// Copyright 2010 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package json import ( "bytes" "math" "math/rand" "reflect" "testing" ) var validTests = []struct { data string ok bool }{ {`foo`, false}, {`}{`, false}, {`{]`, false}, {`{}`, true}, {`{"foo":"bar"}`, true}, {`{"foo":"bar","bar":{"baz":["qux"]}}`, true}, } func TestValid(t *testing.T) { for _, tt := range validTests { if ok := Valid([]byte(tt.data)); ok != tt.ok { t.Errorf("Valid(%#q) = %v, want %v", tt.data, ok, tt.ok) } } } // Tests of simple examples. type example struct { compact string indent string } var examples = []example{ {`1`, `1`}, {`{}`, `{}`}, {`[]`, `[]`}, {`{"":2}`, "{\n\t\"\": 2\n}"}, {`[3]`, "[\n\t3\n]"}, {`[1,2,3]`, "[\n\t1,\n\t2,\n\t3\n]"}, {`{"x":1}`, "{\n\t\"x\": 1\n}"}, {ex1, ex1i}, {"{\"\":\"<>&\u2028\u2029\"}", "{\n\t\"\": \"<>&\u2028\u2029\"\n}"}, // See golang.org/issue/34070 } var ex1 = `[true,false,null,"x",1,1.5,0,-5e+2]` var ex1i = `[ true, false, null, "x", 1, 1.5, 0, -5e+2 ]` func TestCompact(t *testing.T) { var buf bytes.Buffer for _, tt := range examples { buf.Reset() if err := Compact(&buf, []byte(tt.compact)); err != nil { t.Errorf("Compact(%#q): %v", tt.compact, err) } else if s := buf.String(); s != tt.compact { t.Errorf("Compact(%#q) = %#q, want original", tt.compact, s) } buf.Reset() if err := Compact(&buf, []byte(tt.indent)); err != nil { t.Errorf("Compact(%#q): %v", tt.indent, err) continue } else if s := buf.String(); s != tt.compact { t.Errorf("Compact(%#q) = %#q, want %#q", tt.indent, s, tt.compact) } } } func TestCompactSeparators(t *testing.T) { // U+2028 and U+2029 should be escaped inside strings. // They should not appear outside strings. tests := []struct { in, compact string }{ {"{\"\u2028\": 1}", "{\"\u2028\":1}"}, {"{\"\u2029\" :2}", "{\"\u2029\":2}"}, } for _, tt := range tests { var buf bytes.Buffer if err := Compact(&buf, []byte(tt.in)); err != nil { t.Errorf("Compact(%q): %v", tt.in, err) } else if s := buf.String(); s != tt.compact { t.Errorf("Compact(%q) = %q, want %q", tt.in, s, tt.compact) } } } func TestIndent(t *testing.T) { var buf bytes.Buffer for _, tt := range examples { buf.Reset() if err := Indent(&buf, []byte(tt.indent), "", "\t"); err != nil { t.Errorf("Indent(%#q): %v", tt.indent, err) } else if s := buf.String(); s != tt.indent { t.Errorf("Indent(%#q) = %#q, want original", tt.indent, s) } buf.Reset() if err := Indent(&buf, []byte(tt.compact), "", "\t"); err != nil { t.Errorf("Indent(%#q): %v", tt.compact, err) continue } else if s := buf.String(); s != tt.indent { t.Errorf("Indent(%#q) = %#q, want %#q", tt.compact, s, tt.indent) } } } // Tests of a large random structure. func TestCompactBig(t *testing.T) { initBig() var buf bytes.Buffer if err := Compact(&buf, jsonBig); err != nil { t.Fatalf("Compact: %v", err) } b := buf.Bytes() if !bytes.Equal(b, jsonBig) { t.Error("Compact(jsonBig) != jsonBig") diff(t, b, jsonBig) return } } func TestIndentBig(t *testing.T) { t.Parallel() initBig() var buf bytes.Buffer if err := Indent(&buf, jsonBig, "", "\t"); err != nil { t.Fatalf("Indent1: %v", err) } b := buf.Bytes() if len(b) == len(jsonBig) { // jsonBig is compact (no unnecessary spaces); // indenting should make it bigger t.Fatalf("Indent(jsonBig) did not get bigger") } // should be idempotent var buf1 bytes.Buffer if err := Indent(&buf1, b, "", "\t"); err != nil { t.Fatalf("Indent2: %v", err) } b1 := buf1.Bytes() if !bytes.Equal(b1, b) { t.Error("Indent(Indent(jsonBig)) != Indent(jsonBig)") diff(t, b1, b) return } // should get back to original buf1.Reset() if err := Compact(&buf1, b); err != nil { t.Fatalf("Compact: %v", err) } b1 = buf1.Bytes() if !bytes.Equal(b1, jsonBig) { t.Error("Compact(Indent(jsonBig)) != jsonBig") diff(t, b1, jsonBig) return } } type indentErrorTest struct { in string err error } var indentErrorTests = []indentErrorTest{ {`{"X": "foo", "Y"}`, &SyntaxError{"invalid character '}' after object key", 17}}, {`{"X": "foo" "Y": "bar"}`, &SyntaxError{"invalid character '\"' after object key:value pair", 13}}, } func TestIndentErrors(t *testing.T) { for i, tt := range indentErrorTests { slice := make([]uint8, 0) buf := bytes.NewBuffer(slice) if err := Indent(buf, []uint8(tt.in), "", ""); err != nil { if !reflect.DeepEqual(err, tt.err) { t.Errorf("#%d: Indent: %#v", i, err) continue } } } } func diff(t *testing.T, a, b []byte) { for i := 0; ; i++ { if i >= len(a) || i >= len(b) || a[i] != b[i] { j := i - 10 if j < 0 { j = 0 } t.Errorf("diverge at %d: «%s» vs «%s»", i, trim(a[j:]), trim(b[j:])) return } } } func trim(b []byte) []byte { if len(b) > 20 { return b[0:20] } return b } // Generate a random JSON object. var jsonBig []byte func initBig() { n := 10000 if testing.Short() { n = 100 } b, err := Marshal(genValue(n)) if err != nil { panic(err) } jsonBig = b } func genValue(n int) interface{} { if n > 1 { switch rand.Intn(2) { case 0: return genArray(n) case 1: return genMap(n) } } switch rand.Intn(3) { case 0: return rand.Intn(2) == 0 case 1: return rand.NormFloat64() case 2: return genString(30) } panic("unreachable") } func genString(stddev float64) string { n := int(math.Abs(rand.NormFloat64()*stddev + stddev/2)) c := make([]rune, n) for i := range c { f := math.Abs(rand.NormFloat64()*64 + 32) if f > 0x10ffff { f = 0x10ffff } c[i] = rune(f) } return string(c) } func genArray(n int) []interface{} { f := int(math.Abs(rand.NormFloat64()) * math.Min(10, float64(n/2))) if f > n { f = n } if f < 1 { f = 1 } x := make([]interface{}, f) for i := range x { x[i] = genValue(((i+1)*n)/f - (i*n)/f) } return x } func genMap(n int) map[string]interface{} { f := int(math.Abs(rand.NormFloat64()) * math.Min(10, float64(n/2))) if f > n { f = n } if n > 0 && f == 0 { f = 1 } x := make(map[string]interface{}) for i := 0; i < f; i++ { x[genString(10)] = genValue(((i+1)*n)/f - (i*n)/f) } return x }