#[cfg(feature = "gen-llvm")] use crate::helpers::llvm::assert_evals_to; #[cfg(feature = "gen-wasm")] use crate::helpers::wasm::assert_evals_to; #[cfg(all(test, any(feature = "gen-llvm", feature = "gen-wasm")))] use indoc::indoc; #[cfg(all(test, any(feature = "gen-llvm", feature = "gen-wasm")))] use roc_std::RocList; #[cfg(all(test, any(feature = "gen-llvm", feature = "gen-wasm")))] use roc_std::RocStr; #[test] #[cfg(any(feature = "gen-llvm", feature = "gen-wasm"))] fn hash_specialization() { assert_evals_to!( indoc!( r#" app "test" provides [main] to "./platform" Hash has hash : a -> U64 | a has Hash Id := U64 has [Hash {hash}] hash = \@Id n -> n main = hash (@Id 1234) "# ), 1234, u64 ); } #[test] #[cfg(any(feature = "gen-llvm", feature = "gen-wasm"))] fn hash_specialization_multiple_add() { assert_evals_to!( indoc!( r#" app "test" provides [main] to "./platform" Hash has hash : a -> U64 | a has Hash Id := U64 has [ Hash {hash: hashId} ] hashId = \@Id n -> n One := {} has [ Hash {hash: hashOne} ] hashOne = \@One _ -> 1 main = hash (@Id 1234) + hash (@One {}) "# ), 1235, u64 ); } #[test] #[cfg(any(feature = "gen-llvm", feature = "gen-wasm"))] fn alias_member_specialization() { assert_evals_to!( indoc!( r#" app "test" provides [main] to "./platform" Hash has hash : a -> U64 | a has Hash Id := U64 has [Hash {hash}] hash = \@Id n -> n main = aliasedHash = hash aliasedHash (@Id 1234) "# ), 1234, u64 ); } #[test] #[cfg(any(feature = "gen-llvm", feature = "gen-wasm"))] fn ability_constrained_in_non_member_usage() { assert_evals_to!( indoc!( r#" app "test" provides [result] to "./platform" Hash has hash : a -> U64 | a has Hash mulHashes : a, a -> U64 | a has Hash mulHashes = \x, y -> hash x * hash y Id := U64 has [Hash {hash}] hash = \@Id n -> n result = mulHashes (@Id 5) (@Id 7) "# ), 35, u64 ) } #[test] #[cfg(any(feature = "gen-llvm", feature = "gen-wasm"))] fn ability_constrained_in_non_member_usage_inferred() { assert_evals_to!( indoc!( r#" app "test" provides [result] to "./platform" Hash has hash : a -> U64 | a has Hash mulHashes = \x, y -> hash x * hash y Id := U64 has [Hash {hash}] hash = \@Id n -> n result = mulHashes (@Id 5) (@Id 7) "# ), 35, u64 ) } #[test] #[cfg(any(feature = "gen-llvm", feature = "gen-wasm"))] fn ability_constrained_in_non_member_multiple_specializations() { assert_evals_to!( indoc!( r#" app "test" provides [result] to "./platform" Hash has hash : a -> U64 | a has Hash mulHashes : a, b -> U64 | a has Hash, b has Hash mulHashes = \x, y -> hash x * hash y Id := U64 has [Hash { hash: hashId }] hashId = \@Id n -> n Three := {} has [Hash { hash: hashThree }] hashThree = \@Three _ -> 3 result = mulHashes (@Id 100) (@Three {}) "# ), 300, u64 ) } #[test] #[cfg(any(feature = "gen-llvm", feature = "gen-wasm"))] fn ability_constrained_in_non_member_multiple_specializations_inferred() { assert_evals_to!( indoc!( r#" app "test" provides [result] to "./platform" Hash has hash : a -> U64 | a has Hash mulHashes = \x, y -> hash x * hash y Id := U64 has [Hash { hash: hashId }] hashId = \@Id n -> n Three := {} has [Hash { hash: hashThree }] hashThree = \@Three _ -> 3 result = mulHashes (@Id 100) (@Three {}) "# ), 300, u64 ) } #[test] #[cfg(any(feature = "gen-llvm", feature = "gen-wasm"))] fn ability_used_as_type_still_compiles() { assert_evals_to!( indoc!( r#" app "test" provides [result] to "./platform" Hash has hash : a -> U64 | a has Hash mulHashes : Hash, Hash -> U64 mulHashes = \x, y -> hash x * hash y Id := U64 has [Hash { hash: hashId }] hashId = \@Id n -> n Three := {} has [Hash { hash: hashThree }] hashThree = \@Three _ -> 3 result = mulHashes (@Id 100) (@Three {}) "# ), 300, u64 ) } #[test] #[cfg(any(feature = "gen-llvm", feature = "gen-wasm"))] fn encode() { assert_evals_to!( indoc!( r#" app "test" provides [myU8Bytes] to "./platform" Encoder fmt := List U8, fmt -> List U8 | fmt has Format Encoding has toEncoder : val -> Encoder fmt | val has Encoding, fmt has Format Format has u8 : U8 -> Encoder fmt | fmt has Format appendWith : List U8, Encoder fmt, fmt -> List U8 | fmt has Format appendWith = \lst, (@Encoder doFormat), fmt -> doFormat lst fmt toBytes : val, fmt -> List U8 | val has Encoding, fmt has Format toBytes = \val, fmt -> appendWith [] (toEncoder val) fmt Linear := {} has [Format {u8}] u8 = \n -> @Encoder (\lst, @Linear {} -> List.append lst n) Rgba := { r : U8, g : U8, b : U8, a : U8 } has [Encoding {toEncoder}] toEncoder = \@Rgba {r, g, b, a} -> @Encoder \lst, fmt -> lst |> appendWith (u8 r) fmt |> appendWith (u8 g) fmt |> appendWith (u8 b) fmt |> appendWith (u8 a) fmt myU8Bytes = toBytes (@Rgba { r: 106, g: 90, b: 205, a: 255 }) (@Linear {}) "# ), RocList::from_slice(&[106, 90, 205, 255]), RocList ) } #[test] #[cfg(any(feature = "gen-llvm", feature = "gen-wasm"))] fn decode() { assert_evals_to!( indoc!( r#" app "test" provides [myU8] to "./platform" DecodeError : [TooShort, Leftover (List U8)] Decoder val fmt := List U8, fmt -> { result: Result val DecodeError, rest: List U8 } | fmt has DecoderFormatting Decoding has decoder : Decoder val fmt | val has Decoding, fmt has DecoderFormatting DecoderFormatting has u8 : Decoder U8 fmt | fmt has DecoderFormatting decodeWith : List U8, Decoder val fmt, fmt -> { result: Result val DecodeError, rest: List U8 } | fmt has DecoderFormatting decodeWith = \lst, (@Decoder doDecode), fmt -> doDecode lst fmt fromBytes : List U8, fmt -> Result val DecodeError | fmt has DecoderFormatting, val has Decoding fromBytes = \lst, fmt -> when decodeWith lst decoder fmt is { result, rest } -> Result.try result \val -> if List.isEmpty rest then Ok val else Err (Leftover rest) Linear := {} has [DecoderFormatting {u8}] u8 = @Decoder \lst, @Linear {} -> when List.first lst is Ok n -> { result: Ok n, rest: List.dropFirst lst } Err _ -> { result: Err TooShort, rest: [] } MyU8 := U8 has [Decoding {decoder}] # impl Decoding for MyU8 decoder = @Decoder \lst, fmt -> { result, rest } = decodeWith lst u8 fmt { result: Result.map result (\n -> @MyU8 n), rest } myU8 = when fromBytes [15] (@Linear {}) is Ok (@MyU8 n) -> n _ -> 27u8 "# ), 15, u8 ); } #[test] #[cfg(any(feature = "gen-llvm", feature = "gen-wasm"))] fn encode_use_stdlib() { assert_evals_to!( indoc!( r#" app "test" imports [Encode.{ Encoding, toEncoder }, Json] provides [main] to "./platform" HelloWorld := {} has [Encoding {toEncoder}] toEncoder = \@HelloWorld {} -> Encode.custom \bytes, fmt -> bytes |> Encode.appendWith (Encode.string "Hello, World!\n") fmt main = result = Str.fromUtf8 (Encode.toBytes (@HelloWorld {}) Json.toUtf8) when result is Ok s -> s _ -> "" "# ), RocStr::from("\"Hello, World!\n\""), RocStr ) } #[test] #[cfg(any(feature = "gen-llvm"))] fn encode_use_stdlib_without_wrapping_custom() { assert_evals_to!( indoc!( r#" app "test" imports [Encode.{ Encoding, toEncoder }, Json] provides [main] to "./platform" HelloWorld := {} has [Encoding {toEncoder}] toEncoder = \@HelloWorld {} -> Encode.string "Hello, World!\n" main = result = Str.fromUtf8 (Encode.toBytes (@HelloWorld {}) Json.toUtf8) when result is Ok s -> s _ -> "" "# ), RocStr::from("\"Hello, World!\n\""), RocStr ) } #[test] #[cfg(any(feature = "gen-llvm"))] fn to_encoder_encode_custom_has_capture() { assert_evals_to!( indoc!( r#" app "test" imports [Encode.{ Encoding, toEncoder }, Json] provides [main] to "./platform" HelloWorld := Str has [Encoding {toEncoder}] toEncoder = \@HelloWorld s1 -> Encode.custom \bytes, fmt -> bytes |> Encode.appendWith (Encode.string s1) fmt main = result = Str.fromUtf8 (Encode.toBytes (@HelloWorld "Hello, World!\n") Json.toUtf8) when result is Ok s -> s _ -> "" "# ), RocStr::from("\"Hello, World!\n\""), RocStr ) } mod encode_immediate { #[cfg(feature = "gen-llvm")] use crate::helpers::llvm::assert_evals_to; #[cfg(all(test, any(feature = "gen-llvm", feature = "gen-wasm")))] use indoc::indoc; #[cfg(all(test, any(feature = "gen-llvm", feature = "gen-wasm")))] use roc_std::RocStr; #[test] #[cfg(any(feature = "gen-llvm"))] fn string() { assert_evals_to!( indoc!( r#" app "test" imports [Encode.{ toEncoder }, Json] provides [main] to "./platform" main = when Str.fromUtf8 (Encode.toBytes "foo" Json.toUtf8) is Ok s -> s _ -> "" "# ), RocStr::from("\"foo\""), RocStr ) } macro_rules! num_immediate { ($($num:expr, $typ:ident)*) => {$( #[test] #[cfg(any(feature = "gen-llvm"))] fn $typ() { assert_evals_to!( &format!(indoc!( r#" app "test" imports [Encode.{{ toEncoder }}, Json] provides [main] to "./platform" main = when Str.fromUtf8 (Encode.toBytes {}{} Json.toUtf8) is Ok s -> s _ -> "" "# ), $num, stringify!($typ)), RocStr::from(format!(r#"{}"#, $num).as_str()), RocStr ) } )*} } num_immediate! { 17, i8 17, i16 17, i32 17, i64 17, i128 17, u8 17, u16 17, u32 17, u64 17, u128 // 17.23, f32 TODO https://github.com/rtfeldman/roc/issues/3522 17.23, f64 // 17.23, dec TODO https://github.com/rtfeldman/roc/issues/3522 } } #[test] #[cfg(any(feature = "gen-llvm"))] fn encode_derived_record_one_field_string() { assert_evals_to!( indoc!( r#" app "test" imports [Encode.{ toEncoder }, Json] provides [main] to "./platform" main = result = Str.fromUtf8 (Encode.toBytes {a: "foo"} Json.toUtf8) when result is Ok s -> s _ -> "" "# ), RocStr::from(r#"{"a":"foo"}"#), RocStr ) } #[test] #[cfg(any(feature = "gen-llvm"))] fn encode_derived_record_two_fields_strings() { assert_evals_to!( indoc!( r#" app "test" imports [Encode.{ toEncoder }, Json] provides [main] to "./platform" main = rcd = {a: "foo", b: "bar"} result = Str.fromUtf8 (Encode.toBytes rcd Json.toUtf8) when result is Ok s -> s _ -> "" "# ), RocStr::from(r#"{"a":"foo","b":"bar"}"#), RocStr ) } #[test] #[cfg(any(feature = "gen-llvm"))] fn encode_derived_nested_record_string() { assert_evals_to!( indoc!( r#" app "test" imports [Encode.{ toEncoder }, Json] provides [main] to "./platform" main = rcd = {a: {b: "bar"}} encoded = Encode.toBytes rcd Json.toUtf8 result = Str.fromUtf8 encoded when result is Ok s -> s _ -> "" "# ), RocStr::from(r#"{"a":{"b":"bar"}}"#), RocStr ) } #[test] #[cfg(any(feature = "gen-llvm"))] fn encode_derived_tag_one_payload_string() { assert_evals_to!( indoc!( r#" app "test" imports [Encode.{ toEncoder }, Json] provides [main] to "./platform" main = x : [A Str] x = A "foo" result = Str.fromUtf8 (Encode.toBytes x Json.toUtf8) when result is Ok s -> s _ -> "" "# ), RocStr::from(r#"{"A":["foo"]}"#), RocStr ) } #[test] #[cfg(any(feature = "gen-llvm"))] fn encode_derived_tag_two_payloads_string() { assert_evals_to!( indoc!( r#" app "test" imports [Encode.{ toEncoder }, Json] provides [main] to "./platform" main = x : [A Str Str] x = A "foo" "bar" result = Str.fromUtf8 (Encode.toBytes x Json.toUtf8) when result is Ok s -> s _ -> "" "# ), RocStr::from(r#"{"A":["foo","bar"]}"#), RocStr ) } #[test] #[cfg(any(feature = "gen-llvm"))] fn encode_derived_nested_tag_string() { assert_evals_to!( indoc!( r#" app "test" imports [Encode.{ toEncoder }, Json] provides [main] to "./platform" main = x : [A [B Str Str]] x = A (B "foo" "bar") encoded = Encode.toBytes x Json.toUtf8 result = Str.fromUtf8 encoded when result is Ok s -> s _ -> "" "# ), RocStr::from(r#"{"A":[{"B":["foo","bar"]}]}"#), RocStr ) } #[test] #[cfg(any(feature = "gen-llvm"))] fn encode_derived_nested_record_tag_record() { assert_evals_to!( indoc!( r#" app "test" imports [Encode.{ toEncoder }, Json] provides [main] to "./platform" main = x : {a: [B {c: Str}]} x = {a: (B ({c: "foo"}))} encoded = Encode.toBytes x Json.toUtf8 result = Str.fromUtf8 encoded when result is Ok s -> s _ -> "" "# ), RocStr::from(r#"{"a":{"B":[{"c":"foo"}]}}"#), RocStr ) } #[test] #[cfg(any(feature = "gen-llvm"))] fn encode_derived_list_string() { assert_evals_to!( indoc!( r#" app "test" imports [Encode.{ toEncoder }, Json] provides [main] to "./platform" main = lst = ["foo", "bar", "baz"] encoded = Encode.toBytes lst Json.toUtf8 result = Str.fromUtf8 encoded when result is Ok s -> s _ -> "" "# ), RocStr::from(r#"["foo","bar","baz"]"#), RocStr ) } #[test] #[cfg(any(feature = "gen-llvm"))] fn encode_derived_list_of_records() { assert_evals_to!( indoc!( r#" app "test" imports [Encode.{ toEncoder }, Json] provides [main] to "./platform" main = lst = [{a: "foo"}, {a: "bar"}, {a: "baz"}] encoded = Encode.toBytes lst Json.toUtf8 result = Str.fromUtf8 encoded when result is Ok s -> s _ -> "" "# ), RocStr::from(r#"[{"a":"foo"},{"a":"bar"},{"a":"baz"}]"#), RocStr ) }