = ez [(23, 10) ; (42, 4)] in expect_eq program "mem" (e_tuple [(e_int 23) ; input_map]) (e_bool true) in let%bind () = let input_map = ez [(23, 10) ; (42, 4)] in expect_eq program "mem" (e_tuple [(e_int 1000) ; input_map]) (e_bool false) in let%bind () = expect_eq_evaluate program "empty_map" (e_annotation (e_map []) (t_map t_int t_int)) in let%bind () = let expected = ez @@ List.map (fun x -> (x, 23)) [144 ; 51 ; 42 ; 120 ; 421] in expect_eq_evaluate program "map1" expected in let%bind () = let expected = ez [(23, 0) ; (42, 0)] in expect_eq_evaluate program "map2" expected in let%bind () = let input = ez [(1 , 1) ; (2 , 2) ; (3 , 3) ] in let expected = e_unit () in expect_eq program "iter_op" input expected in let%bind () = let input = ez [(1 , 10) ; (2 , 20) ; (3 , 30) ] in let expected = ez [(1 , 11) ; (2 , 21) ; (3 , 31) ] in expect_eq program "map_op" input expected in let%bind () = let input = ez [(1 , 10) ; (2 , 20) ; (3 , 30) ] in let expected = e_int 76 in expect_eq program "fold_op" input expected in let%bind () = let input = ez [(2 , 20) ; (42 , 10)] in let expected = ez [(2 , 20) ; (32 , 16) ] in expect_eq program "deep_op" input expected in ok () let big_map_ type_f path : unit result = let%bind program = type_f path in let ez lst = let lst' = List.map (fun (x, y) -> e_int x, e_int y) lst in (e_typed_big_map lst' t_int t_int) in let%bind () = let make_input = fun n -> let m = ez [(23 , 0) ; (42 , 0)] in e_tuple [(e_int n) ; m] in let make_expected = fun n -> ez [(23 , n) ; (42 , 0)] in expect_eq_n_pos_small program "set_" make_input make_expected in let%bind () = let input = (e_pair (e_int 23) (ez [(42, 42)])) in let expected = ez [(23, 23) ; (42, 42)] in expect_eq program "add" input expected in let%bind () = let make_input = fun n -> ez [(23, n) ; (42, 4)] in let make_expected = fun _ -> e_some @@ e_int 4 in expect_eq_n program "get" make_input make_expected in let%bind () = let input = ez [(23, 23) ; (42, 42)] in let expected = ez [23, 23] in expect_eq program "rm" input expected in ok () let map () : unit result = map_ type_file "./contracts/map.ligo" let mmap () : unit result = map_ mtype_file "./contracts/map.mligo" let remap () : unit result = map_ retype_file "./contracts/map.religo" let big_map () : unit result = big_map_ type_file "./contracts/big_map.ligo" let mbig_map () : unit result = big_map_ mtype_file "./contracts/big_map.mligo" let rebig_map () : unit result = big_map_ retype_file "./contracts/big_map.religo" let list () : unit result = let%bind program = type_file "./contracts/list.ligo" in let ez lst = let lst' = List.map e_int lst in e_typed_list lst' t_int in let%bind () = let expected = ez [23 ; 42] in expect_eq_evaluate program "fb" expected in let%bind () = let expected = ez [144 ; 23 ; 42] in expect_eq_evaluate program "fb2" expected in let%bind () = let expected = ez [688 ; 144 ; 23 ; 42] in expect_eq_evaluate program "fb3" expected in let%bind () = let make_input = fun n -> (ez @@ List.range n) in let make_expected = e_nat in expect_eq_n_strict_pos_small program "size_" make_input make_expected in let%bind () = let expected = ez [144 ; 51 ; 42 ; 120 ; 421] in expect_eq_evaluate program "bl" expected in let%bind () = expect_eq program "fold_op" (e_list [e_int 2 ; e_int 4 ; e_int 7]) (e_int 23) in let%bind () = expect_eq program "iter_op" (e_list [e_int 2 ; e_int 4 ; e_int 7]) (e_int 13) in let%bind () = expect_eq program "map_op" (e_list [e_int 2 ; e_int 4 ; e_int 7]) (e_list [e_int 3 ; e_int 5 ; e_int 8]) in ok () let condition () : unit result = let%bind program = type_file "./contracts/condition.ligo" in let%bind _ = let make_input = e_int in let make_expected = fun n -> e_int (if n = 2 then 42 else 0) in expect_eq_n program "main" make_input make_expected in let%bind _ = let make_expected = fun b -> e_int (if b then 42 else 1) in expect_eq_b program "foo" make_expected in ok () let condition_mligo () : unit result = let%bind _ = let aux file = let%bind program = mtype_file file in let make_input = e_int in let make_expected = fun n -> e_int (if n = 2 then 42 else 0) in expect_eq_n program "main" make_input make_expected in bind_map_list aux [ "./contracts/condition.mligo"; "./contracts/condition-shadowing.mligo"; "./contracts/condition-annot.mligo"; ] in ok () let condition_religo () : unit result = let%bind _ = let aux file = let%bind program = retype_file file in let make_input = e_int in let make_expected = fun n -> e_int (if n = 2 then 42 else 0) in expect_eq_n program "main" make_input make_expected in bind_map_list aux [ "./contracts/condition.religo"; "./contracts/condition-shadowing.religo"; "./contracts/condition-annot.religo"; ] in ok () let eq_bool_common program = let%bind _ = bind_map_list (fun ( a , b , expected ) -> expect_eq program "main" (e_pair (e_bool a) (e_bool b)) (e_int expected)) [ ( false , false , 999 ) ; ( false , true , 1 ) ; ( true , false , 1 ) ; ( true , true , 999 ) ; ] in ok () let eq_bool () : unit result = let%bind program = type_file "./contracts/eq_bool.ligo" in eq_bool_common program let eq_bool_mligo () : unit result = let%bind program = mtype_file "./contracts/eq_bool.mligo" in eq_bool_common program let eq_bool_religo () : unit result = let%bind program = retype_file "./contracts/eq_bool.religo" in eq_bool_common program let condition_simple () : unit result = let%bind program = type_file "./contracts/condition-simple.ligo" in let make_input = e_int in let make_expected = fun _ -> e_int 42 in expect_eq_n program "main" make_input make_expected let loop () : unit result = let%bind program = type_file "./contracts/loop.ligo" in let%bind () = let make_input = e_nat in let make_expected = e_nat in expect_eq_n_pos program "dummy" make_input make_expected in let%bind () = let make_input = e_nat in let make_expected = e_nat in expect_eq_n_pos_mid program "counter" make_input make_expected in let%bind () = let make_input = e_nat in let make_expected = fun n -> e_nat (n * (n + 1) / 2) in expect_eq_n_pos_mid program "while_sum" make_input make_expected in let%bind () = let make_input = e_nat in let make_expected = fun n -> e_int (n * (n + 1) / 2) in expect_eq_n_pos_mid program "for_sum" make_input make_expected in let input = e_unit () in let%bind () = let expected = e_pair (e_int 3) (e_string "totototo") in expect_eq program "for_collection_list" input expected in let%bind () = let expected = e_pair (e_int 6) (e_string "totototo") in expect_eq program "for_collection_set" input expected in let%bind () = let expected = e_pair (e_int 6) (e_string "123") in expect_eq program "for_collection_map_kv" input expected in let%bind () = let expected = (e_string "123") in expect_eq program "for_collection_map_k" input expected in let%bind () = let expected = (e_int 0) in expect_eq program "for_collection_empty" input expected in let%bind () = let expected = (e_int 13) in expect_eq program "for_collection_if_and_local_var" input expected in let%bind () = let expected = (e_int 1020) in expect_eq program "for_collection_rhs_capture" input expected in let%bind () = let expected = (e_int 1040) in expect_eq program "for_collection_proc_call" input expected in let%bind () = let expected = (e_int 20) in expect_eq program "for_collection_comp_with_acc" input expected in let%bind () = let expected = e_pair (e_int 24) (e_string "1 one,two 2 one,two 3 one,two 1 one,two 2 one,two 3 one,two 1 one,two 2 one,two 3 one,two ") in expect_eq program "nested_for_collection" input expected in let%bind () = let expected = e_pair (e_int 24) (e_string "123123123") in expect_eq program "nested_for_collection_local_var" input expected in let%bind () = let expected = e_pair (e_bool true) (e_int 4) in expect_eq program "inner_capture_in_conditional_block" input expected in let%bind () = let ez lst = let lst' = List.map (fun (x, y) -> e_string x, e_int y) lst in e_typed_map lst' t_string t_int in let expected = ez [ ("I" , 12) ; ("am" , 12) ; ("foo" , 12) ] in expect_eq program "for_collection_with_patches" input expected in ok () (* Don't know how to assert parse error happens in this test framework let for_fail () : unit result = let%bind program = type_file "./contracts/for_fail.ligo" in let%bind () = expect_fail program "main" (e_nat 0) in ok () *) let loop_mligo () : unit result = let%bind program = mtype_file "./contracts/loop.mligo" in let%bind () = let input = e_int 0 in let expected = e_int 100 in expect_eq program "counter_simple" input expected in let%bind () = let input = e_int 100 in let expected = e_int 5050 in expect_eq program "counter" input expected in let%bind () = let input = e_int 100 in let expected = e_int 10000 in expect_eq program "counter_nest" input expected in ok () let loop_religo () : unit result = let%bind program = retype_file "./contracts/loop.religo" in let%bind () = let input = e_int 0 in let expected = e_int 100 in expect_eq program "counter_simple" input expected in let%bind () = let input = e_int 100 in let expected = e_int 5050 in expect_eq program "counter" input expected in let%bind () = let input = e_int 100 in let expected = e_int 10000 in expect_eq program "counter_nest" input expected in ok () let matching () : unit result = let%bind program = type_file "./contracts/match.ligo" in let%bind () = let make_input = e_int in let make_expected = fun n -> e_int (if n = 2 then 42 else 0) in expect_eq_n program "match_bool" make_input make_expected in let%bind () = let make_input = e_int in let make_expected = fun n-> e_int (if n = 2 then 42 else 0) in expect_eq_n program "match_expr_bool" make_input make_expected in let%bind () = let aux n = let input = match n with | Some s -> e_some (e_int s) | None -> e_typed_none t_int in let expected = e_int (match n with | Some s -> s | None -> 23) in trace (simple_error (Format.asprintf "on input %a" PP_helpers.(option int) n)) @@ expect_eq program "match_option" input expected in bind_iter_list aux [Some 0 ; Some 2 ; Some 42 ; Some 163 ; Some (-1) ; None] in let%bind () = let aux n = let input = match n with | Some s -> e_some (e_int s) | None -> e_typed_none t_int in let expected = e_int (match n with | Some s -> s | None -> 42) in trace (simple_error (Format.asprintf "on input %a" PP_helpers.(option int) n)) @@ expect_eq program "match_expr_option" input expected in bind_iter_list aux [Some 0 ; Some 2 ; Some 42 ; Some 163 ; Some (-1) ; None] in let%bind () = let aux lst = e_annotation (e_list @@ List.map e_int lst) (t_list t_int) in let%bind () = expect_eq program "match_expr_list" (aux [ 14 ; 2 ; 3 ]) (e_int 14) in let%bind () = expect_eq program "match_expr_list" (aux [ 13 ; 2 ; 3 ]) (e_int 13) in let%bind () = expect_eq program "match_expr_list" (aux []) (e_int (-1)) in ok () in ok () let declarations () : unit result = let%bind program = type_file "./contracts/declarations.ligo" in let make_input = e_int in let make_expected = fun n -> e_int (42 + n) in expect_eq program "main" (make_input 0) (make_expected 0) >>? fun () -> expect_eq_n program "main" make_input make_expected let declaration_local () : unit result = let%bind program = type_file "./contracts/declaration-local.ligo" in let make_input = e_int in let make_expected = fun _ -> e_int 42 in expect_eq_n program "main" make_input make_expected let quote_declaration () : unit result = let%bind program = type_file "./contracts/quote-declaration.ligo" in let make_input = e_int in let make_expected = fun n -> e_int (42 + 2 * n) in expect_eq_n program "main" make_input make_expected let quote_declarations () : unit result = let%bind program = type_file "./contracts/quote-declarations.ligo" in let make_input = e_int in let make_expected = fun n -> e_int (74 + 2 * n) in expect_eq_n program "main" make_input make_expected let counter_contract () : unit result = let%bind program = type_file "./contracts/counter.ligo" in let make_input = fun n-> e_pair (e_int n) (e_int 42) in let make_expected = fun n -> e_pair (e_typed_list [] t_operation) (e_int (42 + n)) in expect_eq_n program "main" make_input make_expected let super_counter_contract () : unit result = let%bind program = type_file "./contracts/super-counter.ligo" in let make_input = fun n -> let action = if n mod 2 = 0 then "Increment" else "Decrement" in e_pair (e_constructor action (e_int n)) (e_int 42) in let make_expected = fun n -> let op = if n mod 2 = 0 then (+) else (-) in e_pair (e_typed_list [] t_operation) (e_int (op 42 n)) in expect_eq_n program "main" make_input make_expected let super_counter_contract_mligo () : unit result = let%bind program = mtype_file "./contracts/super-counter.mligo" in let make_input = fun n -> let action = if n mod 2 = 0 then "Increment" else "Decrement" in e_pair (e_constructor action (e_int n)) (e_int 42) in let make_expected = fun n -> let op = if n mod 2 = 0 then (+) else (-) in e_pair (e_typed_list [] t_operation) (e_int (op 42 n)) in expect_eq_n program "main" make_input make_expected let super_counter_contract_religo () : unit result = let%bind program = retype_file "./contracts/super-counter.religo" in let make_input = fun n -> let action = if n mod 2 = 0 then "Increment" else "Decrement" in e_pair (e_constructor action (e_int n)) (e_int 42) in let make_expected = fun n -> let op = if n mod 2 = 0 then (+) else (-) in e_pair (e_typed_list [] t_operation) (e_int (op 42 n)) in expect_eq_n program "main" make_input make_expected let dispatch_counter_contract () : unit result = let%bind program = type_file "./contracts/dispatch-counter.ligo" in let make_input = fun n -> let action = if n mod 2 = 0 then "Increment" else "Decrement" in e_pair (e_constructor action (e_int n)) (e_int 42) in let make_expected = fun n -> let op = if n mod 2 = 0 then (+) else (-) in e_pair (e_typed_list [] t_operation) (e_int (op 42 n)) in expect_eq_n program "main" make_input make_expected let failwith_ligo () : unit result = let%bind program = type_file "./contracts/failwith.ligo" in let should_fail = expect_fail program "main" in let should_work input = expect_eq program "main" input (e_pair (e_typed_list [] t_operation) (e_unit ())) in let%bind _ = should_work (e_pair (e_constructor "Zero" (e_nat 0)) (e_unit ())) in let%bind _ = should_fail (e_pair (e_constructor "Zero" (e_nat 1)) (e_unit ())) in let%bind _ = should_work (e_pair (e_constructor "Pos" (e_nat 1)) (e_unit ())) in let%bind _ = should_fail (e_pair (e_constructor "Pos" (e_nat 0)) (e_unit ())) in let should_fail input = expect_fail program "foobar" (e_int input) in let should_work input n = expect_eq program "foobar" (e_int input) (e_int n) in let%bind () = should_fail 10 in let%bind () = should_fail @@ -10 in let%bind () = should_work 5 6 in ok () let failwith_mligo () : unit result = let%bind program = mtype_file "./contracts/failwith.mligo" in let make_input = e_pair (e_unit ()) (e_unit ()) in expect_fail program "main" make_input let failwith_religo () : unit result = let%bind program = retype_file "./contracts/failwith.religo" in let make_input = e_pair (e_unit ()) (e_unit ()) in expect_fail program "main" make_input let assert_mligo () : unit result = let%bind program = mtype_file "./contracts/assert.mligo" in let make_input b = e_pair (e_bool b) (e_unit ()) in let make_expected = e_pair (e_typed_list [] t_operation) (e_unit ()) in let%bind _ = expect_fail program "main" (make_input false) in let%bind _ = expect_eq program "main" (make_input true) make_expected in ok () let assert_religo () : unit result = let%bind program = retype_file "./contracts/assert.religo" in let make_input b = e_pair (e_bool b) (e_unit ()) in let make_expected = e_pair (e_typed_list [] t_operation) (e_unit ()) in let%bind _ = expect_fail program "main" (make_input false) in let%bind _ = expect_eq program "main" (make_input true) make_expected in ok () let recursion_ligo () : unit result = let%bind program = type_file "./contracts/recursion.ligo" in let%bind _ = let make_input = e_pair (e_int 10) (e_int 0) in let make_expected = e_int 55 in expect_eq program "sum" make_input make_expected in let%bind _ = let make_input = e_tuple [(e_int 10); (e_int 1); (e_int 1)] in let make_expected = e_int 89 in expect_eq program "fibo" make_input make_expected in ok () let recursion_mligo () : unit result = let%bind program = mtype_file "./contracts/recursion.mligo" in let%bind _ = let make_input = e_pair (e_int 10) (e_int 0) in let make_expected = e_int 55 in expect_eq program "sum" make_input make_expected in let%bind _ = let make_input = e_tuple [(e_int 10); (e_int 1); (e_int 1)] in let make_expected = e_int 89 in expect_eq program "fibo" make_input make_expected in ok () let recursion_religo () : unit result = let%bind program = retype_file "./contracts/recursion.religo" in let%bind _ = let make_input = e_pair (e_int 10) (e_int 0) in let make_expected = e_int 55 in expect_eq program "sum" make_input make_expected in let%bind _ = let make_input = e_tuple [(e_int 10); (e_int 1); (e_int 1)] in let make_expected = e_int 89 in expect_eq program "fibo" make_input make_expected in ok () let guess_string_mligo () : unit result = let%bind program = type_file "./contracts/guess_string.mligo" in let make_input = fun n -> e_pair (e_int n) (e_int 42) in let make_expected = fun n -> e_pair (e_typed_list [] t_operation) (e_int (42 + n)) in expect_eq_n program "main" make_input make_expected let basic_mligo () : unit result = let%bind typed = mtype_file "./contracts/basic.mligo" in expect_eq_evaluate typed "foo" (e_int (42+127)) let basic_religo () : unit result = let%bind typed = retype_file "./contracts/basic.religo" in expect_eq_evaluate typed "foo" (e_int (42+127)) let counter_mligo () : unit result = let%bind program = mtype_file "./contracts/counter.mligo" in let make_input n = e_pair (e_int n) (e_int 42) in let make_expected n = e_pair (e_typed_list [] t_operation) (e_int (42 + n)) in expect_eq_n program "main" make_input make_expected let counter_religo () : unit result = let%bind program = retype_file "./contracts/counter.religo" in let make_input n = e_pair (e_int n) (e_int 42) in let make_expected n = e_pair (e_typed_list [] t_operation) (e_int (42 + n)) in expect_eq_n program "main" make_input make_expected let let_in_mligo () : unit result = let%bind program = mtype_file "./contracts/letin.mligo" in let make_input n = e_pair (e_int n) (e_pair (e_int 3) (e_int 5)) in let make_expected n = e_pair (e_typed_list [] t_operation) (e_pair (e_int (7+n)) (e_int (3+5))) in expect_eq_n program "main" make_input make_expected let let_in_religo () : unit result = let%bind program = retype_file "./contracts/letin.religo" in let make_input n = e_pair (e_int n) (e_pair (e_int 3) (e_int 5)) in let make_expected n = e_pair (e_typed_list [] t_operation) (e_pair (e_int (7+n)) (e_int (3+5))) in expect_eq_n program "main" make_input make_expected let match_variant () : unit result = let%bind program = mtype_file "./contracts/match.mligo" in let%bind () = let make_input n = e_pair (e_constructor "Sub" (e_int n)) (e_int 3) in let make_expected n = e_pair (e_typed_list [] t_operation) (e_int (3-n)) in expect_eq_n program "main" make_input make_expected in let%bind () = let input = e_bool true in let expected = e_int 10 in expect_eq program "match_bool" input expected in let%bind () = let input = e_bool false in let expected = e_int 0 in expect_eq program "match_bool" input expected in let%bind () = let input = e_list [e_int 3] in let expected = e_int 3 in expect_eq program "match_list" input expected in let%bind () = let input = e_typed_list [] t_int in let expected = e_int 10 in expect_eq program "match_list" input expected in let%bind () = let make_input n = e_some (e_int n) in let make_expected n = e_int n in expect_eq_n program "match_option" make_input make_expected in ok () let match_variant_re () : unit result = let%bind program = retype_file "./contracts/match.religo" in let make_input n = e_pair (e_constructor "Sub" (e_int n)) (e_int 3) in let make_expected n = e_pair (e_typed_list [] t_operation) (e_int (3-n)) in expect_eq_n program "main" make_input make_expected let match_matej () : unit result = let%bind program = mtype_file "./contracts/match_bis.mligo" in let make_input n = e_pair (e_constructor "Decrement" (e_int n)) (e_int 3) in let make_expected n = e_pair (e_typed_list [] t_operation) (e_int (3-n)) in expect_eq_n program "main" make_input make_expected let match_matej_re () : unit result = let%bind program = retype_file "./contracts/match_bis.religo" in let make_input n = e_pair (e_constructor "Decrement" (e_int n)) (e_int 3) in let make_expected n = e_pair (e_typed_list [] t_operation) (e_int (3-n)) in expect_eq_n program "main" make_input make_expected let mligo_list () : unit result = let%bind program = mtype_file "./contracts/list.mligo" in let%bind () = expect_eq program "size_" (e_list [e_int 0; e_int 1; e_int 2]) (e_nat 3) in let aux lst = e_list @@ List.map e_int lst in let%bind () = expect_eq program "fold_op" (aux [ 1 ; 2 ; 3 ]) (e_int 16) in let%bind () = let make_input n = e_pair (e_list [e_int n; e_int (2*n)]) (e_pair (e_int 3) (e_list [e_int 8])) in let make_expected n = e_pair (e_typed_list [] t_operation) (e_pair (e_int (n+3)) (e_list [e_int (2*n)])) in expect_eq_n program "main" make_input make_expected in let%bind () = expect_eq_evaluate program "x" (e_list []) in let%bind () = expect_eq_evaluate program "y" (e_list @@ List.map e_int [3 ; 4 ; 5]) in let%bind () = expect_eq_evaluate program "z" (e_list @@ List.map e_int [2 ; 3 ; 4 ; 5]) in let%bind () = expect_eq program "map_op" (aux [2 ; 3 ; 4 ; 5]) (aux [3 ; 4 ; 5 ; 6]) in let%bind () = expect_eq program "iter_op" (aux [2 ; 3 ; 4 ; 5]) (e_unit ()) in ok () let religo_list () : unit result = let%bind program = retype_file "./contracts/list.religo" in let%bind () = expect_eq program "size_" (e_list [e_int 0; e_int 1; e_int 2]) (e_nat 3) in let aux lst = e_list @@ List.map e_int lst in let%bind () = expect_eq program "fold_op" (aux [ 1 ; 2 ; 3 ]) (e_int 16) in let%bind () = let make_input n = e_pair (e_list [e_int n; e_int (2*n)]) (e_pair (e_int 3) (e_list [e_int 8])) in let make_expected n = e_pair (e_typed_list [] t_operation) (e_pair (e_int (n+3)) (e_list [e_int (2*n)])) in expect_eq_n program "main" make_input make_expected in let%bind () = expect_eq_evaluate program "x" (e_list []) in let%bind () = expect_eq_evaluate program "y" (e_list @@ List.map e_int [3 ; 4 ; 5]) in let%bind () = expect_eq_evaluate program "z" (e_list @@ List.map e_int [2 ; 3 ; 4 ; 5]) in let%bind () = expect_eq program "map_op" (aux [2 ; 3 ; 4 ; 5]) (aux [3 ; 4 ; 5 ; 6]) in let%bind () = expect_eq program "iter_op" (aux [2 ; 3 ; 4 ; 5]) (e_unit ()) in ok () let lambda_mligo () : unit result = let%bind program = mtype_file "./contracts/lambda.mligo" in let make_input = e_pair (e_unit ()) (e_unit ()) in let make_expected = (e_unit ()) in expect_eq program "main" make_input make_expected let lambda_religo () : unit result = let%bind program = retype_file "./contracts/lambda.religo" in let make_input = e_pair (e_unit ()) (e_unit ()) in let make_expected = (e_unit ()) in expect_eq program "main" make_input make_expected let lambda_ligo () : unit result = let%bind program = type_file "./contracts/lambda.ligo" in let make_input = e_pair (e_unit ()) (e_unit ()) in let make_expected = (e_unit ()) in expect_eq program "main" make_input make_expected let lambda2_mligo () : unit result = let%bind program = mtype_file "./contracts/lambda2.mligo" in let make_input = e_pair (e_unit ()) (e_unit ()) in let make_expected = (e_unit ()) in expect_eq program "main" make_input make_expected let lambda2_religo () : unit result = let%bind program = retype_file "./contracts/lambda2.religo" in let make_input = e_pair (e_unit ()) (e_unit ()) in let make_expected = (e_unit ()) in expect_eq program "main" make_input make_expected let fibo_mligo () : unit result = let%bind program = mtype_file "./contracts/fibo.mligo" in let make_input = e_pair (e_unit ()) (e_unit ()) in let make_expected = (e_int 42) in expect_eq program "main" make_input make_expected let website1_ligo () : unit result = let%bind program = type_file "./contracts/website1.ligo" in let make_input = fun n-> e_pair (e_int n) (e_int 42) in let make_expected = fun _n -> e_pair (e_typed_list [] t_operation) (e_int (42 + 1)) in expect_eq_n program "main" make_input make_expected let website2_ligo () : unit result = let%bind program = type_file "./contracts/website2.ligo" in let make_input = fun n -> let action = if n mod 2 = 0 then "Increment" else "Decrement" in e_pair (e_constructor action (e_int n)) (e_int 42) in let make_expected = fun n -> let op = if n mod 2 = 0 then (+) else (-) in e_pair (e_typed_list [] t_operation) (e_int (op 42 n)) in expect_eq_n program "main" make_input make_expected let tez_ligo () : unit result = let%bind program = type_file "./contracts/tez.ligo" in let%bind _ = expect_eq_evaluate program "add_tez" (e_mutez 42) in let%bind _ = expect_eq_evaluate program "sub_tez" (e_mutez 1) in let%bind _ = expect_eq_evaluate program "not_enough_tez" (e_mutez 4611686018427387903) in let%bind _ = expect_eq_evaluate program "nat_mul_tez" (e_mutez 100) in let%bind _ = expect_eq_evaluate program "tez_mul_nat" (e_mutez 1000) in let%bind _ = expect_eq_evaluate program "tez_div_tez1" (e_nat 100) in let%bind _ = expect_eq_evaluate program "tez_div_tez2" (e_nat 1) in let%bind _ = expect_eq_evaluate program "tez_div_tez3" (e_nat 0) in let%bind _ = expect_eq_evaluate program "tez_mod_tez1" (e_mutez 0) in let%bind _ = expect_eq_evaluate program "tez_mod_tez2" (e_mutez 10) in let%bind _ = expect_eq_evaluate program "tez_mod_tez3" (e_mutez 100) in ok () let tez_mligo () : unit result = let%bind program = mtype_file "./contracts/tez.mligo" in let%bind _ = expect_eq_evaluate program "add_tez" (e_mutez 42) in let%bind _ = expect_eq_evaluate program "sub_tez" (e_mutez 1) in let%bind _ = expect_eq_evaluate program "not_enough_tez" (e_mutez 4611686018427387903) in let%bind _ = expect_eq_evaluate program "add_more_tez" (e_mutez 111111000) in ok () let website2_mligo () : unit result = let%bind program = mtype_file "./contracts/website2.mligo" in let make_input = fun n -> let action = if n mod 2 = 0 then "Increment" else "Decrement" in e_pair (e_constructor action (e_int n)) (e_int 42) in let make_expected = fun n -> let op = if n mod 2 = 0 then (+) else (-) in e_pair (e_typed_list [] t_operation) (e_int (op 42 n)) in expect_eq_n program "main" make_input make_expected let website2_religo () : unit result = let%bind program = retype_file "./contracts/website2.religo" in let make_input = fun n -> let action = if n mod 2 = 0 then "Increment" else "Decrement" in e_pair (e_constructor action (e_int n)) (e_int 42) in let make_expected = fun n -> let op = if n mod 2 = 0 then (+) else (-) in e_pair (e_typed_list [] t_operation) (e_int (op 42 n)) in expect_eq_n program "main" make_input make_expected let mligo_let_multiple () : unit result = let%bind program = mtype_file "./contracts/let_multiple.mligo" in let%bind () = let input = e_unit () in let expected = e_int 3 in expect_eq program "main" input expected in let%bind () = let input = e_unit () in let expected = e_int 6 in expect_eq program "main_paren" input expected in let%bind () = let input = e_unit () in let expected = e_tuple [e_int 23 ; e_int 42] in expect_eq program "correct_values_bound" input expected in let%bind () = let input = e_unit () in let expected = e_int 19 in expect_eq program "non_tuple_rhs" input expected in let%bind () = let input = e_unit () in let expected = e_tuple [e_int 10; e_int 20; e_int 30; e_int 40; e_int 50] in expect_eq program "correct_values_big_tuple" input expected in let%bind () = let input = e_unit () in let expected = e_tuple [e_int 10 ; e_string "hello"] in expect_eq program "correct_values_different_types" input expected in ok () let religo_let_multiple () : unit result = let%bind program = retype_file "./contracts/let_multiple.religo" in let%bind () = let input = e_unit () in let expected = e_int 3 in expect_eq program "main" input expected in let%bind () = let input = e_unit () in let expected = e_int 6 in expect_eq program "main_paren" input expected in let%bind () = let input = e_unit () in let expected = e_int 65 in expect_eq program "non_tuple_rhs" input expected in ok () let balance_test_options () = let%bind balance = trace_option (simple_error "could not convert balance") @@ Memory_proto_alpha.Protocol.Alpha_context.Tez.of_string "4000000" in ok @@ Proto_alpha_utils.Memory_proto_alpha.make_options ~balance () let balance_constant () : unit result = let%bind program = type_file "./contracts/balance_constant.ligo" in let input = e_tuple [e_unit () ; e_mutez 0] in let expected = e_tuple [e_list []; e_mutez 4000000000000] in let%bind options = balance_test_options () in expect_eq ~options program "main" input expected let balance_constant_mligo () : unit result = let%bind program = mtype_file "./contracts/balance_constant.mligo" in let input = e_tuple [e_unit () ; e_mutez 0] in let expected = e_tuple [e_list []; e_mutez 4000000000000] in let%bind options = balance_test_options () in expect_eq ~options program "main" input expected let balance_constant_religo () : unit result = let%bind program = retype_file "./contracts/balance_constant.religo" in let input = e_tuple [e_unit () ; e_mutez 0] in let expected = e_tuple [e_list []; e_mutez 4000000000000] in let%bind options = balance_test_options () in expect_eq ~options program "main" input expected let amount () : unit result = let%bind program = type_file "./contracts/amount.ligo" in let input = e_unit () in let expected = e_int 42 in let amount = match Memory_proto_alpha.Protocol.Alpha_context.Tez.of_string "100" with | Some t -> t | None -> Memory_proto_alpha.Protocol.Alpha_context.Tez.one in let options = Proto_alpha_utils.Memory_proto_alpha.make_options ~amount () in expect_eq ~options program "check" input expected let amount_mligo () : unit result = let%bind program = mtype_file "./contracts/amount.mligo" in let input = e_unit () in let expected = e_int 42 in let amount = match Memory_proto_alpha.Protocol.Alpha_context.Tez.of_string "100" with | Some t -> t | None -> Memory_proto_alpha.Protocol.Alpha_context.Tez.one in let options = Proto_alpha_utils.Memory_proto_alpha.make_options ~amount () in expect_eq ~options program "check_" input expected let amount_religo () : unit result = let%bind program = retype_file "./contracts/amount.religo" in let input = e_unit () in let expected = e_int 42 in let amount = match Memory_proto_alpha.Protocol.Alpha_context.Tez.of_string "100" with | Some t -> t | None -> Memory_proto_alpha.Protocol.Alpha_context.Tez.one in let options = Proto_alpha_utils.Memory_proto_alpha.make_options ~amount () in expect_eq ~options program "check_" input expected let addr_test program = let open Proto_alpha_utils.Memory_proto_alpha in let addr = Protocol.Alpha_context.Contract.to_b58check @@ (List.nth dummy_environment.identities 0).implicit_contract in let open Tezos_crypto in let key_hash = Signature.Public_key_hash.to_b58check @@ (List.nth dummy_environment.identities 0).public_key_hash in expect_eq program "main" (e_key_hash key_hash) (e_address addr) let address () : unit result = let%bind program = type_file "./contracts/address.ligo" in addr_test program let address_mligo () : unit result = let%bind program = mtype_file "./contracts/address.mligo" in addr_test program let address_religo () : unit result = let%bind program = retype_file "./contracts/address.religo" in addr_test program let self_address () : unit result = let%bind _ = type_file "./contracts/self_address.ligo" in ok () let self_address_mligo () : unit result = let%bind _ = mtype_file "./contracts/self_address.mligo" in ok () let self_address_religo () : unit result = let%bind _ = retype_file "./contracts/self_address.religo" in ok () let implicit_account () : unit result = let%bind _ = type_file "./contracts/implicit_account.ligo" in ok () let implicit_account_mligo () : unit result = let%bind _ = mtype_file "./contracts/implicit_account.mligo" in ok () let implicit_account_religo () : unit result = let%bind _ = retype_file "./contracts/implicit_account.religo" in ok () let tuples_sequences_functions_religo () : unit result = let%bind _ = retype_file "./contracts/tuples_sequences_functions.religo" in ok () let is_nat () : unit result = let%bind program = type_file "./contracts/isnat.ligo" in let%bind () = let input = e_int 10 in let expected = e_some (e_nat 10) in expect_eq program "main" input expected in let%bind () = let input = e_int (-10) in let expected = e_none () in expect_eq program "main" input expected in ok () let is_nat_mligo () : unit result = let%bind program = mtype_file "./contracts/isnat.mligo" in let%bind () = let input = e_int 10 in let expected = e_some (e_nat 10) in expect_eq program "main" input expected in let%bind () = let input = e_int (-10) in let expected = e_none () in expect_eq program "main" input expected in ok () let is_nat_religo () : unit result = let%bind program = retype_file "./contracts/isnat.religo" in let%bind () = let input = e_int 10 in let expected = e_some (e_nat 10) in expect_eq program "main" input expected in let%bind () = let input = e_int (-10) in let expected = e_none () in expect_eq program "main" input expected in ok () let simple_access_ligo () : unit result = let%bind program = type_file "./contracts/simple_access.ligo" in let make_input = e_tuple [e_int 0; e_int 1] in let make_expected = e_int 2 in expect_eq program "main" make_input make_expected let deep_access_ligo () : unit result = let%bind program = type_file "./contracts/deep_access.ligo" in let%bind () = let make_input = e_unit () in let make_expected = e_int 2 in expect_eq program "main" make_input make_expected in let%bind () = let make_input = e_unit () in let make_expected = e_int 6 in expect_eq program "asymetric_tuple_access" make_input make_expected in let%bind () = let make_input = e_record_ez [ ("nesty", e_record_ez [ ("mymap", e_typed_map [] t_int t_string) ] ) ; ] in let make_expected = e_string "one" in expect_eq program "nested_record" make_input make_expected in ok () let attributes_ligo () : unit result = let%bind program = type_file "./contracts/attributes.ligo" in let%bind () = let input = e_int 3 in let expected = e_int 5 in expect_eq program "foo" input expected in ok () let attributes_mligo () : unit result = let%bind program = mtype_file "./contracts/attributes.mligo" in let%bind () = let input = e_int 3 in let expected = e_int 5 in expect_eq program "foo" input expected in ok () let attributes_religo () : unit result = let%bind program = retype_file "./contracts/attributes.religo" in let%bind () = let input = e_int 3 in let expected = e_int 5 in expect_eq program "foo" input expected in ok () let get_contract_ligo () : unit result = let%bind program = type_file "./contracts/get_contract.ligo" in let%bind () = let make_input = fun _n -> e_unit () in let make_expected : int -> Ast_core.expression -> unit result = fun _n result -> let%bind (ops , storage) = Ast_core.get_e_pair result.expression_content in let%bind () = let%bind lst = Ast_core.get_e_list ops.expression_content in Assert.assert_list_size lst 1 in let expected_storage = Ast_core.e_unit () in Ast_core.Misc.assert_value_eq (expected_storage , storage) in let%bind () = let amount = Memory_proto_alpha.Protocol.Alpha_context.Tez.zero in let options = Proto_alpha_utils.Memory_proto_alpha.make_options ~amount () in let%bind () = expect_n_strict_pos_small ~options program "cb" make_input make_expected in expect_n_strict_pos_small ~options program "cbo" make_input make_expected in ok () in ok() let entrypoints_ligo () : unit result = let%bind _program = type_file "./contracts/entrypoints.ligo" in (* hmm... *) ok () let chain_id () : unit result = let%bind program = type_file "./contracts/chain_id.ligo" in let pouet = Tezos_crypto.Base58.simple_encode Tezos_base__TzPervasives.Chain_id.b58check_encoding Tezos_base__TzPervasives.Chain_id.zero in let make_input = e_chain_id pouet in let make_expected = e_chain_id pouet in let%bind () = expect_eq program "chain_id" make_input make_expected in ok () let key_hash () : unit result = let open Tezos_crypto in let (raw_pkh,raw_pk,_) = Signature.generate_key () in let pkh_str = Signature.Public_key_hash.to_b58check raw_pkh in let pk_str = Signature.Public_key.to_b58check raw_pk in let%bind program = type_file "./contracts/key_hash.ligo" in let make_input = e_pair (e_key_hash pkh_str) (e_key pk_str) in let make_expected = e_pair (e_bool true) (e_key_hash pkh_str) in let%bind () = expect_eq program "check_hash_key" make_input make_expected in ok () let key_hash_mligo () : unit result = let open Tezos_crypto in let (raw_pkh,raw_pk,_) = Signature.generate_key () in let pkh_str = Signature.Public_key_hash.to_b58check raw_pkh in let pk_str = Signature.Public_key.to_b58check raw_pk in let%bind program = mtype_file "./contracts/key_hash.mligo" in let make_input = e_pair (e_key_hash pkh_str) (e_key pk_str) in let make_expected = e_pair (e_bool true) (e_key_hash pkh_str) in let%bind () = expect_eq program "check_hash_key" make_input make_expected in ok () let key_hash_religo () : unit result = let open Tezos_crypto in let (raw_pkh,raw_pk,_) = Signature.generate_key () in let pkh_str = Signature.Public_key_hash.to_b58check raw_pkh in let pk_str = Signature.Public_key.to_b58check raw_pk in let%bind program = retype_file "./contracts/key_hash.religo" in let make_input = e_pair (e_key_hash pkh_str) (e_key pk_str) in let make_expected = e_pair (e_bool true) (e_key_hash pkh_str) in let%bind () = expect_eq program "check_hash_key" make_input make_expected in ok () let check_signature () : unit result = let open Tezos_crypto in let (_, raw_pk, sk) = Signature.generate_key () in let pk_str = Signature.Public_key.to_b58check raw_pk in let signed = Signature.sign sk (Bytes.of_string "hello world") in let%bind program = type_file "./contracts/check_signature.ligo" in let make_input = e_tuple [e_key pk_str ; e_signature (Signature.to_b58check signed) ; e_bytes_string "hello world"] in let make_expected = e_bool true in let%bind () = expect_eq program "check_signature" make_input make_expected in ok () let check_signature_mligo () : unit result = let open Tezos_crypto in let (_, raw_pk, sk) = Signature.generate_key () in let pk_str = Signature.Public_key.to_b58check raw_pk in let signed = Signature.sign sk (Bytes.of_string "hello world") in let%bind program = mtype_file "./contracts/check_signature.mligo" in let make_input = e_tuple [e_key pk_str ; e_signature (Signature.to_b58check signed) ; e_bytes_string "hello world"] in let make_expected = e_bool true in let%bind () = expect_eq program "check_signature" make_input make_expected in let%bind () = expect_eq_evaluate program "example" (e_bool true) in ok () let check_signature_religo () : unit result = let open Tezos_crypto in let (_, raw_pk, sk) = Signature.generate_key () in let pk_str = Signature.Public_key.to_b58check raw_pk in let signed = Signature.sign sk (Bytes.of_string "hello world") in let%bind program = retype_file "./contracts/check_signature.religo" in let make_input = e_tuple [e_key pk_str ; e_signature (Signature.to_b58check signed) ; e_bytes_string "hello world"] in let make_expected = e_bool true in let%bind () = expect_eq program "check_signature" make_input make_expected in ok () let curry () : unit result = let%bind program = mtype_file "./contracts/curry.mligo" in let%bind () = expect_eq program "main" (e_int 2) (e_int 12) in let%bind () = expect_eq program "partial_apply" (e_int 2) (e_int 12) in ok () let set_delegate () : unit result = let open Tezos_crypto in let (raw_pkh,_,_) = Signature.generate_key () in let pkh_str = Signature.Public_key_hash.to_b58check raw_pkh in let%bind program = type_file "./contracts/set_delegate.ligo" in let%bind () = expect_eq program "main" (e_key_hash pkh_str) (e_typed_list [] t_operation) in ok () let set_delegate_mligo () : unit result = let open Tezos_crypto in let (raw_pkh,_,_) = Signature.generate_key () in let pkh_str = Signature.Public_key_hash.to_b58check raw_pkh in let%bind program = mtype_file "./contracts/set_delegate.mligo" in let%bind () = expect_eq program "main" (e_key_hash pkh_str) (e_typed_list [] t_operation) in ok () let set_delegate_religo () : unit result = let open Tezos_crypto in let (raw_pkh,_,_) = Signature.generate_key () in let pkh_str = Signature.Public_key_hash.to_b58check raw_pkh in let%bind program = retype_file "./contracts/set_delegate.religo" in let%bind () = expect_eq program "main" (e_key_hash pkh_str) (e_typed_list [] t_operation) in ok () let type_tuple_destruct () : unit result = let%bind program = mtype_file "./contracts/type_tuple_destruct.mligo" in let%bind () = expect_eq program "type_tuple_d" (e_unit ()) (e_int 35) in let%bind () = expect_eq program "type_tuple_d_2" (e_unit ()) (e_string "helloworld") in ok () let tuple_param_destruct () : unit result = let%bind program = mtype_file "./contracts/tuple_param_destruct.mligo" in let%bind () = expect_eq program "sum" (e_tuple [e_int 20; e_int 10]) (e_int 10) in let%bind () = expect_eq program "parentheses" (e_tuple [e_int 20; e_int 10]) (e_int 10) in ok () let tuple_param_destruct_religo () : unit result = let%bind program = retype_file "./contracts/tuple_param_destruct.religo" in let%bind () = expect_eq program "sum" (e_tuple [e_int 20; e_int 10]) (e_int 10) in let%bind () = expect_eq program "parentheses" (e_tuple [e_int 20; e_int 10]) (e_int 10) in ok () let let_in_multi_bind () : unit result = let%bind program = mtype_file "./contracts/let_in_multi_bind.mligo" in let%bind () = expect_eq program "sum" (e_tuple [e_int 10; e_int 10]) (e_int 20) in let%bind () = expect_eq program "sum2" (e_tuple [e_string "my" ; e_string "name" ; e_string "is" ; e_string "bob" ]) (e_string "mynameisbob") in ok () let bytes_unpack () : unit result = let%bind program = type_file "./contracts/bytes_unpack.ligo" in let%bind () = expect_eq program "id_string" (e_string "teststring") (e_some (e_string "teststring")) in let%bind () = expect_eq program "id_int" (e_int 42) (e_some (e_int 42)) in let open Proto_alpha_utils.Memory_proto_alpha in let addr = Protocol.Alpha_context.Contract.to_b58check @@ (List.nth dummy_environment.identities 0).implicit_contract in let%bind () = expect_eq program "id_address" (e_address addr) (e_some (e_address addr)) in ok () let bytes_unpack_mligo () : unit result = let%bind program = mtype_file "./contracts/bytes_unpack.mligo" in let%bind () = expect_eq program "id_string" (e_string "teststring") (e_some (e_string "teststring")) in let%bind () = expect_eq program "id_int" (e_int 42) (e_some (e_int 42)) in let open Proto_alpha_utils.Memory_proto_alpha in let addr = Protocol.Alpha_context.Contract.to_b58check @@ (List.nth dummy_environment.identities 0).implicit_contract in let%bind () = expect_eq program "id_address" (e_address addr) (e_some (e_address addr)) in ok () let bytes_unpack_religo () : unit result = let%bind program = retype_file "./contracts/bytes_unpack.religo" in let%bind () = expect_eq program "id_string" (e_string "teststring") (e_some (e_string "teststring")) in let%bind () = expect_eq program "id_int" (e_int 42) (e_some (e_int 42)) in let open Proto_alpha_utils.Memory_proto_alpha in let addr = Protocol.Alpha_context.Contract.to_b58check @@ (List.nth dummy_environment.identities 0).implicit_contract in let%bind () = expect_eq program "id_address" (e_address addr) (e_some (e_address addr)) in ok () let empty_case () : unit result = let%bind program = type_file "./contracts/empty_case.ligo" in let%bind () = let input _ = e_constructor "Bar" (e_int 1) in let expected _ = e_int 1 in expect_eq_n program "main" input expected in let%bind () = let input _ = e_constructor "Baz" (e_unit ()) in let expected _ = e_int (-1) in expect_eq_n program "main" input expected in ok () let empty_case_mligo () : unit result = let%bind program = mtype_file "./contracts/empty_case.mligo" in let%bind () = let input _ = e_constructor "Bar" (e_int 1) in let expected _ = e_int 1 in expect_eq_n program "main" input expected in let%bind () = let input _ = e_constructor "Baz" (e_unit ()) in let expected _ = e_int (-1) in expect_eq_n program "main" input expected in ok () let empty_case_religo () : unit result = let%bind program = retype_file "./contracts/empty_case.religo" in let%bind () = let input _ = e_constructor "Bar" (e_int 1) in let expected _ = e_int 1 in expect_eq_n program "main" input expected in let%bind () = let input _ = e_constructor "Baz" (e_unit ()) in let expected _ = e_int (-1) in expect_eq_n program "main" input expected in ok () let tuple_type_mligo () : unit result = let%bind program = mtype_file "./contracts/tuple_type.mligo" in let%bind () = let input _ = e_int 0 in let expected _ = e_int 8 in expect_eq_n program "test1" input expected in let%bind () = let input _ = e_int 0 in let expected _ = e_int 12 in expect_eq_n program "test2" input expected in ok () let tuple_type_religo () : unit result = let%bind program = retype_file "./contracts/tuple_type.religo" in let%bind () = let input _ = e_int 0 in let expected _ = e_int 8 in expect_eq_n program "arguments_test" input expected in let%bind () = let input _ = e_int 0 in let expected _ = e_int 8 in expect_eq_n program "tuple_test" input expected in let%bind () = let input _ = e_int 0 in let expected _ = e_int 8 in expect_eq_n program "arguments_test_inline" input expected in let%bind () = let input _ = e_int 0 in let expected _ = e_int 8 in expect_eq_n program "tuple_test_inline" input expected in ok () let no_semicolon_religo () : unit result = let%bind program = retype_file "./contracts/no_semicolon.religo" in let%bind () = let input _ = e_int 2 in let expected _ = e_int 3 in expect_eq_n program "a" input expected in ok () let tuple_list_religo () : unit result = let%bind _ = retype_file "./contracts/tuple_list.religo" in ok () let loop_bugs_ligo () : unit result = let%bind program = type_file "./contracts/loop_bugs.ligo" in let input = e_unit () in let%bind () = let expected = e_string "tata" in expect_eq program "shadowing_in_body" input expected in let%bind () = let expected = e_string "toto" in expect_eq program "shadowing_assigned_in_body" input expected in ok () let main = test_suite "Integration (End to End)" [ test "bytes unpack" bytes_unpack ; test "bytes unpack (mligo)" bytes_unpack_mligo ; test "bytes unpack (religo)" bytes_unpack_religo ; test "key hash" key_hash ; test "key hash (mligo)" key_hash_mligo ; test "key hash (religo)" key_hash_religo ; test "check signature" check_signature ; test "check signature (mligo)" check_signature_mligo ; test "check signature (religo)" check_signature_religo ; test "chain id" chain_id ; test "type alias" type_alias ; test "function" function_ ; test "blockless function" blockless; (* test "procedure" procedure ; *) test "assign" assign ; test "declaration local" declaration_local ; test "complex function" complex_function ; test "anon function" anon_function ; test "various applications" application ; test "closure" closure ; test "closure (mligo)" closure_mligo ; test "closure (religo)" closure_religo ; test "shared function" shared_function ; test "shared function (mligo)" shared_function_mligo ; test "shared function (religo)" shared_function_religo ; test "higher order" higher_order ; test "higher order (mligo)" higher_order_mligo ; test "higher order (religo)" higher_order_religo ; test "variant" variant ; test "variant (mligo)" variant_mligo ; test "variant (religo)" variant_religo ; test "variant matching" variant_matching ; test "tuple" tuple ; test "tuple (mligo)" tuple_mligo ; test "tuple (religo)" tuple_religo ; test "record" record ; test "record (mligo)" record_mligo ; test "record (religo)" record_religo ; test "condition simple" condition_simple ; test "condition (ligo)" condition ; test "condition (mligo)" condition_mligo ; test "condition (religo)" condition_religo ; test "eq bool (ligo)" eq_bool ; test "eq bool (mligo)" eq_bool_mligo ; test "eq bool (religo)" eq_bool_religo ; test "shadow" shadow ; test "annotation" annotation ; test "multiple parameters" multiple_parameters ; test "multiple parameters (mligo)" multiple_parameters_mligo ; test "multiple parameters (religo)" multiple_parameters_religo ; test "bool" bool_expression ; test "bool (mligo)" bool_expression_mligo ; test "bool (religo)" bool_expression_religo ; test "arithmetic" arithmetic ; test "arithmetic (mligo)" arithmetic_mligo ; test "arithmetic (religo)" arithmetic_religo ; test "bitwise_arithmetic" bitwise_arithmetic ; test "bitwise_arithmetic (mligo)" bitwise_arithmetic_mligo; test "bitwise_arithmetic (religo)" bitwise_arithmetic_religo; test "string_arithmetic" string_arithmetic ; test "string_arithmetic (mligo)" string_arithmetic_mligo ; test "string_arithmetic (religo)" string_arithmetic_religo ; test "bytes_arithmetic" bytes_arithmetic ; test "bytes_arithmetic (mligo)" bytes_arithmetic_mligo ; test "bytes_arithmetic (religo)" bytes_arithmetic_religo ; test "crypto" crypto ; test "crypto (mligo)" crypto_mligo ; test "crypto (religo)" crypto_religo ; (* test "set_arithmetic" set_arithmetic ; *) test "set_arithmetic (mligo)" set_arithmetic_mligo ; test "set_arithmetic (religo)" set_arithmetic_religo ; test "unit" unit_expression ; test "string" string_expression ; test "option" option ; test "option (mligo)" moption ; test "option (religo)" reoption ; test "map" map ; test "map (mligo)" mmap ; (* test "map (religo)" remap ; *) test "big_map" big_map ; test "big_map (mligo)" mbig_map ; test "big_map (religo)" rebig_map ; (* test "list" list ; *) test "loop" loop ; test "loop (mligo)" loop_mligo ; test "loop (religo)" loop_religo ; test "matching" matching ; test "declarations" declarations ; test "quote declaration" quote_declaration ; test "quote declarations" quote_declarations ; test "#include directives" include_ ; test "#include directives (mligo)" include_mligo ; test "#include directives (religo)" include_religo ; test "counter contract" counter_contract ; test "super counter contract" super_counter_contract ; test "super counter contract" super_counter_contract_mligo ; test "dispatch counter contract" dispatch_counter_contract ; test "basic (mligo)" basic_mligo ; test "basic (religo)" basic_religo ; test "counter contract (mligo)" counter_mligo ; test "counter contract (religo)" counter_religo ; test "let-in (mligo)" let_in_mligo ; test "let-in (religo)" let_in_religo ; test "match variant (mligo)" match_variant ; test "match variant (religo)" match_variant_re ; test "match variant 2 (mligo)" match_matej ; test "match variant 2 (religo)" match_matej_re ; (* test "list matching (mligo)" mligo_list ; *) test "list matching (mligo)" mligo_list ; test "list matching (religo)" religo_list ; test "failwith ligo" failwith_ligo ; test "failwith mligo" failwith_mligo ; test "assert mligo" assert_mligo ; test "recursion (ligo)" recursion_ligo ; test "recursion (mligo)" recursion_mligo ; test "recursion (religo)" recursion_religo ; (* test "guess string mligo" guess_string_mligo ; WIP? *) test "lambda mligo" lambda_mligo ; test "lambda religo" lambda_religo ; test "lambda ligo" lambda_ligo ; test "tez (ligo)" tez_ligo ; test "tez (mligo)" tez_mligo ; test "lambda2 mligo" lambda2_mligo ; test "lambda2 religo" lambda2_religo ; (* test "fibo (mligo)" fibo_mligo ; *) (* test "fibo2 (mligo)" fibo2_mligo ; *) (* test "fibo3 (mligo)" fibo3_mligo ; *) (* test "fibo4 (mligo)" fibo4_mligo ; *) test "website1 ligo" website1_ligo ; test "website2 ligo" website2_ligo ; test "website2 (mligo)" website2_mligo ; test "website2 (religo)" website2_religo ; test "let multiple (mligo)" mligo_let_multiple ; test "let multiple (religo)" religo_let_multiple ; test "balance constant" balance_constant ; test "balance constant (mligo)" balance_constant_mligo ; test "balance constant (religo)" balance_constant_religo ; test "amount" amount ; test "amount (mligo)" amount_mligo ; test "amount (religo)" amount_religo ; test "address" address ; test "address (mligo)" address_mligo ; test "address (religo)" address_religo ; test "self address" self_address ; test "self address (mligo)" self_address_mligo ; test "self address (religo)" self_address_religo ; test "implicit account" implicit_account ; test "implicit account (mligo)" implicit_account_mligo ; test "implicit account (religo)" implicit_account_religo ; test "set delegate" set_delegate ; test "set delegate (mligo)" set_delegate_mligo ; test "set delegate (religo)" set_delegate_religo ; test "is_nat" is_nat ; test "is_nat (mligo)" is_nat_mligo ; test "is_nat (religo)" is_nat_religo ; test "tuples_sequences_functions (religo)" tuples_sequences_functions_religo ; test "simple_access (ligo)" simple_access_ligo; test "deep_access (ligo)" deep_access_ligo; test "get_contract (ligo)" get_contract_ligo; test "entrypoints (ligo)" entrypoints_ligo ; test "curry (mligo)" curry ; test "type tuple destruct (mligo)" type_tuple_destruct ; test "attributes (ligo)" attributes_ligo; test "attributes (mligo)" attributes_mligo; test "attributes (religo)" attributes_religo; test "let in multi-bind (mligo)" let_in_multi_bind ; test "tuple param destruct (mligo)" tuple_param_destruct ; test "tuple param destruct (religo)" tuple_param_destruct_religo ; test "empty case" empty_case ; test "empty case (mligo)" empty_case_mligo ; test "empty case (religo)" empty_case_religo ; test "tuple type (mligo)" tuple_type_mligo ; test "tuple type (religo)" tuple_type_religo ; test "no semicolon (religo)" no_semicolon_religo ; test "loop_bugs (ligo)" loop_bugs_ligo ; test "tuple_list (religo)" tuple_list_religo ; ]