package plans import ( "encoding/json" "fmt" "github.com/emqx/kuiper/common" "github.com/emqx/kuiper/xsql" "github.com/emqx/kuiper/xstream/contexts" "reflect" "strings" "testing" ) func TestStrFunc_Apply1(t *testing.T) { var tests = []struct { sql string data *xsql.Tuple result []map[string]interface{} }{ { sql: "SELECT concat(a, b, c) AS a FROM test", data: &xsql.Tuple{ Emitter: "test", Message: xsql.Message{ "a": "mya", "b": "myb", "c": "myc", }, }, result: []map[string]interface{}{{ "a": "myamybmyc", }}, }, { sql: "SELECT endswith(a, b) AS a FROM test", data: &xsql.Tuple{ Emitter: "test", Message: xsql.Message{ "a": "mya", "b": "myb", "c": "myc", }, }, result: []map[string]interface{}{{ "a": false, }}, }, { sql: "SELECT endswith(a, b) AS a FROM test", data: &xsql.Tuple{ Emitter: "test", Message: xsql.Message{ "a": "mya", "b": "ya", "c": "myc", }, }, result: []map[string]interface{}{{ "a": true, }}, }, { sql: "SELECT format_time(a, \"yyyy-MM-dd T HH:mm:ss\") AS a FROM test", data: &xsql.Tuple{ Emitter: "test", Message: xsql.Message{ "a": common.TimeFromUnixMilli(1568854515000), "b": "ya", "c": "myc", }, }, result: []map[string]interface{}{{ "a": "2019-09-19 T 00:55:15", }}, }, { sql: "SELECT indexof(a, \"a\") AS a FROM test", data: &xsql.Tuple{ Emitter: "test", Message: xsql.Message{ "a": "mya", "b": "ya", "c": "myc", }, }, result: []map[string]interface{}{{ "a": float64(2), }}, }, { sql: "SELECT length(a) AS a FROM test", data: &xsql.Tuple{ Emitter: "test", Message: xsql.Message{ "a": "中国", "b": "ya", "c": "myc", }, }, result: []map[string]interface{}{{ "a": float64(2), }}, }, { sql: "SELECT length(c) AS a FROM test", data: &xsql.Tuple{ Emitter: "test", Message: xsql.Message{ "a": "中国", "b": "ya", "c": "myc", }, }, result: []map[string]interface{}{{ "a": float64(3), }}, }, { sql: "SELECT lower(a) AS a FROM test", data: &xsql.Tuple{ Emitter: "test", Message: xsql.Message{ "a": "NYCNicks", "b": "ya", "c": "myc", }, }, result: []map[string]interface{}{{ "a": "nycnicks", }}, }, { sql: "SELECT lpad(a, 2) AS a FROM test", data: &xsql.Tuple{ Emitter: "test", Message: xsql.Message{ "a": "NYCNicks", "b": "ya", "c": "myc", }, }, result: []map[string]interface{}{{ "a": " NYCNicks", }}, }, { sql: "SELECT ltrim(a) AS a FROM test", data: &xsql.Tuple{ Emitter: "test", Message: xsql.Message{ "a": " \ttrimme\n ", "b": "ya", "c": "myc", }, }, result: []map[string]interface{}{{ "a": "trimme\n ", }}, }, { sql: "SELECT numbytes(a) AS a FROM test", data: &xsql.Tuple{ Emitter: "test", Message: xsql.Message{ "a": "中国", "b": "ya", "c": "myc", }, }, result: []map[string]interface{}{{ "a": float64(6), }}, }, { sql: "SELECT numbytes(b) AS a FROM test", data: &xsql.Tuple{ Emitter: "test", Message: xsql.Message{ "a": "中国", "b": "ya", "c": "myc", }, }, result: []map[string]interface{}{{ "a": float64(2), }}, }, { sql: "SELECT regexp_matches(a,\"foo.*\") AS a FROM test", data: &xsql.Tuple{ Emitter: "test", Message: xsql.Message{ "a": "seafood", "b": "ya", "c": "myc", }, }, result: []map[string]interface{}{{ "a": true, }}, }, { sql: "SELECT regexp_matches(b,\"foo.*\") AS a FROM test", data: &xsql.Tuple{ Emitter: "test", Message: xsql.Message{ "a": "seafood", "b": "ya", "c": "myc", }, }, result: []map[string]interface{}{{ "a": false, }}, }, { sql: "SELECT regexp_replace(a,\"a(x*)b\", \"REP\") AS a FROM test", data: &xsql.Tuple{ Emitter: "test", Message: xsql.Message{ "a": "-ab-axxb-", "b": "ya", "c": "myc", }, }, result: []map[string]interface{}{{ "a": "-REP-REP-", }}, }, { sql: "SELECT regexp_substr(a,\"foo.*\") AS a FROM test", data: &xsql.Tuple{ Emitter: "test", Message: xsql.Message{ "a": "seafood", "b": "ya", "c": "myc", }, }, result: []map[string]interface{}{{ "a": "food", }}, }, { sql: "SELECT rpad(a, 3) AS a FROM test", data: &xsql.Tuple{ Emitter: "test", Message: xsql.Message{ "a": "NYCNicks", "b": "ya", "c": "myc", }, }, result: []map[string]interface{}{{ "a": "NYCNicks ", }}, }, { sql: "SELECT rtrim(a) AS a FROM test", data: &xsql.Tuple{ Emitter: "test", Message: xsql.Message{ "a": " \ttrimme\n ", "b": "ya", "c": "myc", }, }, result: []map[string]interface{}{{ "a": " \ttrimme", }}, }, { sql: "SELECT substring(a, 3) AS a FROM test", data: &xsql.Tuple{ Emitter: "test", Message: xsql.Message{ "a": "NYCNicks", "b": "ya", "c": "myc", }, }, result: []map[string]interface{}{{ "a": "Nicks", }}, }, { sql: "SELECT substring(a, 3, 5) AS a FROM test", data: &xsql.Tuple{ Emitter: "test", Message: xsql.Message{ "a": "NYCNicks", "b": "ya", "c": "myc", }, }, result: []map[string]interface{}{{ "a": "Ni", }}, }, { sql: "SELECT endswith(a, b) AS a FROM test", data: &xsql.Tuple{ Emitter: "test", Message: xsql.Message{ "a": "mya", "b": "ya", "c": "myc", }, }, result: []map[string]interface{}{{ "a": true, }}, }, { sql: "SELECT endswith(a, c) AS a FROM test", data: &xsql.Tuple{ Emitter: "test", Message: xsql.Message{ "a": "mya", "b": "ya", "c": "myc", }, }, result: []map[string]interface{}{{ "a": false, }}, }, { sql: "SELECT trim(a) AS a FROM test", data: &xsql.Tuple{ Emitter: "test", Message: xsql.Message{ "a": " \ttrimme\n ", "b": "ya", "c": "myc", }, }, result: []map[string]interface{}{{ "a": "trimme", }}, }, { sql: "SELECT upper(a) AS a FROM test", data: &xsql.Tuple{ Emitter: "test", Message: xsql.Message{ "a": "NYCNicks", "b": "ya", "c": "myc", }, }, result: []map[string]interface{}{{ "a": "NYCNICKS", }}, }, { sql: `SELECT split_value(a,"/",0) AS a FROM test1`, data: &xsql.Tuple{ Emitter: "test", Message: xsql.Message{ "a": "test/device001/message", }, }, result: []map[string]interface{}{{ "a": "test", }}, }, { sql: `SELECT split_value(a,"/",1) AS a FROM test1`, data: &xsql.Tuple{ Emitter: "test", Message: xsql.Message{ "a": "test/device001/message", }, }, result: []map[string]interface{}{{ "a": "device001", }}, }, { sql: `SELECT split_value(a,"/",2) AS a FROM test1`, data: &xsql.Tuple{ Emitter: "test", Message: xsql.Message{ "a": "test/device001/message", }, }, result: []map[string]interface{}{{ "a": "message", }}, }, { sql: `SELECT split_value(a,"/",0) AS a, split_value(a,"/",3) AS b FROM test1`, data: &xsql.Tuple{ Emitter: "test", Message: xsql.Message{ "a": "/test/device001/message", }, }, result: []map[string]interface{}{{ "a": "", "b": "message", }}, }, { sql: `SELECT split_value(a,"/",3) AS a FROM test1`, data: &xsql.Tuple{ Emitter: "test", Message: xsql.Message{ "a": "test/device001/message", }, }, result: []map[string]interface{}{map[string]interface{}{}}, }, } fmt.Printf("The test bucket size is %d.\n\n", len(tests)) contextLogger := common.Log.WithField("rule", "TestStrFunc_Apply1") ctx := contexts.WithValue(contexts.Background(), contexts.LoggerKey, contextLogger) for i, tt := range tests { stmt, err := xsql.NewParser(strings.NewReader(tt.sql)).Parse() if err != nil || stmt == nil { t.Errorf("parse sql %s error %v", tt.sql, err) } pp := &ProjectPlan{Fields: stmt.Fields} pp.isTest = true result := pp.Apply(ctx, tt.data) var mapRes []map[string]interface{} if v, ok := result.([]byte); ok { err := json.Unmarshal(v, &mapRes) if err != nil { t.Errorf("Failed to parse the input into map.\n") continue } //fmt.Printf("%t\n", mapRes["rengine_field_0"]) if !reflect.DeepEqual(tt.result, mapRes) { t.Errorf("%d. %q\n\nresult mismatch:\n\nexp=%#v\n\ngot=%#v\n\n", i, tt.sql, tt.result, mapRes) } } else { t.Errorf("The returned result is not type of []byte\n") } } }