package gjson import ( "bytes" "encoding/hex" "encoding/json" "fmt" "math/rand" "reflect" "strconv" "strings" "testing" "time" ) // TestRandomData is a fuzzing test that throws random data at the Parse // function looking for panics. func TestRandomData(t *testing.T) { var lstr string defer func() { if v := recover(); v != nil { println("'" + hex.EncodeToString([]byte(lstr)) + "'") println("'" + lstr + "'") panic(v) } }() rand.Seed(time.Now().UnixNano()) b := make([]byte, 200) for i := 0; i < 2000000; i++ { n, err := rand.Read(b[:rand.Int()%len(b)]) if err != nil { t.Fatal(err) } lstr = string(b[:n]) GetBytes([]byte(lstr), "zzzz") Parse(lstr) } } func TestRandomValidStrings(t *testing.T) { rand.Seed(time.Now().UnixNano()) b := make([]byte, 200) for i := 0; i < 100000; i++ { n, err := rand.Read(b[:rand.Int()%len(b)]) if err != nil { t.Fatal(err) } sm, err := json.Marshal(string(b[:n])) if err != nil { t.Fatal(err) } var su string if err := json.Unmarshal([]byte(sm), &su); err != nil { t.Fatal(err) } token := Get(`{"str":`+string(sm)+`}`, "str") if token.Type != String || token.Str != su { println("["+token.Raw+"]", "["+token.Str+"]", "["+su+"]", "["+string(sm)+"]") t.Fatal("string mismatch") } } } func TestEmoji(t *testing.T) { const input = `{"utf8":"Example emoji, KO: \ud83d\udd13, \ud83c\udfc3 OK: \u2764\ufe0f "}` value := Get(input, "utf8") var s string json.Unmarshal([]byte(value.Raw), &s) if value.String() != s { t.Fatalf("expected '%v', got '%v'", s, value.String()) } } func testEscapePath(t *testing.T, json, path, expect string) { if Get(json, path).String() != expect { t.Fatalf("expected '%v', got '%v'", expect, Get(json, path).String()) } } func TestEscapePath(t *testing.T) { json := `{ "test":{ "*":"valZ", "*v":"val0", "keyv*":"val1", "key*v":"val2", "keyv?":"val3", "key?v":"val4", "keyv.":"val5", "key.v":"val6", "keyk*":{"key?":"val7"} } }` testEscapePath(t, json, "test.\\*", "valZ") testEscapePath(t, json, "test.\\*v", "val0") testEscapePath(t, json, "test.keyv\\*", "val1") testEscapePath(t, json, "test.key\\*v", "val2") testEscapePath(t, json, "test.keyv\\?", "val3") testEscapePath(t, json, "test.key\\?v", "val4") testEscapePath(t, json, "test.keyv\\.", "val5") testEscapePath(t, json, "test.key\\.v", "val6") testEscapePath(t, json, "test.keyk\\*.key\\?", "val7") } // this json block is poorly formed on purpose. var basicJSON = `{"age":100, "name":{"here":"B\\\"R"}, "noop":{"what is a wren?":"a bird"}, "happy":true,"immortal":false, "items":[1,2,3,{"tags":[1,2,3],"points":[[1,2],[3,4]]},4,5,6,7], "arr":["1",2,"3",{"hello":"world"},"4",5], "vals":[1,2,3,{"sadf":sdf"asdf"}],"name":{"first":"tom","last":null}, "created":"2014-05-16T08:28:06.989Z", "loggy":{ "programmers": [ { "firstName": "Brett", "lastName": "McLaughlin", "email": "aaaa", "tag": "good" }, { "firstName": "Jason", "lastName": "Hunter", "email": "bbbb", "tag": "bad" }, { "firstName": "Elliotte", "lastName": "Harold", "email": "cccc", "tag":, "good" }, { "firstName": 1002.3, "age": 101 } ] }, "lastly":{"yay":"final"} }` var basicJSONB = []byte(basicJSON) func TestTimeResult(t *testing.T) { assert(t, Get(basicJSON, "created").String() == Get(basicJSON, "created").Time().Format(time.RFC3339Nano)) } func TestParseAny(t *testing.T) { assert(t, Parse("100").Float() == 100) assert(t, Parse("true").Bool()) assert(t, Parse("valse").Bool() == false) } func TestManyVariousPathCounts(t *testing.T) { json := `{"a":"a","b":"b","c":"c"}` counts := []int{3, 4, 7, 8, 9, 15, 16, 17, 31, 32, 33, 63, 64, 65, 127, 128, 129, 255, 256, 257, 511, 512, 513} paths := []string{"a", "b", "c"} expects := []string{"a", "b", "c"} for _, count := range counts { var gpaths []string var gexpects []string for i := 0; i < count; i++ { if i < len(paths) { gpaths = append(gpaths, paths[i]) gexpects = append(gexpects, expects[i]) } else { gpaths = append(gpaths, fmt.Sprintf("not%d", i)) gexpects = append(gexpects, "null") } } results := GetMany(json, gpaths...) for i := 0; i < len(paths); i++ { if results[i].String() != expects[i] { t.Fatalf("expected '%v', got '%v'", expects[i], results[i].String()) } } } } func TestManyRecursion(t *testing.T) { var json string var path string for i := 0; i < 100; i++ { json += `{"a":` path += ".a" } json += `"b"` for i := 0; i < 100; i++ { json += `}` } path = path[1:] assert(t, GetMany(json, path)[0].String() == "b") } func TestByteSafety(t *testing.T) { jsonb := []byte(`{"name":"Janet","age":38}`) mtok := GetBytes(jsonb, "name") if mtok.String() != "Janet" { t.Fatalf("expected %v, got %v", "Jason", mtok.String()) } mtok2 := GetBytes(jsonb, "age") if mtok2.Raw != "38" { t.Fatalf("expected %v, got %v", "Jason", mtok2.Raw) } jsonb[9] = 'T' jsonb[12] = 'd' jsonb[13] = 'y' if mtok.String() != "Janet" { t.Fatalf("expected %v, got %v", "Jason", mtok.String()) } } func get(json, path string) Result { return GetBytes([]byte(json), path) } func TestBasic(t *testing.T) { var mtok Result mtok = get(basicJSON, `loggy.programmers.#[tag="good"].firstName`) if mtok.String() != "Brett" { t.Fatalf("expected %v, got %v", "Brett", mtok.String()) } mtok = get(basicJSON, `loggy.programmers.#[tag="good"]#.firstName`) if mtok.String() != `["Brett","Elliotte"]` { t.Fatalf("expected %v, got %v", `["Brett","Elliotte"]`, mtok.String()) } } func TestIsArrayIsObject(t *testing.T) { mtok := get(basicJSON, "loggy") assert(t, mtok.IsObject()) assert(t, !mtok.IsArray()) mtok = get(basicJSON, "loggy.programmers") assert(t, !mtok.IsObject()) assert(t, mtok.IsArray()) mtok = get(basicJSON, `loggy.programmers.#[tag="good"]#.firstName`) assert(t, mtok.IsArray()) mtok = get(basicJSON, `loggy.programmers.0.firstName`) assert(t, !mtok.IsObject()) assert(t, !mtok.IsArray()) } func TestPlus53BitInts(t *testing.T) { json := `{"IdentityData":{"GameInstanceId":634866135153775564}}` value := Get(json, "IdentityData.GameInstanceId") assert(t, value.Uint() == 634866135153775564) assert(t, value.Int() == 634866135153775564) assert(t, value.Float() == 634866135153775616) json = `{"IdentityData":{"GameInstanceId":634866135153775564.88172}}` value = Get(json, "IdentityData.GameInstanceId") assert(t, value.Uint() == 634866135153775616) assert(t, value.Int() == 634866135153775616) assert(t, value.Float() == 634866135153775616.88172) json = `{ "min_uint64": 0, "max_uint64": 18446744073709551615, "overflow_uint64": 18446744073709551616, "min_int64": -9223372036854775808, "max_int64": 9223372036854775807, "overflow_int64": 9223372036854775808, "min_uint53": 0, "max_uint53": 4503599627370495, "overflow_uint53": 4503599627370496, "min_int53": -2251799813685248, "max_int53": 2251799813685247, "overflow_int53": 2251799813685248 }` assert(t, Get(json, "min_uint53").Uint() == 0) assert(t, Get(json, "max_uint53").Uint() == 4503599627370495) assert(t, Get(json, "overflow_uint53").Int() == 4503599627370496) assert(t, Get(json, "min_int53").Int() == -2251799813685248) assert(t, Get(json, "max_int53").Int() == 2251799813685247) assert(t, Get(json, "overflow_int53").Int() == 2251799813685248) assert(t, Get(json, "min_uint64").Uint() == 0) assert(t, Get(json, "max_uint64").Uint() == 18446744073709551615) // this next value overflows the max uint64 by one which will just // flip the number to zero assert(t, Get(json, "overflow_uint64").Int() == 0) assert(t, Get(json, "min_int64").Int() == -9223372036854775808) assert(t, Get(json, "max_int64").Int() == 9223372036854775807) // this next value overflows the max int64 by one which will just // flip the number to the negative sign. assert(t, Get(json, "overflow_int64").Int() == -9223372036854775808) } func TestIssue38(t *testing.T) { // These should not fail, even though the unicode is invalid. Get(`["S3O PEDRO DO BUTI\udf93"]`, "0") Get(`["S3O PEDRO DO BUTI\udf93asdf"]`, "0") Get(`["S3O PEDRO DO BUTI\udf93\u"]`, "0") Get(`["S3O PEDRO DO BUTI\udf93\u1"]`, "0") Get(`["S3O PEDRO DO BUTI\udf93\u13"]`, "0") Get(`["S3O PEDRO DO BUTI\udf93\u134"]`, "0") Get(`["S3O PEDRO DO BUTI\udf93\u1345"]`, "0") Get(`["S3O PEDRO DO BUTI\udf93\u1345asd"]`, "0") } func TestTypes(t *testing.T) { assert(t, (Result{Type: String}).Type.String() == "String") assert(t, (Result{Type: Number}).Type.String() == "Number") assert(t, (Result{Type: Null}).Type.String() == "Null") assert(t, (Result{Type: False}).Type.String() == "False") assert(t, (Result{Type: True}).Type.String() == "True") assert(t, (Result{Type: JSON}).Type.String() == "JSON") assert(t, (Result{Type: 100}).Type.String() == "") // bool assert(t, (Result{Type: String, Str: "true"}).Bool()) assert(t, (Result{Type: True}).Bool()) assert(t, (Result{Type: False}).Bool() == false) assert(t, (Result{Type: Number, Num: 1}).Bool()) // int assert(t, (Result{Type: String, Str: "1"}).Int() == 1) assert(t, (Result{Type: True}).Int() == 1) assert(t, (Result{Type: False}).Int() == 0) assert(t, (Result{Type: Number, Num: 1}).Int() == 1) // uint assert(t, (Result{Type: String, Str: "1"}).Uint() == 1) assert(t, (Result{Type: True}).Uint() == 1) assert(t, (Result{Type: False}).Uint() == 0) assert(t, (Result{Type: Number, Num: 1}).Uint() == 1) // float assert(t, (Result{Type: String, Str: "1"}).Float() == 1) assert(t, (Result{Type: True}).Float() == 1) assert(t, (Result{Type: False}).Float() == 0) assert(t, (Result{Type: Number, Num: 1}).Float() == 1) } func TestForEach(t *testing.T) { Result{}.ForEach(nil) Result{Type: String, Str: "Hello"}.ForEach(func(_, value Result) bool { assert(t, value.String() == "Hello") return false }) Result{Type: JSON, Raw: "*invalid*"}.ForEach(nil) json := ` {"name": {"first": "Janet","last": "Prichard"}, "asd\nf":"\ud83d\udd13","age": 47}` var count int ParseBytes([]byte(json)).ForEach(func(key, value Result) bool { count++ return true }) assert(t, count == 3) ParseBytes([]byte(`{"bad`)).ForEach(nil) ParseBytes([]byte(`{"ok":"bad`)).ForEach(nil) } func TestMap(t *testing.T) { assert(t, len(ParseBytes([]byte(`"asdf"`)).Map()) == 0) assert(t, ParseBytes([]byte(`{"asdf":"ghjk"`)).Map()["asdf"].String() == "ghjk") assert(t, len(Result{Type: JSON, Raw: "**invalid**"}.Map()) == 0) assert(t, Result{Type: JSON, Raw: "**invalid**"}.Value() == nil) assert(t, Result{Type: JSON, Raw: "{"}.Map() != nil) } func TestBasic1(t *testing.T) { mtok := get(basicJSON, `loggy.programmers`) var count int mtok.ForEach(func(key, value Result) bool { if key.Exists() { t.Fatalf("expected %v, got %v", false, key.Exists()) } count++ if count == 3 { return false } if count == 1 { i := 0 value.ForEach(func(key, value Result) bool { switch i { case 0: if key.String() != "firstName" || value.String() != "Brett" { t.Fatalf("expected %v/%v got %v/%v", "firstName", "Brett", key.String(), value.String()) } case 1: if key.String() != "lastName" || value.String() != "McLaughlin" { t.Fatalf("expected %v/%v got %v/%v", "lastName", "McLaughlin", key.String(), value.String()) } case 2: if key.String() != "email" || value.String() != "aaaa" { t.Fatalf("expected %v/%v got %v/%v", "email", "aaaa", key.String(), value.String()) } } i++ return true }) } return true }) if count != 3 { t.Fatalf("expected %v, got %v", 3, count) } } func TestBasic2(t *testing.T) { mtok := get(basicJSON, `loggy.programmers.#[age=101].firstName`) if mtok.String() != "1002.3" { t.Fatalf("expected %v, got %v", "1002.3", mtok.String()) } mtok = get(basicJSON, `loggy.programmers.#[firstName != "Brett"].firstName`) if mtok.String() != "Jason" { t.Fatalf("expected %v, got %v", "Jason", mtok.String()) } mtok = get(basicJSON, `loggy.programmers.#[firstName % "Bre*"].email`) if mtok.String() != "aaaa" { t.Fatalf("expected %v, got %v", "aaaa", mtok.String()) } mtok = get(basicJSON, `loggy.programmers.#[firstName == "Brett"].email`) if mtok.String() != "aaaa" { t.Fatalf("expected %v, got %v", "aaaa", mtok.String()) } mtok = get(basicJSON, "loggy") if mtok.Type != JSON { t.Fatalf("expected %v, got %v", JSON, mtok.Type) } if len(mtok.Map()) != 1 { t.Fatalf("expected %v, got %v", 1, len(mtok.Map())) } programmers := mtok.Map()["programmers"] if programmers.Array()[1].Map()["firstName"].Str != "Jason" { t.Fatalf("expected %v, got %v", "Jason", mtok.Map()["programmers"].Array()[1].Map()["firstName"].Str) } } func TestBasic3(t *testing.T) { var mtok Result if Parse(basicJSON).Get("loggy.programmers").Get("1").Get("firstName").Str != "Jason" { t.Fatalf("expected %v, got %v", "Jason", Parse(basicJSON).Get("loggy.programmers").Get("1").Get("firstName").Str) } var token Result if token = Parse("-102"); token.Num != -102 { t.Fatalf("expected %v, got %v", -102, token.Num) } if token = Parse("102"); token.Num != 102 { t.Fatalf("expected %v, got %v", 102, token.Num) } if token = Parse("102.2"); token.Num != 102.2 { t.Fatalf("expected %v, got %v", 102.2, token.Num) } if token = Parse(`"hello"`); token.Str != "hello" { t.Fatalf("expected %v, got %v", "hello", token.Str) } if token = Parse(`"\"he\nllo\""`); token.Str != "\"he\nllo\"" { t.Fatalf("expected %v, got %v", "\"he\nllo\"", token.Str) } mtok = get(basicJSON, "loggy.programmers.#.firstName") if len(mtok.Array()) != 4 { t.Fatalf("expected 4, got %v", len(mtok.Array())) } for i, ex := range []string{"Brett", "Jason", "Elliotte", "1002.3"} { if mtok.Array()[i].String() != ex { t.Fatalf("expected '%v', got '%v'", ex, mtok.Array()[i].String()) } } mtok = get(basicJSON, "loggy.programmers.#.asd") if mtok.Type != JSON { t.Fatalf("expected %v, got %v", JSON, mtok.Type) } if len(mtok.Array()) != 0 { t.Fatalf("expected 0, got %v", len(mtok.Array())) } } func TestBasic4(t *testing.T) { if get(basicJSON, "items.3.tags.#").Num != 3 { t.Fatalf("expected 3, got %v", get(basicJSON, "items.3.tags.#").Num) } if get(basicJSON, "items.3.points.1.#").Num != 2 { t.Fatalf("expected 2, got %v", get(basicJSON, "items.3.points.1.#").Num) } if get(basicJSON, "items.#").Num != 8 { t.Fatalf("expected 6, got %v", get(basicJSON, "items.#").Num) } if get(basicJSON, "vals.#").Num != 4 { t.Fatalf("expected 4, got %v", get(basicJSON, "vals.#").Num) } if !get(basicJSON, "name.last").Exists() { t.Fatal("expected true, got false") } token := get(basicJSON, "name.here") if token.String() != "B\\\"R" { t.Fatal("expecting 'B\\\"R'", "got", token.String()) } token = get(basicJSON, "arr.#") if token.String() != "6" { t.Fatal("expecting '6'", "got", token.String()) } token = get(basicJSON, "arr.3.hello") if token.String() != "world" { t.Fatal("expecting 'world'", "got", token.String()) } _ = token.Value().(string) token = get(basicJSON, "name.first") if token.String() != "tom" { t.Fatal("expecting 'tom'", "got", token.String()) } _ = token.Value().(string) token = get(basicJSON, "name.last") if token.String() != "" { t.Fatal("expecting ''", "got", token.String()) } if token.Value() != nil { t.Fatal("should be nil") } } func TestBasic5(t *testing.T) { token := get(basicJSON, "age") if token.String() != "100" { t.Fatal("expecting '100'", "got", token.String()) } _ = token.Value().(float64) token = get(basicJSON, "happy") if token.String() != "true" { t.Fatal("expecting 'true'", "got", token.String()) } _ = token.Value().(bool) token = get(basicJSON, "immortal") if token.String() != "false" { t.Fatal("expecting 'false'", "got", token.String()) } _ = token.Value().(bool) token = get(basicJSON, "noop") if token.String() != `{"what is a wren?":"a bird"}` { t.Fatal("expecting '"+`{"what is a wren?":"a bird"}`+"'", "got", token.String()) } _ = token.Value().(map[string]interface{}) if get(basicJSON, "").Value() != nil { t.Fatal("should be nil") } get(basicJSON, "vals.hello") mm := Parse(basicJSON).Value().(map[string]interface{}) fn := mm["loggy"].(map[string]interface{})["programmers"].([]interface{})[1].(map[string]interface{})["firstName"].(string) if fn != "Jason" { t.Fatalf("expecting %v, got %v", "Jason", fn) } } func TestUnicode(t *testing.T) { var json = `{"key":0,"的情况下解":{"key":1,"的情况":2}}` if Get(json, "的情况下解.key").Num != 1 { t.Fatal("fail") } if Get(json, "的情况下解.的情况").Num != 2 { t.Fatal("fail") } if Get(json, "的情况下解.的?况").Num != 2 { t.Fatal("fail") } if Get(json, "的情况下解.的?*").Num != 2 { t.Fatal("fail") } if Get(json, "的情况下解.*?况").Num != 2 { t.Fatal("fail") } if Get(json, "的情?下解.*?况").Num != 2 { t.Fatal("fail") } if Get(json, "的情下解.*?况").Num != 0 { t.Fatal("fail") } } func TestUnescape(t *testing.T) { unescape(string([]byte{'\\', '\\', 0})) unescape(string([]byte{'\\', '/', '\\', 'b', '\\', 'f'})) } func assert(t testing.TB, cond bool) { if !cond { panic("assert failed") } } func TestLess(t *testing.T) { assert(t, !Result{Type: Null}.Less(Result{Type: Null}, true)) assert(t, Result{Type: Null}.Less(Result{Type: False}, true)) assert(t, Result{Type: Null}.Less(Result{Type: True}, true)) assert(t, Result{Type: Null}.Less(Result{Type: JSON}, true)) assert(t, Result{Type: Null}.Less(Result{Type: Number}, true)) assert(t, Result{Type: Null}.Less(Result{Type: String}, true)) assert(t, !Result{Type: False}.Less(Result{Type: Null}, true)) assert(t, Result{Type: False}.Less(Result{Type: True}, true)) assert(t, Result{Type: String, Str: "abc"}.Less(Result{Type: String, Str: "bcd"}, true)) assert(t, Result{Type: String, Str: "ABC"}.Less(Result{Type: String, Str: "abc"}, true)) assert(t, !Result{Type: String, Str: "ABC"}.Less(Result{Type: String, Str: "abc"}, false)) assert(t, Result{Type: Number, Num: 123}.Less(Result{Type: Number, Num: 456}, true)) assert(t, !Result{Type: Number, Num: 456}.Less(Result{Type: Number, Num: 123}, true)) assert(t, !Result{Type: Number, Num: 456}.Less(Result{Type: Number, Num: 456}, true)) assert(t, stringLessInsensitive("abcde", "BBCDE")) assert(t, stringLessInsensitive("abcde", "bBCDE")) assert(t, stringLessInsensitive("Abcde", "BBCDE")) assert(t, stringLessInsensitive("Abcde", "bBCDE")) assert(t, !stringLessInsensitive("bbcde", "aBCDE")) assert(t, !stringLessInsensitive("bbcde", "ABCDE")) assert(t, !stringLessInsensitive("Bbcde", "aBCDE")) assert(t, !stringLessInsensitive("Bbcde", "ABCDE")) assert(t, !stringLessInsensitive("abcde", "ABCDE")) assert(t, !stringLessInsensitive("Abcde", "ABCDE")) assert(t, !stringLessInsensitive("abcde", "ABCDE")) assert(t, !stringLessInsensitive("ABCDE", "ABCDE")) assert(t, !stringLessInsensitive("abcde", "abcde")) assert(t, !stringLessInsensitive("123abcde", "123Abcde")) assert(t, !stringLessInsensitive("123Abcde", "123Abcde")) assert(t, !stringLessInsensitive("123Abcde", "123abcde")) assert(t, !stringLessInsensitive("123abcde", "123abcde")) assert(t, !stringLessInsensitive("124abcde", "123abcde")) assert(t, !stringLessInsensitive("124Abcde", "123Abcde")) assert(t, !stringLessInsensitive("124Abcde", "123abcde")) assert(t, !stringLessInsensitive("124abcde", "123abcde")) assert(t, stringLessInsensitive("124abcde", "125abcde")) assert(t, stringLessInsensitive("124Abcde", "125Abcde")) assert(t, stringLessInsensitive("124Abcde", "125abcde")) assert(t, stringLessInsensitive("124abcde", "125abcde")) } func TestIssue6(t *testing.T) { data := `{ "code": 0, "msg": "", "data": { "sz002024": { "qfqday": [ [ "2014-01-02", "8.93", "9.03", "9.17", "8.88", "621143.00" ], [ "2014-01-03", "9.03", "9.30", "9.47", "8.98", "1624438.00" ] ] } } }` var num []string for _, v := range Get(data, "data.sz002024.qfqday.0").Array() { num = append(num, v.String()) } if fmt.Sprintf("%v", num) != "[2014-01-02 8.93 9.03 9.17 8.88 621143.00]" { t.Fatalf("invalid result") } } var exampleJSON = `{ "widget": { "debug": "on", "window": { "title": "Sample Konfabulator Widget", "name": "main_window", "width": 500, "height": 500 }, "image": { "src": "Images/Sun.png", "hOffset": 250, "vOffset": 250, "alignment": "center" }, "text": { "data": "Click Here", "size": 36, "style": "bold", "vOffset": 100, "alignment": "center", "onMouseUp": "sun1.opacity = (sun1.opacity / 100) * 90;" } } }` func TestNewParse(t *testing.T) { //fmt.Printf("%v\n", parse2(exampleJSON, "widget").String()) } func TestUnmarshalMap(t *testing.T) { var m1 = Parse(exampleJSON).Value().(map[string]interface{}) var m2 map[string]interface{} if err := json.Unmarshal([]byte(exampleJSON), &m2); err != nil { t.Fatal(err) } b1, err := json.Marshal(m1) if err != nil { t.Fatal(err) } b2, err := json.Marshal(m2) if err != nil { t.Fatal(err) } if bytes.Compare(b1, b2) != 0 { t.Fatal("b1 != b2") } } func TestSingleArrayValue(t *testing.T) { var json = `{"key": "value","key2":[1,2,3,4,"A"]}` var result = Get(json, "key") var array = result.Array() if len(array) != 1 { t.Fatal("array is empty") } if array[0].String() != "value" { t.Fatalf("got %s, should be %s", array[0].String(), "value") } array = Get(json, "key2.#").Array() if len(array) != 1 { t.Fatalf("got '%v', expected '%v'", len(array), 1) } array = Get(json, "key3").Array() if len(array) != 0 { t.Fatalf("got '%v', expected '%v'", len(array), 0) } } var manyJSON = ` { "a":{"a":{"a":{"a":{"a":{"a":{"a":{"a":{"a":{"a":{ "a":{"a":{"a":{"a":{"a":{"a":{"a":{"a":{"a":{"a":{ "a":{"a":{"a":{"a":{"a":{"a":{"a":{"a":{"a":{"a":{ "a":{"a":{"a":{"a":{"a":{"a":{"a":{"a":{"a":{"a":{ "a":{"a":{"a":{"a":{"a":{"a":{"a":{"a":{"a":{"a":{ "a":{"a":{"a":{"a":{"a":{"a":{"a":{"a":{"a":{"a":{ "a":{"a":{"a":{"a":{"a":{"a":{"a":{"a":{"a":{"a":{"hello":"world" }}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}} "position":{"type":"Point","coordinates":[-115.24,33.09]}, "loves":["world peace"], "name":{"last":"Anderson","first":"Nancy"}, "age":31 "":{"a":"emptya","b":"emptyb"}, "name.last":"Yellow", "name.first":"Cat", }` func combine(results []Result) string { return fmt.Sprintf("%v", results) } func TestManyBasic(t *testing.T) { testWatchForFallback = true defer func() { testWatchForFallback = false }() testMany := func(shouldFallback bool, expect string, paths ...string) { results := GetManyBytes( []byte(manyJSON), paths..., ) if len(results) != len(paths) { t.Fatalf("expected %v, got %v", len(paths), len(results)) } if fmt.Sprintf("%v", results) != expect { fmt.Printf("%v\n", paths) t.Fatalf("expected %v, got %v", expect, results) } //if testLastWasFallback != shouldFallback { // t.Fatalf("expected %v, got %v", shouldFallback, testLastWasFallback) //} } testMany(false, "[Point]", "position.type") testMany(false, `[emptya ["world peace"] 31]`, ".a", "loves", "age") testMany(false, `[["world peace"]]`, "loves") testMany(false, `[{"last":"Anderson","first":"Nancy"} Nancy]`, "name", "name.first") testMany(true, `[]`, strings.Repeat("a.", 40)+"hello") res := Get(manyJSON, strings.Repeat("a.", 48)+"a") testMany(true, `[`+res.String()+`]`, strings.Repeat("a.", 48)+"a") // these should fallback testMany(true, `[Cat Nancy]`, "name\\.first", "name.first") testMany(true, `[world]`, strings.Repeat("a.", 70)+"hello") } func testMany(t *testing.T, json string, paths, expected []string) { testManyAny(t, json, paths, expected, true) testManyAny(t, json, paths, expected, false) } func testManyAny(t *testing.T, json string, paths, expected []string, bytes bool) { var result []Result for i := 0; i < 2; i++ { var which string if i == 0 { which = "Get" result = nil for j := 0; j < len(expected); j++ { if bytes { result = append(result, GetBytes([]byte(json), paths[j])) } else { result = append(result, Get(json, paths[j])) } } } else if i == 1 { which = "GetMany" if bytes { result = GetManyBytes([]byte(json), paths...) } else { result = GetMany(json, paths...) } } for j := 0; j < len(expected); j++ { if result[j].String() != expected[j] { t.Fatalf("Using key '%s' for '%s'\nexpected '%v', got '%v'", paths[j], which, expected[j], result[j].String()) } } } } func TestIssue20(t *testing.T) { json := `{ "name": "FirstName", "name1": "FirstName1", "address": "address1", "addressDetails": "address2", }` paths := []string{"name", "name1", "address", "addressDetails"} expected := []string{"FirstName", "FirstName1", "address1", "address2"} t.Run("SingleMany", func(t *testing.T) { testMany(t, json, paths, expected) }) } func TestIssue21(t *testing.T) { json := `{ "Level1Field1":3, "Level1Field4":4, "Level1Field2":{ "Level2Field1":[ "value1", "value2" ], "Level2Field2":{ "Level3Field1":[ { "key1":"value1" } ] } } }` paths := []string{"Level1Field1", "Level1Field2.Level2Field1", "Level1Field2.Level2Field2.Level3Field1", "Level1Field4"} expected := []string{"3", `[ "value1", "value2" ]`, `[ { "key1":"value1" } ]`, "4"} t.Run("SingleMany", func(t *testing.T) { testMany(t, json, paths, expected) }) } func TestRandomMany(t *testing.T) { var lstr string defer func() { if v := recover(); v != nil { println("'" + hex.EncodeToString([]byte(lstr)) + "'") println("'" + lstr + "'") panic(v) } }() rand.Seed(time.Now().UnixNano()) b := make([]byte, 512) for i := 0; i < 50000; i++ { n, err := rand.Read(b[:rand.Int()%len(b)]) if err != nil { t.Fatal(err) } lstr = string(b[:n]) paths := make([]string, rand.Int()%64) for i := range paths { var b []byte n := rand.Int() % 5 for j := 0; j < n; j++ { if j > 0 { b = append(b, '.') } nn := rand.Int() % 10 for k := 0; k < nn; k++ { b = append(b, 'a'+byte(rand.Int()%26)) } } paths[i] = string(b) } GetMany(lstr, paths...) } } type ComplicatedType struct { unsettable int Tagged string `json:"tagged"` NotTagged bool Nested struct { Yellow string `json:"yellow"` } NestedTagged struct { Green string Map map[string]interface{} Ints struct { Int int `json:"int"` Int8 int8 Int16 int16 Int32 int32 Int64 int64 `json:"int64"` } Uints struct { Uint uint Uint8 uint8 Uint16 uint16 Uint32 uint32 Uint64 uint64 } Floats struct { Float64 float64 Float32 float32 } Byte byte Bool bool } `json:"nestedTagged"` LeftOut string `json:"-"` SelfPtr *ComplicatedType SelfSlice []ComplicatedType SelfSlicePtr []*ComplicatedType SelfPtrSlice *[]ComplicatedType Interface interface{} `json:"interface"` Array [3]int Time time.Time `json:"time"` Binary []byte NonBinary []byte } var complicatedJSON = ` { "tagged": "OK", "Tagged": "KO", "NotTagged": true, "unsettable": 101, "Nested": { "Yellow": "Green", "yellow": "yellow" }, "nestedTagged": { "Green": "Green", "Map": { "this": "that", "and": "the other thing" }, "Ints": { "Uint": 99, "Uint16": 16, "Uint32": 32, "Uint64": 65 }, "Uints": { "int": -99, "Int": -98, "Int16": -16, "Int32": -32, "int64": -64, "Int64": -65 }, "Uints": { "Float32": 32.32, "Float64": 64.64 }, "Byte": 254, "Bool": true }, "LeftOut": "you shouldn't be here", "SelfPtr": {"tagged":"OK","nestedTagged":{"Ints":{"Uint32":32}}}, "SelfSlice": [{"tagged":"OK","nestedTagged":{"Ints":{"Uint32":32}}}], "SelfSlicePtr": [{"tagged":"OK","nestedTagged":{"Ints":{"Uint32":32}}}], "SelfPtrSlice": [{"tagged":"OK","nestedTagged":{"Ints":{"Uint32":32}}}], "interface": "Tile38 Rocks!", "Interface": "Please Download", "Array": [0,2,3,4,5], "time": "2017-05-07T13:24:43-07:00", "Binary": "R0lGODlhPQBEAPeo", "NonBinary": [9,3,100,115] } ` func TestUnmarshal(t *testing.T) { var s1 ComplicatedType var s2 ComplicatedType if err := json.Unmarshal([]byte(complicatedJSON), &s1); err != nil { t.Fatal(err) } if err := Unmarshal([]byte(complicatedJSON), &s2); err != nil { t.Fatal(err) } if !reflect.DeepEqual(&s1, &s2) { t.Fatal("not equal") } var str string if err := json.Unmarshal([]byte(Get(complicatedJSON, "LeftOut").Raw), &str); err != nil { t.Fatal(err) } assert(t, str == Get(complicatedJSON, "LeftOut").String()) } func testvalid(json string, expect bool) { _, ok := validpayload([]byte(json), 0) if ok != expect { panic("mismatch") } } func TestValidBasic(t *testing.T) { testvalid("0", true) testvalid("00", false) testvalid("-00", false) testvalid("-.", false) testvalid("0.0", true) testvalid("10.0", true) testvalid("10e1", true) testvalid("10EE", false) testvalid("10E-", false) testvalid("10E+", false) testvalid("10E123", true) testvalid("10E-123", true) testvalid("10E-0123", true) testvalid("", false) testvalid(" ", false) testvalid("{}", true) testvalid("{", false) testvalid("-", false) testvalid("-1", true) testvalid("-1.", false) testvalid("-1.0", true) testvalid(" -1.0", true) testvalid(" -1.0 ", true) testvalid("-1.0 ", true) testvalid("-1.0 i", false) testvalid("-1.0 i", false) testvalid("true", true) testvalid(" true", true) testvalid(" true ", true) testvalid(" True ", false) testvalid(" tru", false) testvalid("false", true) testvalid(" false", true) testvalid(" false ", true) testvalid(" False ", false) testvalid(" fals", false) testvalid("null", true) testvalid(" null", true) testvalid(" null ", true) testvalid(" Null ", false) testvalid(" nul", false) testvalid(" []", true) testvalid(" [true]", true) testvalid(" [ true, null ]", true) testvalid(" [ true,]", false) testvalid(`{"hello":"world"}`, true) testvalid(`{ "hello": "world" }`, true) testvalid(`{ "hello": "world", }`, false) testvalid(`{"a":"b",}`, false) testvalid(`{"a":"b","a"}`, false) testvalid(`{"a":"b","a":}`, false) testvalid(`{"a":"b","a":1}`, true) testvalid(`{"a":"b","a": 1, "c":{"hi":"there"} }`, true) testvalid(`{"a":"b","a": 1, "c":{"hi":"there", "easy":["going",{"mixed":"bag"}]} }`, true) testvalid(`""`, true) testvalid(`"`, false) testvalid(`"\n"`, true) testvalid(`"\"`, false) testvalid(`"\\"`, true) testvalid(`"a\\b"`, true) testvalid(`"a\\b\\\"a"`, true) testvalid(`"a\\b\\\uFFAAa"`, true) testvalid(`"a\\b\\\uFFAZa"`, false) testvalid(`"a\\b\\\uFFA"`, false) testvalid(string(complicatedJSON), true) testvalid(string(exampleJSON), true) } var jsonchars = []string{"{", "[", ",", ":", "}", "]", "1", "0", "true", "false", "null", `""`, `"\""`, `"a"`} func makeRandomJSONChars(b []byte) { var bb []byte for len(bb) < len(b) { bb = append(bb, jsonchars[rand.Int()%len(jsonchars)]...) } copy(b, bb[:len(b)]) } func TestValidRandom(t *testing.T) { rand.Seed(time.Now().UnixNano()) b := make([]byte, 100000) start := time.Now() for time.Since(start) < time.Second*3 { n := rand.Int() % len(b) rand.Read(b[:n]) validpayload(b[:n], 0) } start = time.Now() for time.Since(start) < time.Second*3 { n := rand.Int() % len(b) makeRandomJSONChars(b[:n]) validpayload(b[:n], 0) } } func TestGetMany47(t *testing.T) { json := `{"bar": {"id": 99, "mybar": "my mybar" }, "foo": {"myfoo": [605]}}` paths := []string{"foo.myfoo", "bar.id", "bar.mybar", "bar.mybarx"} expected := []string{"[605]", "99", "my mybar", ""} results := GetMany(json, paths...) if len(expected) != len(results) { t.Fatalf("expected %v, got %v", len(expected), len(results)) } for i, path := range paths { if results[i].String() != expected[i] { t.Fatalf("expected '%v', got '%v' for path '%v'", expected[i], results[i].String(), path) } } } func TestGetMany48(t *testing.T) { json := `{"bar": {"id": 99, "xyz": "my xyz"}, "foo": {"myfoo": [605]}}` paths := []string{"foo.myfoo", "bar.id", "bar.xyz", "bar.abc"} expected := []string{"[605]", "99", "my xyz", ""} results := GetMany(json, paths...) if len(expected) != len(results) { t.Fatalf("expected %v, got %v", len(expected), len(results)) } for i, path := range paths { if results[i].String() != expected[i] { t.Fatalf("expected '%v', got '%v' for path '%v'", expected[i], results[i].String(), path) } } } func TestResultRawForLiteral(t *testing.T) { for _, lit := range []string{"null", "true", "false"} { result := Parse(lit) if result.Raw != lit { t.Fatalf("expected '%v', got '%v'", lit, result.Raw) } } } func TestNullArray(t *testing.T) { n := len(Get(`{"data":null}`, "data").Array()) if n != 0 { t.Fatalf("expected '%v', got '%v'", 0, n) } n = len(Get(`{}`, "data").Array()) if n != 0 { t.Fatalf("expected '%v', got '%v'", 0, n) } n = len(Get(`{"data":[]}`, "data").Array()) if n != 0 { t.Fatalf("expected '%v', got '%v'", 0, n) } n = len(Get(`{"data":[null]}`, "data").Array()) if n != 1 { t.Fatalf("expected '%v', got '%v'", 1, n) } } func TestRandomGetMany(t *testing.T) { start := time.Now() for time.Since(start) < time.Second*3 { testRandomGetMany(t) } } func testRandomGetMany(t *testing.T) { rand.Seed(time.Now().UnixNano()) json, keys := randomJSON() for _, key := range keys { r := Get(json, key) if !r.Exists() { t.Fatal("should exist") } } rkeysi := rand.Perm(len(keys)) rkeysn := 1 + rand.Int()%32 if len(rkeysi) > rkeysn { rkeysi = rkeysi[:rkeysn] } var rkeys []string for i := 0; i < len(rkeysi); i++ { rkeys = append(rkeys, keys[rkeysi[i]]) } mres1 := GetMany(json, rkeys...) var mres2 []Result for _, rkey := range rkeys { mres2 = append(mres2, Get(json, rkey)) } if len(mres1) != len(mres2) { t.Fatalf("expected %d, got %d", len(mres2), len(mres1)) } for i := 0; i < len(mres1); i++ { mres1[i].Index = 0 mres2[i].Index = 0 v1 := fmt.Sprintf("%#v", mres1[i]) v2 := fmt.Sprintf("%#v", mres2[i]) if v1 != v2 { t.Fatalf("\nexpected %s\n"+ " got %s", v2, v1) } } } func TestIssue54(t *testing.T) { var r []Result json := `{"MarketName":null,"Nounce":6115}` r = GetMany(json, "Nounce", "Buys", "Sells", "Fills") if strings.Replace(fmt.Sprintf("%v", r), " ", "", -1) != "[6115]" { t.Fatalf("expected '%v', got '%v'", "[6115]", strings.Replace(fmt.Sprintf("%v", r), " ", "", -1)) } r = GetMany(json, "Nounce", "Buys", "Sells") if strings.Replace(fmt.Sprintf("%v", r), " ", "", -1) != "[6115]" { t.Fatalf("expected '%v', got '%v'", "[6115]", strings.Replace(fmt.Sprintf("%v", r), " ", "", -1)) } r = GetMany(json, "Nounce") if strings.Replace(fmt.Sprintf("%v", r), " ", "", -1) != "[6115]" { t.Fatalf("expected '%v', got '%v'", "[6115]", strings.Replace(fmt.Sprintf("%v", r), " ", "", -1)) } } func randomString() string { var key string N := 1 + rand.Int()%16 for i := 0; i < N; i++ { r := rand.Int() % 62 if r < 10 { key += string(byte('0' + r)) } else if r-10 < 26 { key += string(byte('a' + r - 10)) } else { key += string(byte('A' + r - 10 - 26)) } } return `"` + key + `"` } func randomBool() string { switch rand.Int() % 2 { default: return "false" case 1: return "true" } } func randomNumber() string { return strconv.FormatInt(int64(rand.Int()%1000000), 10) } func randomObjectOrArray(keys []string, prefix string, array bool, depth int) (string, []string) { N := 5 + rand.Int()%5 var json string if array { json = "[" } else { json = "{" } for i := 0; i < N; i++ { if i > 0 { json += "," } var pkey string if array { pkey = prefix + "." + strconv.FormatInt(int64(i), 10) } else { key := randomString() pkey = prefix + "." + key[1:len(key)-1] json += key + `:` } keys = append(keys, pkey[1:]) var kind int if depth == 5 { kind = rand.Int() % 4 } else { kind = rand.Int() % 6 } switch kind { case 0: json += randomString() case 1: json += randomBool() case 2: json += "null" case 3: json += randomNumber() case 4: var njson string njson, keys = randomObjectOrArray(keys, pkey, true, depth+1) json += njson case 5: var njson string njson, keys = randomObjectOrArray(keys, pkey, false, depth+1) json += njson } } if array { json += "]" } else { json += "}" } return json, keys } func randomJSON() (json string, keys []string) { //rand.Seed(time.Now().UnixNano()) return randomObjectOrArray(nil, "", false, 0) } func TestIssue55(t *testing.T) { json := `{"one": {"two": 2, "three": 3}, "four": 4, "five": 5}` results := GetMany(json, "four", "five", "one.two", "one.six") expected := []string{"4", "5", "2", ""} for i, r := range results { if r.String() != expected[i] { t.Fatalf("expected %v, got %v", expected[i], r.String()) } } }