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// Copyright 2018 The CUE Authors
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package cue
import (
"fmt"
"math/big"
"strconv"
"strings"
"testing"
)
func TestBuiltins(t *testing.T) {
test := func(pkg, expr string) []*bimport {
return []*bimport{&bimport{"",
[]string{fmt.Sprintf("import %q\n(%s)", pkg, expr)},
}}
}
testExpr := func(expr string) []*bimport {
return []*bimport{&bimport{"",
[]string{fmt.Sprintf("(%s)", expr)},
}}
}
hexToDec := func(s string) string {
var x big.Int
x.SetString(s, 16)
return x.String()
}
testCases := []struct {
instances []*bimport
emit string
}{{
test("math", "math.Pi"),
`3.14159265358979323846264338327950288419716939937510582097494459`,
}, {
test("math", "math.Floor(math.Pi)"),
`3`,
}, {
test("math", "math.Pi(3)"),
`_|_(cannot call non-function Pi (type float))`,
}, {
test("math", "math.Floor(3, 5)"),
`_|_(too many arguments in call to math.Floor (have 2, want 1))`,
}, {
test("math", `math.Floor("foo")`),
`_|_(cannot use "foo" (type string) as number in argument 1 to math.Floor)`,
}, {
test("crypto/sha256", `sha256.Sum256("hash me")`),
`'\xeb \x1a\xf5\xaa\xf0\xd6\x06)\xd3Ҧ\x1eFl\xfc\x0f\xed\xb5\x17\xad\xd81\xec\xacR5\xe1کc\xd6'`,
}, {
test("crypto/md5", `len(md5.Sum("hash me"))`),
`16`,
}, {
test("crypto/sha1", `len(sha1.Sum("hash me"))`),
`20`,
}, {
test("crypto/sha256", `len(sha256.Sum256("hash me"))`),
`32`,
}, {
test("crypto/sha256", `len(sha256.Sum224("hash me"))`),
`28`,
}, {
test("crypto/sha512", `len(sha512.Sum512("hash me"))`),
`64`,
}, {
test("crypto/sha512", `len(sha512.Sum384("hash me"))`),
`48`,
}, {
test("crypto/sha512", `len(sha512.Sum512_224("hash me"))`),
`28`,
}, {
test("crypto/sha512", `len(sha512.Sum512_256("hash me"))`),
`32`,
}, {
test("encoding/base64", `base64.Encode(null, "foo")`),
`"Zm9v"`,
}, {
test("encoding/base64", `base64.Decode(null, base64.Encode(null, "foo"))`),
`'foo'`,
}, {
test("encoding/base64", `base64.Decode(null, "foo")`),
`_|_(error in call to encoding/base64.Decode: illegal base64 data at input byte 0)`,
}, {
test("encoding/base64", `base64.Decode({}, "foo")`),
`_|_(error in call to encoding/base64.Decode: base64: unsupported encoding: cannot use value {} (type struct) as null)`,
}, {
test("encoding/hex", `hex.Encode("foo")`),
`"666f6f"`,
}, {
test("encoding/hex", `hex.Decode(hex.Encode("foo"))`),
`'foo'`,
}, {
test("encoding/hex", `hex.Decode("foo")`),
`_|_(error in call to encoding/hex.Decode: encoding/hex: invalid byte: U+006F 'o')`,
}, {
test("encoding/hex", `hex.Dump('foo')`),
`"00000000 66 6f 6f |foo|\n"`,
}, {
test("encoding/json", `json.Validate("{\"a\":10}", {b:string})`),
`true`,
}, {
test("encoding/json", `json.Validate("{\"a\":10}", {a:<3})`),
`_|_(error in call to encoding/json.Validate: invalid value 10 (out of bound <3))`,
}, {
test("encoding/yaml", `yaml.Validate("a: 2\n---\na: 4", {a:<3})`),
`_|_(error in call to encoding/yaml.Validate: invalid value 4 (out of bound <3))`,
}, {
test("encoding/yaml", `yaml.Validate("a: 2\n---\na: 4", {a:<5})`),
`true`,
}, {
test("strconv", `strconv.FormatUint(64, 16)`),
`"40"`,
}, {
// Find a better alternative, as this call should go.
test("strconv", `strconv.FormatFloat(3.02, 300, 4, 64)`),
`_|_(int 300 overflows byte in argument 1 in call to strconv.FormatFloat)`,
}, {
// Find a better alternative, as this call should go.
test("strconv", `strconv.FormatFloat(3.02, -1, 4, 64)`),
`_|_(cannot use -1 (type int) as byte in argument 1 to strconv.FormatFloat)`,
}, {
// Find a better alternative, as this call should go.
test("strconv", `strconv.FormatFloat(3.02, 1.0, 4, 64)`),
`_|_(cannot use 1.0 (type float) as int in argument 2 to strconv.FormatFloat)`,
}, {
test("list", `list.Avg([1, 2, 3, 4])`),
`2.5`,
}, {
test("list", `list.Avg([])`),
`_|_(error in call to list.Avg: empty list)`,
}, {
test("list", `list.Avg("foo")`),
`_|_(cannot use "foo" (type string) as list in argument 1 to list.Avg)`,
}, {
test("list", `list.Max([1, 2, 3, 4])`),
`4`,
}, {
test("list", `list.Max([])`),
`_|_(error in call to list.Max: empty list)`,
}, {
test("list", `list.Max("foo")`),
`_|_(cannot use "foo" (type string) as list in argument 1 to list.Max)`,
}, {
test("list", `list.Min([1, 2, 3, 4])`),
`1`,
}, {
test("list", `list.Min([])`),
`_|_(error in call to list.Min: empty list)`,
}, {
test("list", `list.Min("foo")`),
`_|_(cannot use "foo" (type string) as list in argument 1 to list.Min)`,
}, {
test("list", `list.Product([1, 2, 3, 4])`),
`24`,
}, {
test("list", `list.Product([])`),
`1`,
}, {
test("list", `list.Product("foo")`),
`_|_(cannot use "foo" (type string) as list in argument 1 to list.Product)`,
}, {
test("list", `list.Sum([1, 2, 3, 4])`),
`10`,
}, {
test("list", `list.Sum([])`),
`0`,
}, {
test("list", `list.Sum("foo")`),
`_|_(cannot use "foo" (type string) as list in argument 1 to list.Sum)`,
}, {
// Panics
test("math", `math.Jacobi(1000, 2000)`),
`_|_(error in call to math.Jacobi: big: invalid 2nd argument to Int.Jacobi: need odd integer but got 2000)`,
}, {
test("math", `math.Jacobi(1000, 201)`),
`1`,
}, {
test("math", `math.Asin(2.0e400)`),
`_|_(cannot use 2.0e+400 (type float) as float64 in argument 0 to math.Asin: value was rounded up)`,
}, {
test("math", `math.MultipleOf(4, 2)`), `true`,
}, {
test("math", `math.MultipleOf(5, 2)`), `false`,
}, {
test("math", `math.MultipleOf(5, 0)`),
`_|_(error in call to math.MultipleOf: division by zero)`,
}, {
test("math", `math.MultipleOf(100, 1.00001)`), `false`,
}, {
test("math", `math.MultipleOf(1, 1)`), `true`,
}, {
test("math", `math.MultipleOf(5, 2.5)`), `true`,
}, {
test("math", `math.MultipleOf(100e100, 10)`), `true`,
}, {
test("encoding/csv", `csv.Decode("1,2,3\n4,5,6")`),
`[["1","2","3"],["4","5","6"]]`,
}, {
test("strconv", `strconv.FormatBool(true)`),
`"true"`,
}, {
test("strings", `strings.Join(["Hello", "World!"], " ")`),
`"Hello World!"`,
}, {
test("strings", `strings.Join([1, 2], " ")`),
`_|_(invalid list element 0 in argument 0 to strings.Join: cannot use value 1 (type int) as string)`,
}, {
test("strings", `strings.ByteAt("a", 0)`),
strconv.Itoa('a'),
}, {
test("strings", `strings.ByteSlice("Hello", 2, 5)`),
`'llo'`,
}, {
test("strings", `strings.Runes("Café")`),
strings.Replace(fmt.Sprint([]rune{'C', 'a', 'f', 'é'}), " ", ",", -1),
}, {
test("math/bits", `bits.Or(0x8, 0x1)`),
`9`,
}, {
testExpr(`len({})`),
`0`,
}, {
testExpr(`len({a: 1, b: 2, <foo>: int, _c: 3})`),
`2`,
}, {
testExpr(`len([1, 2, 3])`),
`3`,
}, {
testExpr(`len("foo")`),
`3`,
}, {
testExpr(`len('f\x20\x20')`),
`3`,
}, {
testExpr(`and([string, "foo"])`),
`"foo"`,
}, {
testExpr(`and([string, =~"fo"]) & "foo"`),
`"foo"`,
}, {
testExpr(`and([])`),
`_`,
}, {
testExpr(`or([1, 2, 3]) & 2`),
`2`,
}, {
testExpr(`or([])`),
`_|_(empty list in call to or)`,
}, {
test("encoding/csv", `csv.Encode([[1,2,3],[4,5],[7,8,9]])`),
`"1,2,3\n4,5\n7,8,9\n"`,
}, {
test("encoding/csv", `csv.Encode([["a", "b"], ["c"]])`),
`"a,b\nc\n"`,
}, {
test("encoding/json", `json.Valid("1")`),
`true`,
}, {
test("encoding/json", `json.Compact("[1, 2]")`),
`"[1,2]"`,
}, {
test("encoding/json", `json.Indent(#"{"a": 1, "b": 2}"#, "", " ")`),
`"{\n \"a\": 1,\n \"b\": 2\n}"`,
}, {
test("encoding/json", `json.Unmarshal("1")`),
`1`,
}, {
test("encoding/json", `json.MarshalStream([{a: 1}, {b: 2}])`),
`"{\"a\":1}\n{\"b\":2}\n"`,
}, {
test("encoding/yaml", `yaml.MarshalStream([{a: 1}, {b: 2}])`),
`"a: 1\n---\nb: 2\n"`,
}, {
test("net", `net.FQDN & "foo.bar."`),
`"foo.bar."`,
}, {
test("net", `net.FQDN("foo.bararararararararararararararararararararararararararararararararara")`),
`false`,
}, {
test("net", `net.SplitHostPort("[::%lo0]:80")`),
`["::%lo0","80"]`,
}, {
test("net", `net.JoinHostPort("example.com", "80")`),
`"example.com:80"`,
}, {
test("net", `net.JoinHostPort("2001:db8::1", 80)`),
`"[2001:db8::1]:80"`,
}, {
test("net", `net.JoinHostPort([192,30,4,2], 80)`),
`"192.30.4.2:80"`,
}, {
test("net", `net.JoinHostPort([192,30,4], 80)`),
`_|_(error in call to net.JoinHostPort: invalid host [192,30,4])`,
}, {
test("net", `net.IP("23.23.23.23")`),
`true`,
}, {
test("net", `net.IPv4 & "23.23.23.2333"`),
`_|_(invalid value "23.23.23.2333" (does not satisfy net.IPv4()))`,
}, {
test("net", `net.IP("23.23.23.23")`),
`true`,
}, {
test("net", `net.IP("2001:db8::1")`),
`true`,
}, {
test("net", `net.IPv4("2001:db8::1")`),
`false`,
}, {
test("net", `net.IPv4() & "ff02::1:3"`),
`_|_(invalid value "ff02::1:3" (does not satisfy net.IPv4()))`,
}, {
test("net", `net.LoopbackIP([127, 0, 0, 1])`),
`true`,
}, {
test("net", `net.LoopbackIP("127.0.0.1")`),
`true`,
}, {
test("net", `net.ToIP4("127.0.0.1")`),
`[127,0,0,1]`,
}, {
test("net", `net.ToIP16("127.0.0.1")`),
`[0,0,0,0,0,0,0,0,0,0,255,255,127,0,0,1]`,
}, {
test("strings", `strings.ToCamel("AlphaBeta")`),
`"alphaBeta"`,
}, {
test("strings", `strings.ToTitle("alpha")`),
`"Alpha"`,
}, {
test("strings", `strings.MaxRunes(3) & "foo"`),
`"foo"`,
}, {
test("strings", `strings.MaxRunes(3) & "quux"`),
`_|_(invalid value "quux" (does not satisfy strings.MaxRunes(3)))`,
}, {
test("strings", `strings.MinRunes(1) & "e"`),
`"e"`,
}, {
test("strings", `strings.MaxRunes(0) & "e"`),
`_|_(invalid value "e" (does not satisfy strings.MaxRunes(0)))`,
}, {
test("strings", `strings.MaxRunes(0) & ""`),
`""`,
}, {
test("strings", `strings.MinRunes(3) & "hello"`),
`"hello"`,
}, {
test("strings", `strings.MaxRunes(10) & "hello"`),
`"hello"`,
}, {
test("strings", `strings.MaxRunes(3) & "hello"`),
`_|_(invalid value "hello" (does not satisfy strings.MaxRunes(3)))`,
}, {
test("strings", `strings.MinRunes(10) & "hello"`),
`_|_(invalid value "hello" (does not satisfy strings.MinRunes(10)))`,
}, {
test("struct", `struct.MinFields(0) & ""`),
`_|_(conflicting values MinFields (0) and "" (mismatched types struct and string))`,
}, {
test("struct", `struct.MinFields(0) & {a: 1}`),
`{a: 1}`,
}, {
test("struct", `struct.MinFields(2) & {a: 1}`),
`_|_(invalid value {a: 1} (does not satisfy struct.MinFields(2)))`,
}, {
test("struct", `struct.MaxFields(0) & {a: 1}`),
`_|_(invalid value {a: 1} (does not satisfy struct.MaxFields(0)))`,
}, {
test("struct", `struct.MaxFields(2) & {a: 1}`),
`{a: 1}`,
}, {
test("math/bits", `bits.And(0x10000000000000F0E, 0xF0F7)`), `6`,
}, {
test("math/bits", `bits.Or(0x100000000000000F0, 0x0F)`),
hexToDec("100000000000000FF"),
}, {
test("math/bits", `bits.Xor(0x10000000000000F0F, 0xFF0)`),
hexToDec("100000000000000FF"),
}, {
test("math/bits", `bits.Xor(0xFF0, 0x10000000000000F0F)`),
hexToDec("100000000000000FF"),
}, {
test("math/bits", `bits.Clear(0xF, 0x100000000000008)`), `7`,
}, {
test("math/bits", `bits.Clear(0x1000000000000000008, 0xF)`),
hexToDec("1000000000000000000"),
}, {
test("text/tabwriter", `tabwriter.Write("""
a\tb\tc
aaa\tbb\tvv
""")`),
`"a b c\naaa bb vv"`,
}, {
test("text/tabwriter", `tabwriter.Write([
"a\tb\tc",
"aaa\tbb\tvv"])`),
`"a b c\naaa bb vv\n"`,
}, {
test("text/template", `template.Execute("{{.}}-{{.}}", "foo")`),
`"foo-foo"`,
}, {
test("time", `time.Time & "1937-01-01T12:00:27.87+00:20"`),
`"1937-01-01T12:00:27.87+00:20"`,
}, {
test("time", `time.Time & "no time"`),
`_|_(error in call to time.Time: invalid time "no time")`,
}, {
test("time", `time.Unix(1500000000, 123456)`),
`"2017-07-14T02:40:00.000123456Z"`,
}}
for _, tc := range testCases {
t.Run("", func(t *testing.T) {
insts := Build(makeInstances(tc.instances))
if err := insts[0].Err; err != nil {
t.Fatal(err)
}
got := strings.TrimSpace(fmt.Sprintf("%s\n", insts[0].Value()))
if got != tc.emit {
t.Errorf("\n got: %s\nwant: %s", got, tc.emit)
}
})
}
}