/* * MinIO Cloud Storage, (C) 2019 MinIO, Inc. * * 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 sql import ( "fmt" "math" "strconv" "testing" "time" ) // valueBuilders contains one constructor for each value type. // Values should match if type is the same. var valueBuilders = []func() *Value{ func() *Value { return FromNull() }, func() *Value { return FromBool(true) }, func() *Value { return FromBytes([]byte("byte contents")) }, func() *Value { return FromFloat(math.Pi) }, func() *Value { return FromInt(0x1337) }, func() *Value { t, err := time.Parse(time.RFC3339, "2006-01-02T15:04:05Z") if err != nil { panic(err) } return FromTimestamp(t) }, func() *Value { return FromString("string contents") }, } // altValueBuilders contains one constructor for each value type. // Values are zero values and should NOT match the values in valueBuilders, except Null type. var altValueBuilders = []func() *Value{ func() *Value { return FromNull() }, func() *Value { return FromBool(false) }, func() *Value { return FromBytes(nil) }, func() *Value { return FromFloat(0) }, func() *Value { return FromInt(0) }, func() *Value { return FromTimestamp(time.Time{}) }, func() *Value { return FromString("") }, } func TestValue_SameTypeAs(t *testing.T) { type fields struct { a, b Value } type test struct { name string fields fields wantOk bool } var tests []test for i := range valueBuilders { a := valueBuilders[i]() for j := range valueBuilders { b := valueBuilders[j]() tests = append(tests, test{ name: fmt.Sprint(a.GetTypeString(), "==", b.GetTypeString()), fields: fields{ a: *a, b: *b, }, wantOk: i == j, }) } } for _, tt := range tests { t.Run(tt.name, func(t *testing.T) { if gotOk := tt.fields.a.SameTypeAs(tt.fields.b); gotOk != tt.wantOk { t.Errorf("SameTypeAs() = %v, want %v", gotOk, tt.wantOk) } }) } } func TestValue_Equals(t *testing.T) { type fields struct { a, b Value } type test struct { name string fields fields wantOk bool } var tests []test for i := range valueBuilders { a := valueBuilders[i]() for j := range valueBuilders { b := valueBuilders[j]() tests = append(tests, test{ name: fmt.Sprint(a.GetTypeString(), "==", b.GetTypeString()), fields: fields{ a: *a, b: *b, }, wantOk: i == j, }) } } for i := range valueBuilders { a := valueBuilders[i]() for j := range altValueBuilders { b := altValueBuilders[j]() tests = append(tests, test{ name: fmt.Sprint(a.GetTypeString(), "!=", b.GetTypeString()), fields: fields{ a: *a, b: *b, }, // Only Null == Null wantOk: a.IsNull() && b.IsNull() && i == 0 && j == 0, }) } } for _, tt := range tests { t.Run(tt.name, func(t *testing.T) { if gotOk := tt.fields.a.Equals(tt.fields.b); gotOk != tt.wantOk { t.Errorf("Equals() = %v, want %v", gotOk, tt.wantOk) } }) } } func TestValue_CSVString(t *testing.T) { type fields struct { value interface{} } type test struct { name string want string wantAlt string } tests := []test{ { name: valueBuilders[0]().String(), want: "", wantAlt: "", }, { name: valueBuilders[1]().String(), want: "true", wantAlt: "false", }, { name: valueBuilders[2]().String(), want: "byte contents", wantAlt: "", }, { name: valueBuilders[3]().String(), want: "3.141592653589793", wantAlt: "0", }, { name: valueBuilders[4]().String(), want: "4919", wantAlt: "0", }, { name: valueBuilders[5]().String(), want: "2006-01-02T15:04:05Z", wantAlt: "0001T", }, { name: valueBuilders[6]().String(), want: "string contents", wantAlt: "", }, } for i, tt := range tests { t.Run(tt.name, func(t *testing.T) { v := valueBuilders[i]() vAlt := altValueBuilders[i]() if got := v.CSVString(); got != tt.want { t.Errorf("CSVString() = %v, want %v", got, tt.want) } if got := vAlt.CSVString(); got != tt.wantAlt { t.Errorf("CSVString() = %v, want %v", got, tt.wantAlt) } }) } } func TestValue_bytesToInt(t *testing.T) { type fields struct { value interface{} } tests := []struct { name string fields fields want int64 wantOK bool }{ { name: "zero", fields: fields{ value: []byte("0"), }, want: 0, wantOK: true, }, { name: "minuszero", fields: fields{ value: []byte("-0"), }, want: 0, wantOK: true, }, { name: "one", fields: fields{ value: []byte("1"), }, want: 1, wantOK: true, }, { name: "minusone", fields: fields{ value: []byte("-1"), }, want: -1, wantOK: true, }, { name: "plusone", fields: fields{ value: []byte("+1"), }, want: 1, wantOK: true, }, { name: "max", fields: fields{ value: []byte(strconv.FormatInt(math.MaxInt64, 10)), }, want: math.MaxInt64, wantOK: true, }, { name: "min", fields: fields{ value: []byte(strconv.FormatInt(math.MinInt64, 10)), }, want: math.MinInt64, wantOK: true, }, { name: "max-overflow", fields: fields{ value: []byte("9223372036854775808"), }, // Seems to be what strconv.ParseInt returns want: math.MaxInt64, wantOK: false, }, { name: "min-underflow", fields: fields{ value: []byte("-9223372036854775809"), }, // Seems to be what strconv.ParseInt returns want: math.MinInt64, wantOK: false, }, { name: "zerospace", fields: fields{ value: []byte(" 0"), }, want: 0, wantOK: true, }, { name: "onespace", fields: fields{ value: []byte("1 "), }, want: 1, wantOK: true, }, { name: "minusonespace", fields: fields{ value: []byte(" -1 "), }, want: -1, wantOK: true, }, { name: "plusonespace", fields: fields{ value: []byte("\t+1\t"), }, want: 1, wantOK: true, }, { name: "scientific", fields: fields{ value: []byte("3e5"), }, want: 0, wantOK: false, }, { // No support for prefixes name: "hex", fields: fields{ value: []byte("0xff"), }, want: 0, wantOK: false, }, } for _, tt := range tests { t.Run(tt.name, func(t *testing.T) { v := &Value{ value: tt.fields.value, } got, got1 := v.bytesToInt() if got != tt.want { t.Errorf("bytesToInt() got = %v, want %v", got, tt.want) } if got1 != tt.wantOK { t.Errorf("bytesToInt() got1 = %v, want %v", got1, tt.wantOK) } }) } } func TestValue_bytesToFloat(t *testing.T) { type fields struct { value interface{} } tests := []struct { name string fields fields want float64 wantOK bool }{ // Copied from TestValue_bytesToInt. { name: "zero", fields: fields{ value: []byte("0"), }, want: 0, wantOK: true, }, { name: "minuszero", fields: fields{ value: []byte("-0"), }, want: 0, wantOK: true, }, { name: "one", fields: fields{ value: []byte("1"), }, want: 1, wantOK: true, }, { name: "minusone", fields: fields{ value: []byte("-1"), }, want: -1, wantOK: true, }, { name: "plusone", fields: fields{ value: []byte("+1"), }, want: 1, wantOK: true, }, { name: "maxint", fields: fields{ value: []byte(strconv.FormatInt(math.MaxInt64, 10)), }, want: math.MaxInt64, wantOK: true, }, { name: "minint", fields: fields{ value: []byte(strconv.FormatInt(math.MinInt64, 10)), }, want: math.MinInt64, wantOK: true, }, { name: "max-overflow-int", fields: fields{ value: []byte("9223372036854775808"), }, // Seems to be what strconv.ParseInt returns want: math.MaxInt64, wantOK: true, }, { name: "min-underflow-int", fields: fields{ value: []byte("-9223372036854775809"), }, // Seems to be what strconv.ParseInt returns want: math.MinInt64, wantOK: true, }, { name: "max", fields: fields{ value: []byte(strconv.FormatFloat(math.MaxFloat64, 'g', -1, 64)), }, want: math.MaxFloat64, wantOK: true, }, { name: "min", fields: fields{ value: []byte(strconv.FormatFloat(-math.MaxFloat64, 'g', -1, 64)), }, want: -math.MaxFloat64, wantOK: true, }, { name: "max-overflow", fields: fields{ value: []byte("1.797693134862315708145274237317043567981e+309"), }, // Seems to be what strconv.ParseInt returns want: math.Inf(1), wantOK: false, }, { name: "min-underflow", fields: fields{ value: []byte("-1.797693134862315708145274237317043567981e+309"), }, // Seems to be what strconv.ParseInt returns want: math.Inf(-1), wantOK: false, }, { name: "smallest-pos", fields: fields{ value: []byte(strconv.FormatFloat(math.SmallestNonzeroFloat64, 'g', -1, 64)), }, want: math.SmallestNonzeroFloat64, wantOK: true, }, { name: "smallest-pos", fields: fields{ value: []byte(strconv.FormatFloat(-math.SmallestNonzeroFloat64, 'g', -1, 64)), }, want: -math.SmallestNonzeroFloat64, wantOK: true, }, { name: "zerospace", fields: fields{ value: []byte(" 0"), }, want: 0, wantOK: true, }, { name: "onespace", fields: fields{ value: []byte("1 "), }, want: 1, wantOK: true, }, { name: "minusonespace", fields: fields{ value: []byte(" -1 "), }, want: -1, wantOK: true, }, { name: "plusonespace", fields: fields{ value: []byte("\t+1\t"), }, want: 1, wantOK: true, }, { name: "scientific", fields: fields{ value: []byte("3e5"), }, want: 300000, wantOK: true, }, { // No support for prefixes name: "hex", fields: fields{ value: []byte("0xff"), }, want: 0, wantOK: false, }, } for _, tt := range tests { t.Run(tt.name, func(t *testing.T) { v := Value{ value: tt.fields.value, } got, got1 := v.bytesToFloat() if got != tt.want { t.Errorf("bytesToFloat() got = %v, want %v", got, tt.want) } if got1 != tt.wantOK { t.Errorf("bytesToFloat() got1 = %v, want %v", got1, tt.wantOK) } }) } } func TestValue_bytesToBool(t *testing.T) { type fields struct { value interface{} } tests := []struct { name string fields fields wantVal bool wantOk bool }{ { name: "true", fields: fields{ value: []byte("true"), }, wantVal: true, wantOk: true, }, { name: "false", fields: fields{ value: []byte("false"), }, wantVal: false, wantOk: true, }, { name: "t", fields: fields{ value: []byte("t"), }, wantVal: true, wantOk: true, }, { name: "f", fields: fields{ value: []byte("f"), }, wantVal: false, wantOk: true, }, { name: "1", fields: fields{ value: []byte("1"), }, wantVal: true, wantOk: true, }, { name: "0", fields: fields{ value: []byte("0"), }, wantVal: false, wantOk: true, }, { name: "truespace", fields: fields{ value: []byte(" true "), }, wantVal: true, wantOk: true, }, { name: "truetabs", fields: fields{ value: []byte("\ttrue\t"), }, wantVal: true, wantOk: true, }, { name: "TRUE", fields: fields{ value: []byte("TRUE"), }, wantVal: true, wantOk: true, }, { name: "FALSE", fields: fields{ value: []byte("FALSE"), }, wantVal: false, wantOk: true, }, { name: "invalid", fields: fields{ value: []byte("no"), }, wantVal: false, wantOk: false, }, } for _, tt := range tests { t.Run(tt.name, func(t *testing.T) { v := Value{ value: tt.fields.value, } gotVal, gotOk := v.bytesToBool() if gotVal != tt.wantVal { t.Errorf("bytesToBool() gotVal = %v, want %v", gotVal, tt.wantVal) } if gotOk != tt.wantOk { t.Errorf("bytesToBool() gotOk = %v, want %v", gotOk, tt.wantOk) } }) } }