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minio/pkg/s3select/select_test.go

1085 lines
36 KiB

/*
* Minio Cloud Storage, (C) 2018 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 s3select
import (
"bytes"
"fmt"
"reflect"
"testing"
)
// Unit Test for the checkForDuplicates function.
func TestCheckForDuplicates(t *testing.T) {
tables := []struct {
myReq []string
myHeaders map[string]int
myDup map[string]bool
myLow map[string]int
myErr error
}{
{[]string{"name", "id", "last_name", "last_name"}, make(map[string]int), make(map[string]bool), make(map[string]int), ErrAmbiguousFieldName},
{[]string{"name", "id", "last_name", "another_name"}, make(map[string]int), make(map[string]bool), make(map[string]int), nil},
}
for _, table := range tables {
err := checkForDuplicates(table.myReq, table.myHeaders, table.myDup, table.myLow)
if err != table.myErr {
t.Error()
}
}
}
// Test for the function which processes columnnames to make sure that they are
// compatible with spaces.
func TestMyProcessing(t *testing.T) {
options := &Options{
HasHeader: false,
RecordDelimiter: "\n",
FieldDelimiter: ",",
Comments: "",
Name: "S3Object", // Default table name for all objects
ReadFrom: bytes.NewReader([]byte("Here , is, a, string + \n + random,random,stuff,stuff ")),
Compressed: "",
Expression: "",
OutputFieldDelimiter: ",",
StreamSize: 20,
}
s3s, err := NewInput(options)
if err != nil {
t.Error(err)
}
tables := []struct {
myReq []string
myHeaders map[string]int
myDup map[string]bool
myLow map[string]int
myOpts *Options
input *Input
length int
testOutput string
myErr error
}{
{[]string{"name", "id", "last_name", "CAST"}, make(map[string]int), make(map[string]bool), make(map[string]int), options, s3s, 4, "CAST", nil},
{[]string{"name", "id", "last_name", "another_name"}, make(map[string]int), make(map[string]bool), make(map[string]int), options, s3s, 4, "another_name", nil},
{[]string{"name", "id", "last_name", "another_name"}, make(map[string]int), make(map[string]bool), make(map[string]int), options, s3s, 4, "another_name", nil},
{[]string{"name", "id", "random_name", "fame_name", "another_col"}, make(map[string]int), make(map[string]bool), make(map[string]int), options, s3s, 5, "fame_name", nil},
}
for _, table := range tables {
err = checkForDuplicates(table.myReq, table.myHeaders, table.myDup, table.myLow)
if err != table.myErr {
t.Error()
}
if len(table.myReq) != table.length {
t.Errorf("UnexpectedError")
}
if table.myReq[3] != table.testOutput {
t.Error()
}
}
}
// TestMyRowIndexResults is a unit test which makes sure that the rows that are
// being printed are appropriate to the query being requested.
func TestMyRowIndexResults(t *testing.T) {
options := &Options{
HasHeader: false,
RecordDelimiter: "\n",
FieldDelimiter: ",",
Comments: "",
Name: "S3Object", // Default table name for all objects
ReadFrom: bytes.NewReader([]byte("Here , is, a, string + \n + random,random,stuff,stuff ")),
Compressed: "",
Expression: "",
OutputFieldDelimiter: ",",
StreamSize: 20,
}
s3s, err := NewInput(options)
if err != nil {
t.Error(err)
}
tables := []struct {
myReq []string
myHeaders map[string]int
myDup map[string]bool
myLow map[string]int
myOpts *Options
input *Input
myRecord []string
myTarget string
myAsterix string
columns []string
err error
}{
{[]string{"1", "2"}, make(map[string]int), make(map[string]bool), make(map[string]int), options, s3s, []string{"target", "random", "hello", "stuff"}, "target,random", "target,random,hello,stuff", []string{"1", "2", "3", "4"}, nil},
{[]string{"2", "3", "4"}, make(map[string]int), make(map[string]bool), make(map[string]int), options, s3s, []string{"random", "hullo", "thing", "stuff"}, "hullo,thing,stuff", "random,hullo,thing,stuff", []string{"1", "2", "3", "4"}, nil},
{[]string{"3", "2"}, make(map[string]int), make(map[string]bool), make(map[string]int), options, s3s, []string{"random", "hullo", "thing", "stuff"}, "thing,hullo", "random,hullo,thing,stuff", []string{"1", "2", "3", "4"}, nil},
{[]string{"11", "1"}, make(map[string]int), make(map[string]bool), make(map[string]int), options, s3s, []string{"random", "hullo", "thing", "stuff"}, "", "random,hullo,thing,stuff", []string{"1", "2", "3", "4"}, ErrInvalidColumnIndex},
}
for _, table := range tables {
checkForDuplicates(table.columns, table.myHeaders, table.myDup, table.myLow)
myRow, err := s3s.processColNameIndex(table.myRecord, table.myReq, table.columns)
if err != table.err {
t.Error()
}
if myRow != table.myTarget {
t.Error()
}
myRow = table.input.printAsterix(table.myRecord)
if myRow != table.myAsterix {
t.Error()
}
}
}
// TestMyHelperFunctions is a unit test which tests some small helper string
// functions.
func TestMyHelperFunctions(t *testing.T) {
tables := []struct {
myReq string
myList []string
myIndex int
expected bool
}{
{"test1", []string{"test1", "test2", "test3", "test4", "test5"}, 0, true},
{"random", []string{"test1", "test2", "test3", "test4", "test5"}, -1, false},
{"test3", []string{"test1", "test2", "test3", "test4", "test5"}, 2, true},
}
for _, table := range tables {
if stringInSlice(table.myReq, table.myList) != table.expected {
t.Error()
}
if stringIndex(table.myReq, table.myList) != table.myIndex {
t.Error()
}
}
}
// TestMyStateMachine is a unit test which ensures that the lowest level of the
// interpreter is converting properly.
func TestMyStateMachine(t *testing.T) {
tables := []struct {
operand interface{}
operator string
leftArg string
err error
expected bool
}{
{"2005", ">", "2012", nil, true},
{2005, ">", "2012", nil, true},
{2012.0000, ">", "2014.000", nil, true},
{"NA", ">", "2014.000", nil, false},
{2014, ">", "Random", nil, false},
{"test3", ">", "aandom", nil, false},
}
for _, table := range tables {
val, err := evaluateOperator(table.leftArg, table.operator, table.operand)
if err != table.err {
t.Error()
}
if val != table.expected {
t.Error()
}
}
}
// TestMyOperators is a unit test which ensures that the appropriate values are
// being returned from the operators functions.
func TestMyOperators(t *testing.T) {
tables := []struct {
operator string
err error
}{
{">", nil},
{"%", ErrParseUnknownOperator},
}
for _, table := range tables {
err := checkValidOperator(table.operator)
if err != table.err {
t.Error()
}
}
}
// TestMyConversion ensures that the conversion of the value from the csv
// happens correctly.
func TestMyConversion(t *testing.T) {
tables := []struct {
myTblVal string
expected reflect.Kind
}{
{"2014", reflect.Int},
{"2014.000", reflect.Float64},
{"String!!!", reflect.String},
}
for _, table := range tables {
val := reflect.ValueOf(checkStringType(table.myTblVal)).Kind()
if val != table.expected {
t.Error()
}
}
}
// Unit Tests for Parser.
func TestMyParser(t *testing.T) {
tables := []struct {
myQuery string
err error
reqCols []string
alias string
myLimit int
aggFuncs []string
header []string
}{
{"SELECT * FROM S3OBJECT", nil, []string{"*"}, "S3OBJECT", 0, make([]string, 1), []string{"name1", "name2", "name3", "name4"}},
{"SELECT * FROM S3OBJECT AS A", nil, []string{"*"}, "A", 0, make([]string, 1), []string{"name1", "name2", "name3", "name4"}},
{"SELECT col_name FROM S3OBJECT AS A", nil, []string{"col_name"}, "A", 0, make([]string, 1), []string{"col_name", "name2", "name3", "name4"}},
{"SELECT col_name,col_other FROM S3OBJECT AS A LIMIT 5", nil, []string{"col_name", "col_other"}, "A", 5, make([]string, 2), []string{"col_name", "col_other", "name3", "name4"}},
{"SELECT col_name,col_other FROM S3OBJECT AS A WHERE col_name = 'Name' LIMIT 5", nil, []string{"col_name", "col_other"}, "A", 5, make([]string, 2), []string{"col_name", "col_other", "name3", "name4"}},
{"SELECT col_name,col_other FROM S3OBJECT AS A WHERE col_name = 'Name LIMIT 5", ErrLexerInvalidChar, nil, "", 0, nil, []string{"col_name", "col_other", "name3", "name4"}},
{"SELECT count(*) FROM S3OBJECT AS A WHERE col_name = 'Name' LIMIT 5", nil, []string{"*"}, "A", 5, []string{"count"}, []string{"col_name", "col_other", "name3", "name4"}},
{"SELECT sum(col_name),sum(col_other) FROM S3OBJECT AS A WHERE col_name = 'Name' LIMIT 5", nil, []string{"col_name", "col_other"}, "A", 5, []string{"sum", "sum"}, []string{"col_name", "col_other"}},
{"SELECT A.col_name FROM S3OBJECT AS A", nil, []string{"col_name"}, "A", 0, make([]string, 1), []string{"col_name", "col_other", "name3", "name4"}},
{"SELECT A._col_name FROM S3OBJECT AS A", nil, []string{"col_name"}, "A", 0, make([]string, 1), []string{"col_name", "col_other", "name3", "name4"}},
{"SELECT A._col_name FROM S3OBJECT AS A WHERE randomname > 5", ErrMissingHeaders, nil, "", 0, nil, []string{"col_name", "col_other", "name3", "name4"}},
{"SELECT A._col_name FROM S3OBJECT AS A WHERE A._11 > 5", ErrInvalidColumnIndex, nil, "", 0, nil, []string{"col_name", "col_other", "name3", "name4"}},
{"SELECT COALESCE(col_name,col_other) FROM S3OBJECT AS A WHERE A._3 > 5", nil, []string{""}, "A", 0, []string{""}, []string{"col_name", "col_other", "name3", "name4"}},
{"SELECT COALESCE(col_name,col_other),COALESCE(col_name,col_other) FROM S3OBJECT AS A WHERE A._3 > 5", nil, []string{"", ""}, "A", 0, []string{"", ""}, []string{"col_name", "col_other", "name3", "name4"}},
{"SELECT COALESCE(col_name,col_other) ,col_name , COALESCE(col_name,col_other) FROM S3OBJECT AS A WHERE col_name > 5", nil, []string{"", "col_name", ""}, "A", 0, []string{"", "", ""}, []string{"col_name", "col_other", "name3", "name4"}},
{"SELECT NULLIF(col_name,col_other) ,col_name , COALESCE(col_name,col_other) FROM S3OBJECT AS A WHERE col_name > 5", nil, []string{"", "col_name", ""}, "A", 0, []string{"", "", ""}, []string{"col_name", "col_other", "name3", "name4"}},
{"SELECT NULLIF(col_name,col_other) FROM S3OBJECT AS A WHERE col_name > 5", nil, []string{""}, "A", 0, []string{""}, []string{"col_name", "col_other", "name3", "name4"}},
{"SELECT NULLIF(randomname,col_other) FROM S3OBJECT AS A WHERE col_name > 5", ErrMissingHeaders, nil, "", 0, nil, []string{"col_name", "col_other", "name3", "name4"}},
{"SELECT col_name FROM S3OBJECT AS A WHERE COALESCE(random,5) > 5", ErrMissingHeaders, nil, "", 0, nil, []string{"col_name", "col_other", "name3", "name4"}},
{"SELECT col_name FROM S3OBJECT AS A WHERE NULLIF(random,5) > 5", ErrMissingHeaders, nil, "", 0, nil, []string{"col_name", "col_other", "name3", "name4"}},
{"SELECT col_name FROM S3OBJECT AS A WHERE LOWER(col_name) BETWEEN 5 AND 7", nil, []string{"col_name"}, "A", 0, []string{""}, []string{"col_name", "col_other", "name3", "name4"}},
{"SELECT UPPER(col_name) FROM S3OBJECT AS A WHERE LOWER(col_name) BETWEEN 5 AND 7", nil, []string{""}, "A", 0, []string{""}, []string{"col_name", "col_other", "name3", "name4"}},
{"SELECT UPPER(*) FROM S3OBJECT AS A WHERE LOWER(col_name) BETWEEN 5 AND 7", ErrParseUnsupportedCallWithStar, nil, "", 0, nil, []string{"col_name", "col_other", "name3", "name4"}},
{"SELECT NULLIF(col_name,col_name) FROM S3OBJECT AS A WHERE NULLIF(LOWER(col_name),col_name) BETWEEN 5 AND 7", nil, []string{""}, "A", 0, []string{""}, []string{"col_name", "col_other", "name3", "name4"}},
{"SELECT COALESCE(col_name,col_name) FROM S3OBJECT AS A WHERE NULLIF(LOWER(col_name),col_name) BETWEEN 5 AND 7", nil, []string{""}, "A", 0, []string{""}, []string{"col_name", "col_other", "name3", "name4"}},
}
for _, table := range tables {
options := &Options{
HasHeader: false,
RecordDelimiter: "\n",
FieldDelimiter: ",",
Comments: "",
Name: "S3Object", // Default table name for all objects
ReadFrom: bytes.NewReader([]byte("name1,name2,name3,name4" + "\n" + "5,is,a,string" + "\n" + "random,random,stuff,stuff")),
Compressed: "",
Expression: "",
OutputFieldDelimiter: ",",
StreamSize: 20,
HeaderOpt: true,
}
s3s, err := NewInput(options)
if err != nil {
t.Error(err)
}
s3s.header = table.header
reqCols, alias, myLimit, _, aggFunctionNames, _, err := s3s.ParseSelect(table.myQuery)
if table.err != err {
t.Error()
}
if !reflect.DeepEqual(reqCols, table.reqCols) {
t.Error()
}
if alias != table.alias {
t.Error()
}
if myLimit != int64(table.myLimit) {
t.Error()
}
if !reflect.DeepEqual(table.aggFuncs, aggFunctionNames) {
t.Error()
}
}
}
// Unit tests for the main function that performs aggreggation.
func TestMyAggregationFunc(t *testing.T) {
columnsMap := make(map[string]int)
columnsMap["Col1"] = 0
columnsMap["Col2"] = 1
tables := []struct {
counter int
filtrCount int
myAggVals []float64
columnsMap map[string]int
storeReqCols []string
storeFunctions []string
record []string
err error
expectedVal float64
}{
{10, 5, []float64{10}, columnsMap, []string{"Col1"}, []string{"count"}, []string{"1", "2"}, nil, 11},
{10, 5, []float64{10}, columnsMap, []string{"Col1"}, []string{"min"}, []string{"1", "2"}, nil, 1},
{10, 5, []float64{10}, columnsMap, []string{"Col1"}, []string{"max"}, []string{"1", "2"}, nil, 10},
{10, 5, []float64{10}, columnsMap, []string{"Col1"}, []string{"sum"}, []string{"1", "2"}, nil, 11},
{1, 1, []float64{10}, columnsMap, []string{"Col1"}, []string{"avg"}, []string{"1", "2"}, nil, 5.500},
{10, 5, []float64{0.000}, columnsMap, []string{"Col1"}, []string{"random"}, []string{"1", "2"}, ErrParseNonUnaryAgregateFunctionCall, 0},
{0, 5, []float64{0}, columnsMap, []string{"0"}, []string{"count"}, []string{"1", "2"}, nil, 1},
{10, 5, []float64{10}, columnsMap, []string{"1"}, []string{"min"}, []string{"1", "12"}, nil, 10},
}
for _, table := range tables {
err := aggregationFunctions(table.counter, table.filtrCount, table.myAggVals, table.columnsMap, table.storeReqCols, table.storeFunctions, table.record)
if table.err != err {
t.Error()
}
if table.myAggVals[0] != table.expectedVal {
t.Error()
}
}
}
// Unit Tests for the function which converts a float array to string.
func TestToStringAgg(t *testing.T) {
options := &Options{
HasHeader: false,
RecordDelimiter: "\n",
FieldDelimiter: ",",
Comments: "",
Name: "S3Object", // Default table name for all objects
ReadFrom: bytes.NewReader([]byte("Here , is, a, string + \n + random,random,stuff,stuff ")),
Compressed: "",
Expression: "",
OutputFieldDelimiter: ",",
StreamSize: 20,
HeaderOpt: true,
}
s3s, err := NewInput(options)
if err != nil {
t.Error(err)
}
tables := []struct {
myAggVal []float64
expected string
}{
{[]float64{10, 11, 12, 13, 14}, "10,11,12,13,14"},
{[]float64{10, 11.3, 12, 13, 14}, "10,11.300000,12,13,14"},
{[]float64{10.235, 11.3, 12, 13, 14}, "10.235000,11.300000,12,13,14"},
{[]float64{10.235, 11.3, 12.123, 13.456, 14.789}, "10.235000,11.300000,12.123000,13.456000,14.789000"},
{[]float64{10}, "10"},
}
for _, table := range tables {
val := s3s.aggFuncToStr(table.myAggVal)
if val != table.expected {
t.Error()
}
}
}
// TestMyRowColLiteralResults is a unit test which makes sure that the rows that
// are being printed are appropriate to the query being requested.
func TestMyRowColLiteralResults(t *testing.T) {
options := &Options{
HasHeader: false,
RecordDelimiter: "\n",
FieldDelimiter: ",",
Comments: "",
Name: "S3Object", // Default table name for all objects
ReadFrom: bytes.NewReader([]byte("Here , is, a, string + \n + random,random,stuff,stuff ")),
Compressed: "",
Expression: "",
OutputFieldDelimiter: ",",
StreamSize: 20,
HeaderOpt: true,
}
s3s, err := NewInput(options)
if err != nil {
t.Error(err)
}
tables := []struct {
myReq []string
myHeaders map[string]int
myDup map[string]bool
myLow map[string]int
myOpts *Options
tempList []string
input *Input
myRecord []string
myTarget string
columns []string
err error
}{
{[]string{"draft", "year"}, make(map[string]int), make(map[string]bool), make(map[string]int), options, []string{"draft", "year"}, s3s, []string{"target", "random", "hello", "stuff"}, "target,random", []string{"draft", "year", "random", "another"}, nil},
{[]string{"year", "draft"}, make(map[string]int), make(map[string]bool), make(map[string]int), options, []string{"year", "draft"}, s3s, []string{"draft", "2012", "thing", "stuff"}, "2012,draft", []string{"draft", "year", "random", "another"}, nil},
{[]string{"yearrandomstuff", "draft"}, make(map[string]int), make(map[string]bool), make(map[string]int), options, []string{"yearrandomstuff", "draft"}, s3s, []string{"draft", "2012", "thing", "stuff"}, "", []string{"draft", "year", "random", "another"}, ErrMissingHeaders},
{[]string{"draft", "randomstuff"}, make(map[string]int), make(map[string]bool), make(map[string]int), options, []string{"yearrandomstuff", "draft"}, s3s, []string{"draft", "2012", "thing", "stuff"}, "", []string{"draft", "year", "random", "another"}, ErrMissingHeaders},
}
for _, table := range tables {
checkForDuplicates(table.columns, table.myHeaders, table.myDup, table.myLow)
myRow, err := table.input.processColNameLiteral(table.myRecord, table.myReq, table.tempList, table.myHeaders, nil)
if err != table.err {
t.Error()
}
if myRow != table.myTarget {
t.Error()
}
}
}
// TestMyWhereEval is a function which provides unit tests for the function
// which evaluates the where clause.
func TestMyWhereEval(t *testing.T) {
columnsMap := make(map[string]int)
columnsMap["Col1"] = 0
columnsMap["Col2"] = 1
tables := []struct {
myQuery string
record []string
err error
expected bool
header []string
}{
{"SELECT * FROM S3OBJECT", []string{"record_1,record_2,record_3,record_4"}, nil, true, []string{"Col1", "Col2"}},
{"SELECT * FROM S3OBJECT WHERE Col1 < -1", []string{"0", "1"}, nil, false, []string{"Col1", "Col2"}},
{"SELECT * FROM S3OBJECT WHERE Col1 < -1 OR Col2 > 15", []string{"151", "12"}, nil, false, []string{"Col1", "Col2"}},
{"SELECT * FROM S3OBJECT WHERE Col1 > -1 AND Col2 > 15", []string{"151", "12"}, nil, false, []string{"Col1", "Col2"}},
{"SELECT * FROM S3OBJECT WHERE Col1 > 1.00", []string{"151.0000", "12"}, nil, true, []string{"Col1", "Col2"}},
{"SELECT * FROM S3OBJECT WHERE Col1 > 100", []string{"random", "12"}, nil, false, []string{"Col1", "Col2"}},
{"SELECT * FROM S3OBJECT WHERE Col1 BETWEEN 100 AND 0", []string{"151", "12"}, nil, false, []string{"Col1", "Col2"}},
{"SELECT * FROM S3OBJECT WHERE Col1 BETWEEN 100.0 AND 0.0", []string{"151", "12"}, nil, false, []string{"Col1", "Col2"}},
{"SELECT * FROM S3OBJECT AS A WHERE A.1 BETWEEN 160 AND 150", []string{"151", "12"}, nil, true, []string{"Col1", "Col2"}},
{"SELECT * FROM S3OBJECT AS A WHERE A._1 BETWEEN 160 AND 0", []string{"151", "12"}, nil, true, []string{"Col1", "Col2"}},
{"SELECT * FROM S3OBJECT AS A WHERE A._1 BETWEEN 0 AND 160", []string{"151", "12"}, nil, true, []string{"Col1", "Col2"}},
{"SELECT * FROM S3OBJECT A._1 LIKE 'r%'", []string{"record_1,record_2,record_3,record_4"}, nil, true, []string{"Col1", "Col2"}},
{"SELECT s._2 FROM S3Object s WHERE s._2 = 'Steven'", []string{"record_1", "Steven", "Steven", "record_4"}, nil, true, []string{"Col1", "Col2"}},
{"SELECT * FROM S3OBJECT AS A WHERE Col1 BETWEEN 0 AND 160", []string{"151", "12"}, nil, true, []string{"Col1", "Col2"}},
{"SELECT * FROM S3OBJECT AS A WHERE Col1 BETWEEN 160 AND 0", []string{"151", "12"}, nil, true, []string{"Col1", "Col2"}},
{"SELECT * FROM S3OBJECT AS A WHERE UPPER(Col1) BETWEEN 160 AND 0", []string{"151", "12"}, nil, true, []string{"Col1", "Col2"}},
{"SELECT * FROM S3OBJECT AS A WHERE UPPER(Col1) = 'RANDOM'", []string{"random", "12"}, nil, true, []string{"Col1", "Col2"}},
{"SELECT * FROM S3OBJECT AS A WHERE LOWER(UPPER(Col1) = 'random'", []string{"random", "12"}, nil, true, []string{"Col1", "Col2"}},
}
for _, table := range tables {
options := &Options{
HasHeader: false,
RecordDelimiter: "\n",
FieldDelimiter: ",",
Comments: "",
Name: "S3Object", // Default table name for all objects
ReadFrom: bytes.NewReader([]byte("name1,name2,name3,name4" + "\n" + "5,is,a,string" + "\n" + "random,random,stuff,stuff")),
Compressed: "",
Expression: "",
OutputFieldDelimiter: ",",
StreamSize: 20,
HeaderOpt: true,
}
s3s, err := NewInput(options)
s3s.header = table.header
if err != nil {
t.Error(err)
}
_, alias, _, whereClause, _, _, _ := s3s.ParseSelect(table.myQuery)
myVal, err := matchesMyWhereClause(table.record, columnsMap, alias, whereClause)
if table.err != err {
t.Error()
}
if myVal != table.expected {
t.Error()
}
}
}
// TestMyStringComparator is a unit test which ensures that the appropriate
// values are being compared for strings.
func TestMyStringComparator(t *testing.T) {
tables := []struct {
operand string
operator string
myVal string
expected bool
err error
}{
{"random", ">", "myName", "random" > "myName", nil},
{"12", "!=", "myName", "12" != "myName", nil},
{"12", "=", "myName", "12" == "myName", nil},
{"12", "<=", "myName", "12" <= "myName", nil},
{"12", ">=", "myName", "12" >= "myName", nil},
{"12", "<", "myName", "12" < "myName", nil},
{"name", "like", "_x%", false, nil},
{"12", "randomoperator", "myName", false, ErrUnsupportedSyntax},
}
for _, table := range tables {
myVal, err := stringEval(table.operand, table.operator, table.myVal)
if err != table.err {
t.Error()
}
if myVal != table.expected {
t.Error()
}
}
}
// TestMyFloatComparator is a unit test which ensures that the appropriate
// values are being compared for floats.
func TestMyFloatComparator(t *testing.T) {
tables := []struct {
operand float64
operator string
myVal float64
expected bool
err error
}{
{12.000, ">", 13.000, 12.000 > 13.000, nil},
{1000.000, "!=", 1000.000, 1000.000 != 1000.000, nil},
{1000.000, "<", 1000.000, 1000.000 < 1000.000, nil},
{1000.000, "<=", 1000.000, 1000.000 <= 1000.000, nil},
{1000.000, ">=", 1000.000, 1000.000 >= 1000.000, nil},
{1000.000, "=", 1000.000, 1000.000 == 1000.000, nil},
{17.000, "randomoperator", 0.0, false, ErrUnsupportedSyntax},
}
for _, table := range tables {
myVal, err := floatEval(table.operand, table.operator, table.myVal)
if err != table.err {
t.Error()
}
if myVal != table.expected {
t.Error()
}
}
}
// TestMyIntComparator is a unit test which ensures that the appropriate values
// are being compared for ints.
func TestMyIntComparator(t *testing.T) {
tables := []struct {
operand int64
operator string
myVal int64
expected bool
err error
}{
{12, ">", 13, 12.000 > 13.000, nil},
{1000, "!=", 1000, 1000.000 != 1000.000, nil},
{1000, "<", 1000, 1000.000 < 1000.000, nil},
{1000, "<=", 1000, 1000.000 <= 1000.000, nil},
{1000, ">=", 1000, 1000.000 >= 1000.000, nil},
{1000, "=", 1000, 1000.000 >= 1000.000, nil},
{17, "randomoperator", 0, false, ErrUnsupportedSyntax},
}
for _, table := range tables {
myVal, err := intEval(table.operand, table.operator, table.myVal)
if err != table.err {
t.Error()
}
if myVal != table.expected {
t.Error()
}
}
}
// TestMySizeFunction is a function which provides unit testing for the function
// which calculates size.
func TestMySizeFunction(t *testing.T) {
tables := []struct {
myRecord []string
expected int64
}{
{[]string{"test1", "test2", "test3", "test4", "test5"}, 30},
}
for _, table := range tables {
if processSize(table.myRecord) != table.expected {
t.Error()
}
}
}
// TestInterpreter is a function which provides unit testing for the main
// interpreter function.
func TestInterpreter(t *testing.T) {
tables := []struct {
myQuery string
myChan chan *Row
err error
header []string
}{
{"Select random from S3OBJECT", make(chan *Row), ErrMissingHeaders, []string{"name1", "name2", "name3", "name4"}},
{"Select * from S3OBJECT as A WHERE name2 > 5.00", make(chan *Row), nil, []string{"name1", "name2", "name3", "name4"}},
{"Select * from S3OBJECT", make(chan *Row), nil, []string{"name1", "name2", "name3", "name4"}},
{"Select A_1 from S3OBJECT as A", make(chan *Row), nil, []string{"1", "2", "3", "4"}},
{"Select count(*) from S3OBJECT", make(chan *Row), nil, []string{"name1", "name2", "name3", "name4"}},
{"Select * from S3OBJECT WHERE name1 > 5.00", make(chan *Row), nil, []string{"name1", "name2", "name3", "name4"}},
}
for _, table := range tables {
options := &Options{
HasHeader: false,
RecordDelimiter: "\n",
FieldDelimiter: ",",
Comments: "",
Name: "S3Object", // Default table name for all objects
ReadFrom: bytes.NewReader([]byte("name1,name2,name3,name4" + "\n" + "5,is,a,string" + "\n" + "random,random,stuff,stuff")),
Compressed: "",
Expression: "",
OutputFieldDelimiter: ",",
StreamSize: 20,
HeaderOpt: true,
}
s3s, err := NewInput(options)
if err != nil {
t.Error(err)
}
s3s.header = table.header
reqCols, alias, myLimit, whereClause, aggFunctionNames, _, err := s3s.ParseSelect(table.myQuery)
if err != table.err {
t.Fatal()
}
if err == nil {
go s3s.processSelectReq(reqCols, alias, whereClause, myLimit, aggFunctionNames, table.myChan, nil)
select {
case row, ok := <-table.myChan:
if ok && len(row.record) > 0 {
} else if ok && row.err != nil {
if row.err != table.err {
t.Error()
}
close(table.myChan)
} else if !ok {
}
}
}
}
}
// TestMyXMLFunction is a function that provides unit testing for the XML
// creating function.
func TestMyXMLFunction(t *testing.T) {
options := &Options{
HasHeader: false,
RecordDelimiter: "\n",
FieldDelimiter: ",",
Comments: "",
Name: "S3Object", // Default table name for all objects
ReadFrom: bytes.NewReader([]byte("name1,name2,name3,name4" + "\n" + "5,is,a,string" + "\n" + "random,random,stuff,stuff")),
Compressed: "",
Expression: "",
OutputFieldDelimiter: ",",
StreamSize: 20,
HeaderOpt: true,
}
s3s, err := NewInput(options)
if err != nil {
t.Error(err)
}
tables := []struct {
expectedStat int
expectedProgress int
}{
{150, 156},
}
for _, table := range tables {
myVal, _ := s3s.createStatXML()
myOtherVal, _ := s3s.createProgressXML()
if len(myVal) != table.expectedStat {
t.Error()
}
if len(myOtherVal) != table.expectedProgress {
fmt.Println(len(myOtherVal))
t.Error()
}
}
}
// TestMyProtocolFunction is a function which provides unit testing for several
// of the functions which write the binary protocol.
func TestMyProtocolFunction(t *testing.T) {
options := &Options{
HasHeader: false,
RecordDelimiter: "\n",
FieldDelimiter: ",",
Comments: "",
Name: "S3Object", // Default table name for all objects
ReadFrom: bytes.NewReader([]byte("name1,name2,name3,name4" + "\n" + "5,is,a,string" + "\n" + "random,random,stuff,stuff")),
Compressed: "",
Expression: "",
OutputFieldDelimiter: ",",
StreamSize: 20,
HeaderOpt: true,
}
s3s, err := NewInput(options)
if err != nil {
t.Error(err)
}
tables := []struct {
payloadMsg string
expectedRecord int
expectedEnd int
}{
{"random payload", 115, 56},
}
for _, table := range tables {
var currentMessage = &bytes.Buffer{}
if len(s3s.writeRecordMessage(table.payloadMsg, currentMessage).Bytes()) != table.expectedRecord {
t.Error()
}
currentMessage.Reset()
if len(s3s.writeEndMessage(currentMessage).Bytes()) != table.expectedEnd {
t.Error()
}
currentMessage.Reset()
if len(s3s.writeContinuationMessage(currentMessage).Bytes()) != 57 {
t.Error()
}
currentMessage.Reset()
}
}
// TestMyInfoProtocolFunctions is a function which provides unit testing for the
// stat and progress messages of the protocols.
func TestMyInfoProtocolFunctions(t *testing.T) {
options := &Options{
HasHeader: true,
RecordDelimiter: "\n",
FieldDelimiter: ",",
Comments: "",
Name: "S3Object", // Default table name for all objects
ReadFrom: bytes.NewReader([]byte("name1,name2,name3,name4" + "\n" + "5,is,a,string" + "\n" + "random,random,stuff,stuff")),
Compressed: "",
Expression: "",
OutputFieldDelimiter: ",",
StreamSize: 20,
}
s3s, err := NewInput(options)
if err != nil {
t.Error(err)
}
myVal, _ := s3s.createStatXML()
myOtherVal, _ := s3s.createProgressXML()
tables := []struct {
payloadStatMsg string
payloadProgressMsg string
expectedStat int
expectedProgress int
}{
{myVal, myOtherVal, 233, 243},
}
for _, table := range tables {
var currBuf = &bytes.Buffer{}
if len(s3s.writeStatMessage(table.payloadStatMsg, currBuf).Bytes()) != table.expectedStat {
t.Error()
}
currBuf.Reset()
if len(s3s.writeProgressMessage(table.payloadProgressMsg, currBuf).Bytes()) != table.expectedProgress {
t.Error()
}
}
}
// TestMyErrorProtocolFunctions is a function which provides unit testing for
// the error message type of protocol.
func TestMyErrorProtocolFunctions(t *testing.T) {
options := &Options{
HasHeader: false,
RecordDelimiter: "\n",
FieldDelimiter: ",",
Comments: "",
Name: "S3Object", // Default table name for all objects
ReadFrom: bytes.NewReader([]byte("name1,name2,name3,name4" + "\n" + "5,is,a,string" + "\n" + "random,random,stuff,stuff")),
Compressed: "",
Expression: "",
OutputFieldDelimiter: ",",
StreamSize: 20,
HeaderOpt: true,
}
s3s, err := NewInput(options)
if err != nil {
t.Error(err)
}
tables := []struct {
err error
expectedError int
}{
{ErrInvalidCast, 248},
{ErrTruncatedInput, 200},
{ErrUnsupportedSyntax, 114},
{ErrCSVParsingError, 157},
}
for _, table := range tables {
var currentMessage = &bytes.Buffer{}
if len(s3s.writeErrorMessage(table.err, currentMessage).Bytes()) != table.expectedError {
t.Error()
}
}
}
func TestMatch(t *testing.T) {
testCases := []struct {
pattern string
text string
matched bool
}{
// Test case - 1.
// Test case so that the match occurs on the opening letter.
{
pattern: "a%",
text: "apple",
matched: true,
},
// Test case - 2.
// Test case so that the ending letter is true.
{
pattern: "%m",
text: "random",
matched: true,
},
// Test case - 3.
// Test case so that a character is at the appropriate position.
{
pattern: "_d%",
text: "adam",
matched: true,
},
// Test case - 4.
// Test case so that a character is at the appropriate position.
{
pattern: "_d%",
text: "apple",
matched: false,
},
// Test case - 5.
// Test case with checking that it is at least 3 in length
{
pattern: "a_%_%",
text: "ap",
matched: false,
},
{
pattern: "a_%_%",
text: "apple",
matched: true,
},
{
pattern: "%or%",
text: "orphan",
matched: true,
},
{
pattern: "%or%",
text: "dolphin",
matched: false,
},
{
pattern: "%or%",
text: "dorlphin",
matched: true,
},
{
pattern: "2__3",
text: "2003",
matched: true,
},
{
pattern: "_YYYY_",
text: "aYYYYa",
matched: true,
},
{
pattern: "C%",
text: "CA",
matched: true,
},
{
pattern: "C%",
text: "SC",
matched: false,
},
{
pattern: "%C",
text: "SC",
matched: true,
},
{
pattern: "%C",
text: "CA",
matched: false,
},
{
pattern: "%C",
text: "ACCC",
matched: true,
},
{
pattern: "C%",
text: "CCC",
matched: true,
},
{
pattern: "j%",
text: "mejri",
matched: false,
},
{
pattern: "a%o",
text: "ando",
matched: true,
},
{
pattern: "%j",
text: "mejri",
matched: false,
},
{
pattern: "%ja",
text: "mejrija",
matched: true,
},
{
pattern: "ja%",
text: "jamal",
matched: true,
},
{
pattern: "a%o",
text: "andp",
matched: false,
},
{
pattern: "_r%",
text: "arpa",
matched: true,
},
{
pattern: "_r%",
text: "apra",
matched: false,
},
{
pattern: "a_%_%",
text: "appple",
matched: true,
},
{
pattern: "l_b%",
text: "lebron",
matched: true,
},
{
pattern: "leb%",
text: "Dalembert",
matched: false,
},
{
pattern: "leb%",
text: "Landesberg",
matched: false,
},
{
pattern: "leb%",
text: "Mccalebb",
matched: false,
},
{
pattern: "%lebb",
text: "Mccalebb",
matched: true,
},
}
// Iterating over the test cases, call the function under test and asert the output.
for i, testCase := range testCases {
actualResult, err := likeConvert(testCase.pattern, testCase.text)
if err != nil {
t.Error()
}
if testCase.matched != actualResult {
fmt.Println("Expected Pattern", testCase.pattern, "Expected Text", testCase.text)
t.Errorf("Test %d: Expected the result to be `%v`, but instead found it to be `%v`", i+1, testCase.matched, actualResult)
}
}
}
// TestMyValids is a unit test which ensures that the appropriate values are
// being returned from the isValid... functions.
func TestMyValids(t *testing.T) {
tables := []struct {
myQuery string
indexList []int
myIndex int
myValIndex bool
header []string
err error
}{
{"SELECT UPPER(NULLIF(draft_year,random_name))", []int{3, 5, 6, 7, 8, 9}, 3, true, []string{"draft_year", "random_name"}, nil},
{"SELECT UPPER(NULLIF(draft_year,xandom_name))", []int{3, 5, 6, 7, 8, 9}, 3, true, []string{"draft_year", "random_name"}, ErrMissingHeaders},
}
for _, table := range tables {
options := &Options{
HasHeader: false,
RecordDelimiter: "\n",
FieldDelimiter: ",",
Comments: "",
Name: "S3Object", // Default table name for all objects
ReadFrom: bytes.NewReader([]byte("name1,name2,name3,name4" + "\n" + "5,is,a,string" + "\n" + "random,random,stuff,stuff")),
Compressed: "",
Expression: "",
OutputFieldDelimiter: ",",
StreamSize: 20,
HeaderOpt: true,
}
s3s, err := NewInput(options)
if err != nil {
t.Error(err)
}
s3s.header = table.header
_, _, _, _, _, _, err = s3s.ParseSelect(table.myQuery)
if err != table.err {
t.Fatal()
}
myVal := isValidFunc(table.indexList, table.myIndex)
if myVal != table.myValIndex {
t.Error()
}
}
}
// TestMyFuncProcessing is a unit test which ensures that the appropriate values are
// being returned from the Processing... functions.
func TestMyFuncProcessing(t *testing.T) {
tables := []struct {
myString string
nullList []string
coalList []string
myValString string
myValCoal string
myValNull string
stringFunc string
}{
{"lower", []string{"yo", "yo"}, []string{"random", "hello", "random"}, "LOWER", "random", "", "UPPER"},
{"LOWER", []string{"null", "random"}, []string{"missing", "hello", "random"}, "lower", "hello", "null", "LOWER"},
}
for _, table := range tables {
if table.coalList != nil {
myVal := processCoalNoIndex(table.coalList)
if myVal != table.myValCoal {
t.Error()
}
}
if table.nullList != nil {
myVal := processNullIf(table.nullList)
if myVal != table.myValNull {
t.Error()
}
}
myVal := applyStrFunc(table.myString, table.stringFunc)
if myVal != table.myValString {
t.Error()
}
}
}