package gigaparsec_test import ( "bytes" "testing" "git.codemonkeysoftware.net/b/gigaparsec" "git.codemonkeysoftware.net/b/gigaparsec/cursor" "github.com/shoenig/test" "pgregory.net/rapid" ) func Todo(t *testing.T) { t.Errorf("TODO") } func not[T any](pred func(T) bool) func(T) bool { return func(x T) bool { return !pred(x) } } func hasPrefix(prefix []byte) func([]byte) bool { return func(b []byte) bool { return bytes.HasPrefix(b, prefix) } } func TestSlice(t *testing.T) { assertParseFails := func(t rapid.TB, input []byte, p gigaparsec.Parser[byte, []byte]) (parseErr gigaparsec.ParseError) { t.Helper() start := gigaparsec.MakeState(cursor.NewSlice(input)) consumed, result, err := p(start) test.ErrorAs(t, err, &parseErr, test.Sprint("expected ParseError")) test.False(t, consumed, test.Sprint("expected consumed to be false")) test.SliceEmpty(t, result.Value, test.Sprint("expected result value to be empty")) if t.Failed() { t.FailNow() } return parseErr } t.Run("fails with wrong contents", rapid.MakeCheck(func(t *rapid.T) { s := rapid.SliceOfN(rapid.Byte(), 1, -1).Draw(t, "s") input := rapid.SliceOfN(rapid.Byte(), len(s), -1). Filter(not(hasPrefix(s))).Draw(t, "input") assertParseFails(t, input, gigaparsec.Slice(s)) })) t.Run("fails at end of input", rapid.MakeCheck(func(t *rapid.T) { s := rapid.SliceOfN(rapid.Byte(), 1, -1).Draw(t, "s") inputLen := rapid.IntRange(0, len(s)-1).Draw(t, "inputLen") input := s[:inputLen] assertParseFails(t, input, gigaparsec.Slice(s)) })) t.Run("fails when read fails", Todo) t.Run("succeeds when contents match", rapid.MakeCheck(func(t *rapid.T) { input := rapid.SliceOfN(rapid.Byte(), 1, -1).Draw(t, "input") sLen := rapid.IntRange(0, len(input)).Draw(t, "sLen") s := input[:sLen] start := gigaparsec.MakeState(cursor.NewSlice(input)) consumed, result, err := gigaparsec.Slice(s)(start) test.NoError(t, err) test.True(t, consumed, test.Sprint("expected consumed to be true")) test.SliceEqOp(t, s, result.Value) test.EqOp(t, uint64(len(s)), result.State.Pos()) })) } func TestChoose(t *testing.T) { Todo(t) }