Add support for Timestamp data type in SQL Select (#7185)

This change adds support for casting strings to Timestamp via CAST:
`CAST('2010T' AS TIMESTAMP)`

It also implements the following date-time functions:
  - UTCNOW()
  - DATE_ADD()
  - DATE_DIFF()
  - EXTRACT()

For values passed to these functions, date-types are automatically
inferred.
master
Aditya Manthramurthy 6 years ago committed by kannappanr
parent ea6d61ab1f
commit f04f8bbc78
  1. 4
      docs/select/README.md
  2. 2
      pkg/s3select/json/record.go
  3. 15
      pkg/s3select/sql/analysis.go
  4. 7
      pkg/s3select/sql/evaluate.go
  5. 186
      pkg/s3select/sql/funceval.go
  6. 18
      pkg/s3select/sql/parser.go
  7. 1
      pkg/s3select/sql/statement.go
  8. 199
      pkg/s3select/sql/timestampfuncs.go
  9. 60
      pkg/s3select/sql/timestampfuncs_test.go
  10. 57
      pkg/s3select/sql/value.go

@ -103,6 +103,6 @@ For a more detailed SELECT SQL reference, please see [here](https://docs.aws.ama
- All [operators](https://docs.aws.amazon.com/AmazonS3/latest/dev/s3-glacier-select-sql-reference-operators.html) are supported. - All [operators](https://docs.aws.amazon.com/AmazonS3/latest/dev/s3-glacier-select-sql-reference-operators.html) are supported.
- All aggregation, conditional, type-conversion and string functions are supported. - All aggregation, conditional, type-conversion and string functions are supported.
- JSON path expressions such as `FROM S3Object[*].path` are not yet evaluated. - JSON path expressions such as `FROM S3Object[*].path` are not yet evaluated.
- Large numbers (more than 64-bit) are not yet supported. - Large numbers (outside of the signed 64-bit range) are not yet supported.
- Date [functions](https://docs.aws.amazon.com/AmazonS3/latest/dev/s3-glacier-select-sql-reference-date.html) are not yet supported (EXTRACT, DATE_DIFF, etc). - The Date [functions](https://docs.aws.amazon.com/AmazonS3/latest/dev/s3-glacier-select-sql-reference-date.html) `DATE_ADD`, `DATE_DIFF`, `EXTRACT` and `UTCNOW` along with type conversion using `CAST` to the `TIMESTAMP` data type are currently supported.
- AWS S3's [reserved keywords](https://docs.aws.amazon.com/AmazonS3/latest/dev/s3-glacier-select-sql-reference-keyword-list.html) list is not yet respected. - AWS S3's [reserved keywords](https://docs.aws.amazon.com/AmazonS3/latest/dev/s3-glacier-select-sql-reference-keyword-list.html) list is not yet respected.

@ -60,6 +60,8 @@ func (r *Record) Set(name string, value *sql.Value) (err error) {
v = f v = f
} else if i, ok := value.ToInt(); ok { } else if i, ok := value.ToInt(); ok {
v = i v = i
} else if t, ok := value.ToTimestamp(); ok {
v = sql.FormatSQLTimestamp(t)
} else if s, ok := value.ToString(); ok { } else if s, ok := value.ToString(); ok {
v = s v = s
} else if value.IsNull() { } else if value.IsNull() {

@ -201,6 +201,16 @@ func (e *FuncExpr) analyze(s *Select) (result qProp) {
case sqlFnExtract: case sqlFnExtract:
return e.Extract.From.analyze(s) return e.Extract.From.analyze(s)
case sqlFnDateAdd:
result.combine(e.DateAdd.Quantity.analyze(s))
result.combine(e.DateAdd.Timestamp.analyze(s))
return result
case sqlFnDateDiff:
result.combine(e.DateDiff.Timestamp1.analyze(s))
result.combine(e.DateDiff.Timestamp2.analyze(s))
return result
// Handle aggregation function calls // Handle aggregation function calls
case aggFnAvg, aggFnMax, aggFnMin, aggFnSum, aggFnCount: case aggFnAvg, aggFnMax, aggFnMin, aggFnSum, aggFnCount:
// Initialize accumulator // Initialize accumulator
@ -283,6 +293,11 @@ func (e *FuncExpr) analyze(s *Select) (result qProp) {
} }
return result return result
case sqlFnUTCNow:
if len(e.SFunc.ArgsList) != 0 {
result.err = fmt.Errorf("%s() takes no arguments", string(funcName))
}
return result
} }
// TODO: implement other functions // TODO: implement other functions

@ -305,10 +305,9 @@ func (e *UnaryTerm) evalNode(r Record) (*Value, error) {
} }
inferTypeForArithOp(v) inferTypeForArithOp(v)
if ival, ok := v.ToInt(); ok { v.negate()
return FromInt(-ival), nil if v.isNumeric() {
} else if fval, ok := v.ToFloat(); ok { return v, nil
return FromFloat(-fval), nil
} }
return nil, errArithMismatchedTypes return nil, errArithMismatchedTypes
} }

@ -21,6 +21,7 @@ import (
"fmt" "fmt"
"strconv" "strconv"
"strings" "strings"
"time"
) )
// FuncName - SQL function name. // FuncName - SQL function name.
@ -52,21 +53,10 @@ const (
sqlFnUpper FuncName = "UPPER" sqlFnUpper FuncName = "UPPER"
) )
// Allowed cast types
const (
castBool = "BOOL"
castInt = "INT"
castInteger = "INTEGER"
castString = "STRING"
castFloat = "FLOAT"
castDecimal = "DECIMAL"
castNumeric = "NUMERIC"
castTimestamp = "TIMESTAMP"
)
var ( var (
errUnimplementedCast = errors.New("This cast not yet implemented") errUnimplementedCast = errors.New("This cast not yet implemented")
errNonStringTrimArg = errors.New("TRIM() received a non-string argument") errNonStringTrimArg = errors.New("TRIM() received a non-string argument")
errNonTimestampArg = errors.New("Expected a timestamp argument")
) )
func (e *FuncExpr) getFunctionName() FuncName { func (e *FuncExpr) getFunctionName() FuncName {
@ -83,6 +73,10 @@ func (e *FuncExpr) getFunctionName() FuncName {
return sqlFnExtract return sqlFnExtract
case e.Trim != nil: case e.Trim != nil:
return sqlFnTrim return sqlFnTrim
case e.DateAdd != nil:
return sqlFnDateAdd
case e.DateDiff != nil:
return sqlFnDateDiff
default: default:
return "" return ""
} }
@ -102,10 +96,17 @@ func (e *FuncExpr) evalSQLFnNode(r Record) (res *Value, err error) {
return handleSQLSubstring(r, e.Substring) return handleSQLSubstring(r, e.Substring)
case sqlFnExtract: case sqlFnExtract:
return nil, errNotImplemented return handleSQLExtract(r, e.Extract)
case sqlFnTrim: case sqlFnTrim:
return handleSQLTrim(r, e.Trim) return handleSQLTrim(r, e.Trim)
case sqlFnDateAdd:
return handleDateAdd(r, e.DateAdd)
case sqlFnDateDiff:
return handleDateDiff(r, e.DateDiff)
} }
// For all simple argument functions, we evaluate the arguments here // For all simple argument functions, we evaluate the arguments here
@ -119,30 +120,33 @@ func (e *FuncExpr) evalSQLFnNode(r Record) (res *Value, err error) {
switch e.getFunctionName() { switch e.getFunctionName() {
case sqlFnCoalesce: case sqlFnCoalesce:
return coalesce(r, argVals) return coalesce(argVals)
case sqlFnNullIf: case sqlFnNullIf:
return nullif(r, argVals[0], argVals[1]) return nullif(argVals[0], argVals[1])
case sqlFnCharLength, sqlFnCharacterLength: case sqlFnCharLength, sqlFnCharacterLength:
return charlen(r, argVals[0]) return charlen(argVals[0])
case sqlFnLower: case sqlFnLower:
return lowerCase(r, argVals[0]) return lowerCase(argVals[0])
case sqlFnUpper: case sqlFnUpper:
return upperCase(r, argVals[0]) return upperCase(argVals[0])
case sqlFnUTCNow:
return handleUTCNow()
case sqlFnDateAdd, sqlFnDateDiff, sqlFnToString, sqlFnToTimestamp, sqlFnUTCNow: case sqlFnToString, sqlFnToTimestamp:
// TODO: implement // TODO: implement
fallthrough fallthrough
default: default:
return nil, errInvalidASTNode return nil, errNotImplemented
} }
} }
func coalesce(r Record, args []*Value) (res *Value, err error) { func coalesce(args []*Value) (res *Value, err error) {
for _, arg := range args { for _, arg := range args {
if arg.IsNull() { if arg.IsNull() {
continue continue
@ -152,7 +156,7 @@ func coalesce(r Record, args []*Value) (res *Value, err error) {
return FromNull(), nil return FromNull(), nil
} }
func nullif(r Record, v1, v2 *Value) (res *Value, err error) { func nullif(v1, v2 *Value) (res *Value, err error) {
// Handle Null cases // Handle Null cases
if v1.IsNull() || v2.IsNull() { if v1.IsNull() || v2.IsNull() {
return v1, nil return v1, nil
@ -185,7 +189,7 @@ func nullif(r Record, v1, v2 *Value) (res *Value, err error) {
return v1, nil return v1, nil
} }
func charlen(r Record, v *Value) (*Value, error) { func charlen(v *Value) (*Value, error) {
inferTypeAsString(v) inferTypeAsString(v)
s, ok := v.ToString() s, ok := v.ToString()
if !ok { if !ok {
@ -195,7 +199,7 @@ func charlen(r Record, v *Value) (*Value, error) {
return FromInt(int64(len(s))), nil return FromInt(int64(len(s))), nil
} }
func lowerCase(r Record, v *Value) (*Value, error) { func lowerCase(v *Value) (*Value, error) {
inferTypeAsString(v) inferTypeAsString(v)
s, ok := v.ToString() s, ok := v.ToString()
if !ok { if !ok {
@ -205,7 +209,7 @@ func lowerCase(r Record, v *Value) (*Value, error) {
return FromString(strings.ToLower(s)), nil return FromString(strings.ToLower(s)), nil
} }
func upperCase(r Record, v *Value) (*Value, error) { func upperCase(v *Value) (*Value, error) {
inferTypeAsString(v) inferTypeAsString(v)
s, ok := v.ToString() s, ok := v.ToString()
if !ok { if !ok {
@ -215,6 +219,58 @@ func upperCase(r Record, v *Value) (*Value, error) {
return FromString(strings.ToUpper(s)), nil return FromString(strings.ToUpper(s)), nil
} }
func handleDateAdd(r Record, d *DateAddFunc) (*Value, error) {
q, err := d.Quantity.evalNode(r)
if err != nil {
return nil, err
}
inferTypeForArithOp(q)
qty, ok := q.ToFloat()
if !ok {
return nil, fmt.Errorf("QUANTITY must be a numeric argument to %s()", sqlFnDateAdd)
}
ts, err := d.Timestamp.evalNode(r)
if err != nil {
return nil, err
}
inferTypeAsTimestamp(ts)
t, ok := ts.ToTimestamp()
if !ok {
return nil, fmt.Errorf("%s() expects a timestamp argument", sqlFnDateAdd)
}
return dateAdd(strings.ToUpper(d.DatePart), qty, t)
}
func handleDateDiff(r Record, d *DateDiffFunc) (*Value, error) {
tval1, err := d.Timestamp1.evalNode(r)
if err != nil {
return nil, err
}
inferTypeAsTimestamp(tval1)
ts1, ok := tval1.ToTimestamp()
if !ok {
return nil, fmt.Errorf("%s() expects two timestamp arguments", sqlFnDateDiff)
}
tval2, err := d.Timestamp2.evalNode(r)
if err != nil {
return nil, err
}
inferTypeAsTimestamp(tval2)
ts2, ok := tval2.ToTimestamp()
if !ok {
return nil, fmt.Errorf("%s() expects two timestamp arguments", sqlFnDateDiff)
}
return dateDiff(strings.ToUpper(d.DatePart), ts1, ts2)
}
func handleUTCNow() (*Value, error) {
return FromTimestamp(time.Now().UTC()), nil
}
func handleSQLSubstring(r Record, e *SubstringFunc) (val *Value, err error) { func handleSQLSubstring(r Record, e *SubstringFunc) (val *Value, err error) {
// Both forms `SUBSTRING('abc' FROM 2 FOR 1)` and // Both forms `SUBSTRING('abc' FROM 2 FOR 1)` and
// SUBSTRING('abc', 2, 1) are supported. // SUBSTRING('abc', 2, 1) are supported.
@ -301,6 +357,22 @@ func handleSQLTrim(r Record, e *TrimFunc) (res *Value, err error) {
return FromString(result), nil return FromString(result), nil
} }
func handleSQLExtract(r Record, e *ExtractFunc) (res *Value, err error) {
timeVal, verr := e.From.evalNode(r)
if verr != nil {
return nil, verr
}
inferTypeAsTimestamp(timeVal)
t, ok := timeVal.ToTimestamp()
if !ok {
return nil, errNonTimestampArg
}
return extract(strings.ToUpper(e.Timeword), t)
}
func errUnsupportedCast(fromType, toType string) error { func errUnsupportedCast(fromType, toType string) error {
return fmt.Errorf("Cannot cast from %v to %v", fromType, toType) return fmt.Errorf("Cannot cast from %v to %v", fromType, toType)
} }
@ -309,12 +381,23 @@ func errCastFailure(msg string) error {
return fmt.Errorf("Error casting: %s", msg) return fmt.Errorf("Error casting: %s", msg)
} }
// Allowed cast types
const (
castBool = "BOOL"
castInt = "INT"
castInteger = "INTEGER"
castString = "STRING"
castFloat = "FLOAT"
castDecimal = "DECIMAL"
castNumeric = "NUMERIC"
castTimestamp = "TIMESTAMP"
)
func (e *Expression) castTo(r Record, castType string) (res *Value, err error) { func (e *Expression) castTo(r Record, castType string) (res *Value, err error) {
v, err := e.evalNode(r) v, err := e.evalNode(r)
if err != nil { if err != nil {
return nil, err return nil, err
} }
fmt.Println("Cast to ", castType)
switch castType { switch castType {
case castInt, castInteger: case castInt, castInteger:
@ -329,7 +412,15 @@ func (e *Expression) castTo(r Record, castType string) (res *Value, err error) {
s, err := stringCast(v) s, err := stringCast(v)
return FromString(s), err return FromString(s), err
case castBool, castDecimal, castNumeric, castTimestamp: case castTimestamp:
t, err := timestampCast(v)
return FromTimestamp(t), err
case castBool:
b, err := boolCast(v)
return FromBool(b), err
case castDecimal, castNumeric:
fallthrough fallthrough
default: default:
@ -431,3 +522,44 @@ func stringCast(v *Value) (string, error) {
// This does not happen // This does not happen
return "", nil return "", nil
} }
func timestampCast(v *Value) (t time.Time, _ error) {
switch v.vType {
case typeString:
s, _ := v.ToString()
return parseSQLTimestamp(s)
case typeBytes:
b, _ := v.ToBytes()
return parseSQLTimestamp(string(b))
case typeTimestamp:
t, _ = v.ToTimestamp()
return t, nil
default:
return t, errCastFailure(fmt.Sprintf("cannot cast %v to Timestamp type", v.GetTypeString()))
}
}
func boolCast(v *Value) (b bool, _ error) {
sToB := func(s string) (bool, error) {
if s == "true" {
return true, nil
} else if s == "false" {
return false, nil
} else {
return false, errCastFailure("cannot cast to Bool")
}
}
switch v.vType {
case typeBool:
b, _ := v.ToBool()
return b, nil
case typeString:
s, _ := v.ToString()
return sToB(strings.ToLower(s))
case typeBytes:
b, _ := v.ToBytes()
return sToB(strings.ToLower(string(b)))
default:
return false, errCastFailure("cannot cast %v to Bool")
}
}

@ -247,6 +247,8 @@ type FuncExpr struct {
Substring *SubstringFunc `parser:"| @@"` Substring *SubstringFunc `parser:"| @@"`
Extract *ExtractFunc `parser:"| @@"` Extract *ExtractFunc `parser:"| @@"`
Trim *TrimFunc `parser:"| @@"` Trim *TrimFunc `parser:"| @@"`
DateAdd *DateAddFunc `parser:"| @@"`
DateDiff *DateDiffFunc `parser:"| @@"`
// Used during evaluation for aggregation funcs // Used during evaluation for aggregation funcs
aggregate *aggVal aggregate *aggVal
@ -255,7 +257,7 @@ type FuncExpr struct {
// SimpleArgFunc represents functions with simple expression // SimpleArgFunc represents functions with simple expression
// arguments. // arguments.
type SimpleArgFunc struct { type SimpleArgFunc struct {
FunctionName string `parser:" @(\"AVG\" | \"MAX\" | \"MIN\" | \"SUM\" | \"COALESCE\" | \"NULLIF\" | \"DATE_ADD\" | \"DATE_DIFF\" | \"TO_STRING\" | \"TO_TIMESTAMP\" | \"UTCNOW\" | \"CHAR_LENGTH\" | \"CHARACTER_LENGTH\" | \"LOWER\" | \"UPPER\") "` FunctionName string `parser:" @(\"AVG\" | \"MAX\" | \"MIN\" | \"SUM\" | \"COALESCE\" | \"NULLIF\" | \"TO_STRING\" | \"TO_TIMESTAMP\" | \"UTCNOW\" | \"CHAR_LENGTH\" | \"CHARACTER_LENGTH\" | \"LOWER\" | \"UPPER\") "`
ArgsList []*Expression `parser:"\"(\" (@@ (\",\" @@)*)?\")\""` ArgsList []*Expression `parser:"\"(\" (@@ (\",\" @@)*)?\")\""`
} }
@ -294,6 +296,20 @@ type TrimFunc struct {
TrimFrom *PrimaryTerm `parser:" \"FROM\" )? @@ \")\" "` TrimFrom *PrimaryTerm `parser:" \"FROM\" )? @@ \")\" "`
} }
// DateAddFunc represents the DATE_ADD function
type DateAddFunc struct {
DatePart string `parser:" \"DATE_ADD\" \"(\" @( \"YEAR\":Timeword | \"MONTH\":Timeword | \"DAY\":Timeword | \"HOUR\":Timeword | \"MINUTE\":Timeword | \"SECOND\":Timeword ) \",\""`
Quantity *Operand `parser:" @@ \",\""`
Timestamp *PrimaryTerm `parser:" @@ \")\""`
}
// DateDiffFunc represents the DATE_DIFF function
type DateDiffFunc struct {
DatePart string `parser:" \"DATE_DIFF\" \"(\" @( \"YEAR\":Timeword | \"MONTH\":Timeword | \"DAY\":Timeword | \"HOUR\":Timeword | \"MINUTE\":Timeword | \"SECOND\":Timeword ) \",\" "`
Timestamp1 *PrimaryTerm `parser:" @@ \",\" "`
Timestamp2 *PrimaryTerm `parser:" @@ \")\" "`
}
// LitValue represents a literal value parsed from the sql // LitValue represents a literal value parsed from the sql
type LitValue struct { type LitValue struct {
Number *float64 `parser:"( @Number"` Number *float64 `parser:"( @Number"`

@ -84,7 +84,6 @@ func ParseSelectStatement(s string) (stmt SelectStatement, err error) {
stmt.selectQProp = selectAST.Expression.analyze(&selectAST) stmt.selectQProp = selectAST.Expression.analyze(&selectAST)
err = stmt.selectQProp.err err = stmt.selectQProp.err
if err != nil { if err != nil {
fmt.Println("Got Analysis err:", err)
err = errQueryAnalysisFailure(err) err = errQueryAnalysisFailure(err)
} }
return return

@ -0,0 +1,199 @@
/*
* 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 (
"time"
)
const (
layoutYear = "2006T"
layoutMonth = "2006-01T"
layoutDay = "2006-01-02T"
layoutMinute = "2006-01-02T15:04Z07:00"
layoutSecond = "2006-01-02T15:04:05Z07:00"
layoutNanosecond = "2006-01-02T15:04:05.999999999Z07:00"
)
var (
tformats = []string{
layoutYear,
layoutMonth,
layoutDay,
layoutMinute,
layoutSecond,
layoutNanosecond,
}
oneNanoSecond = 1
)
func parseSQLTimestamp(s string) (t time.Time, err error) {
for _, f := range tformats {
t, err = time.Parse(f, s)
if err == nil {
break
}
}
return
}
// FormatSQLTimestamp - returns the a string representation of the
// timestamp as used in S3 Select
func FormatSQLTimestamp(t time.Time) string {
_, zoneOffset := t.Zone()
hasZone := zoneOffset != 0
hasFracSecond := t.Nanosecond() != 0
hasSecond := t.Second() != 0
hasTime := t.Hour() != 0 || t.Minute() != 0
hasDay := t.Day() != 1
hasMonth := t.Month() != 1
switch {
case hasFracSecond:
return t.Format(layoutNanosecond)
case hasSecond:
return t.Format(layoutSecond)
case hasTime || hasZone:
return t.Format(layoutMinute)
case hasDay:
return t.Format(layoutDay)
case hasMonth:
return t.Format(layoutMonth)
default:
return t.Format(layoutYear)
}
}
const (
timePartYear = "YEAR"
timePartMonth = "MONTH"
timePartDay = "DAY"
timePartHour = "HOUR"
timePartMinute = "MINUTE"
timePartSecond = "SECOND"
timePartTimezoneHour = "TIMEZONE_HOUR"
timePartTimezoneMinute = "TIMEZONE_MINUTE"
)
func extract(what string, t time.Time) (v *Value, err error) {
switch what {
case timePartYear:
return FromInt(int64(t.Year())), nil
case timePartMonth:
return FromInt(int64(t.Month())), nil
case timePartDay:
return FromInt(int64(t.Day())), nil
case timePartHour:
return FromInt(int64(t.Hour())), nil
case timePartMinute:
return FromInt(int64(t.Minute())), nil
case timePartSecond:
return FromInt(int64(t.Second())), nil
case timePartTimezoneHour:
_, zoneOffset := t.Zone()
return FromInt(int64(zoneOffset / 3600)), nil
case timePartTimezoneMinute:
_, zoneOffset := t.Zone()
return FromInt(int64((zoneOffset % 3600) / 60)), nil
default:
// This does not happen
return nil, errNotImplemented
}
}
func dateAdd(timePart string, qty float64, t time.Time) (*Value, error) {
var duration time.Duration
switch timePart {
case timePartYear:
return FromTimestamp(t.AddDate(int(qty), 0, 0)), nil
case timePartMonth:
return FromTimestamp(t.AddDate(0, int(qty), 0)), nil
case timePartDay:
return FromTimestamp(t.AddDate(0, 0, int(qty))), nil
case timePartHour:
duration = time.Duration(qty) * time.Hour
case timePartMinute:
duration = time.Duration(qty) * time.Minute
case timePartSecond:
duration = time.Duration(qty) * time.Second
default:
return nil, errNotImplemented
}
return FromTimestamp(t.Add(duration)), nil
}
const (
dayInNanoseconds = time.Hour * 24
)
// dateDiff computes the difference between two times in terms of the
// `timePart` which can be years, months, days, hours, minutes or
// seconds. For difference in years, months or days, the time part,
// including timezone is ignored.
func dateDiff(timePart string, ts1, ts2 time.Time) (*Value, error) {
if ts2.Before(ts1) {
v, err := dateDiff(timePart, ts2, ts1)
v.negate()
return v, err
}
duration := ts2.Sub(ts1)
y1, m1, d1 := ts1.Date()
y2, m2, d2 := ts2.Date()
dy, dm := int64(y2-y1), int64(m2-m1)
switch timePart {
case timePartYear:
if m2 > m1 || (m2 == m1 && d2 >= d1) {
return FromInt(dy), nil
}
return FromInt(dy - 1), nil
case timePartMonth:
months := 12 * dy
if m2 >= m1 {
months += dm
} else {
months += 12 + dm
}
if d2 < d1 {
months--
}
return FromInt(months), nil
case timePartDay:
// To compute the number of days between two times
// using the time package, zero out the time portions
// of the timestamps, compute the difference duration
// and then divide by the length of a day.
d1 := time.Date(y1, m1, d1, 0, 0, 0, 0, time.UTC)
d2 := time.Date(y2, m2, d2, 0, 0, 0, 0, time.UTC)
diff := d2.Sub(d1)
days := diff / dayInNanoseconds
return FromInt(int64(days)), nil
case timePartHour:
hours := duration / time.Hour
return FromInt(int64(hours)), nil
case timePartMinute:
minutes := duration / time.Minute
return FromInt(int64(minutes)), nil
case timePartSecond:
seconds := duration / time.Second
return FromInt(int64(seconds)), nil
default:
}
return nil, errNotImplemented
}

@ -0,0 +1,60 @@
/*
* 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 (
"testing"
"time"
)
func TestParseAndDisplaySQLTimestamp(t *testing.T) {
beijing := time.FixedZone("", int((8 * time.Hour).Seconds()))
fakeLosAngeles := time.FixedZone("", -int((8 * time.Hour).Seconds()))
cases := []struct {
s string
t time.Time
}{
{"2010T", time.Date(2010, 1, 1, 0, 0, 0, 0, time.UTC)},
{"2010-02T", time.Date(2010, 2, 1, 0, 0, 0, 0, time.UTC)},
{"2010-02-03T", time.Date(2010, 2, 3, 0, 0, 0, 0, time.UTC)},
{"2010-02-03T04:11Z", time.Date(2010, 2, 3, 4, 11, 0, 0, time.UTC)},
{"2010-02-03T04:11:30Z", time.Date(2010, 2, 3, 4, 11, 30, 0, time.UTC)},
{"2010-02-03T04:11:30.23Z", time.Date(2010, 2, 3, 4, 11, 30, 230000000, time.UTC)},
{"2010-02-03T04:11+08:00", time.Date(2010, 2, 3, 4, 11, 0, 0, beijing)},
{"2010-02-03T04:11:30+08:00", time.Date(2010, 2, 3, 4, 11, 30, 0, beijing)},
{"2010-02-03T04:11:30.23+08:00", time.Date(2010, 2, 3, 4, 11, 30, 230000000, beijing)},
{"2010-02-03T04:11:30-08:00", time.Date(2010, 2, 3, 4, 11, 30, 0, fakeLosAngeles)},
{"2010-02-03T04:11:30.23-08:00", time.Date(2010, 2, 3, 4, 11, 30, 230000000, fakeLosAngeles)},
}
for i, tc := range cases {
tval, err := parseSQLTimestamp(tc.s)
if err != nil {
t.Errorf("Case %d: Unexpected error: %v", i+1, err)
continue
}
if !tval.Equal(tc.t) {
t.Errorf("Case %d: Expected %v got %v", i+1, tc.t, tval)
continue
}
tstr := FormatSQLTimestamp(tc.t)
if tstr != tc.s {
t.Errorf("Case %d: Expected %s got %s", i+1, tc.s, tstr)
continue
}
}
}

@ -22,6 +22,7 @@ import (
"math" "math"
"strconv" "strconv"
"strings" "strings"
"time"
) )
var ( var (
@ -48,6 +49,9 @@ const (
// 64-bit floating point // 64-bit floating point
typeFloat typeFloat
// timestamp type
typeTimestamp
// This type refers to untyped values, e.g. as read from CSV // This type refers to untyped values, e.g. as read from CSV
typeBytes typeBytes
) )
@ -77,6 +81,8 @@ func (v *Value) GetTypeString() string {
return "INT" return "INT"
case typeFloat: case typeFloat:
return "FLOAT" return "FLOAT"
case typeTimestamp:
return "TIMESTAMP"
case typeBytes: case typeBytes:
return "BYTES" return "BYTES"
} }
@ -90,6 +96,8 @@ func (v *Value) Repr() string {
return ":NULL" return ":NULL"
case typeBool, typeInt, typeFloat: case typeBool, typeInt, typeFloat:
return fmt.Sprintf("%v:%s", v.value, v.GetTypeString()) return fmt.Sprintf("%v:%s", v.value, v.GetTypeString())
case typeTimestamp:
return fmt.Sprintf("%s:TIMESTAMP", v.value.(*time.Time))
case typeString: case typeString:
return fmt.Sprintf("\"%s\":%s", v.value.(string), v.GetTypeString()) return fmt.Sprintf("\"%s\":%s", v.value.(string), v.GetTypeString())
case typeBytes: case typeBytes:
@ -119,6 +127,11 @@ func FromBool(b bool) *Value {
return &Value{value: b, vType: typeBool} return &Value{value: b, vType: typeBool}
} }
// FromTimestamp creates a Value from a timestamp
func FromTimestamp(t time.Time) *Value {
return &Value{value: t, vType: typeTimestamp}
}
// FromNull creates a Value with Null value // FromNull creates a Value with Null value
func FromNull() *Value { func FromNull() *Value {
return &Value{vType: typeNull} return &Value{vType: typeNull}
@ -173,6 +186,15 @@ func (v *Value) ToBool() (val bool, ok bool) {
return false, false return false, false
} }
// ToTimestamp returns the timestamp value if present.
func (v *Value) ToTimestamp() (t time.Time, ok bool) {
switch v.vType {
case typeTimestamp:
return v.value.(time.Time), true
}
return t, false
}
// ToBytes converts Value to byte-slice. // ToBytes converts Value to byte-slice.
func (v *Value) ToBytes() ([]byte, bool) { func (v *Value) ToBytes() ([]byte, bool) {
switch v.vType { switch v.vType {
@ -213,6 +235,11 @@ func (v *Value) setBool(b bool) {
v.value = b v.value = b
} }
func (v *Value) setTimestamp(t time.Time) {
v.vType = typeTimestamp
v.value = t
}
// CSVString - convert to string for CSV serialization // CSVString - convert to string for CSV serialization
func (v *Value) CSVString() string { func (v *Value) CSVString() string {
switch v.vType { switch v.vType {
@ -226,6 +253,8 @@ func (v *Value) CSVString() string {
return fmt.Sprintf("%v", v.value.(int64)) return fmt.Sprintf("%v", v.value.(int64))
case typeFloat: case typeFloat:
return fmt.Sprintf("%v", v.value.(float64)) return fmt.Sprintf("%v", v.value.(float64))
case typeTimestamp:
return FormatSQLTimestamp(v.value.(time.Time))
case typeBytes: case typeBytes:
return fmt.Sprintf("%v", string(v.value.([]byte))) return fmt.Sprintf("%v", string(v.value.([]byte)))
default: default:
@ -242,6 +271,16 @@ func floatToValue(f float64) *Value {
return FromFloat(f) return FromFloat(f)
} }
// negate negates a numeric value
func (v *Value) negate() {
switch v.vType {
case typeFloat:
v.value = -(v.value.(float64))
case typeInt:
v.value = -(v.value.(int64))
}
}
// Value comparison functions: we do not expose them outside the // Value comparison functions: we do not expose them outside the
// module. Logical operators "<", ">", ">=", "<=" work on strings and // module. Logical operators "<", ">", ">=", "<=" work on strings and
// numbers. Equality operators "=", "!=" work on strings, // numbers. Equality operators "=", "!=" work on strings,
@ -571,6 +610,24 @@ func (v *Value) minmax(a *Value, isMax, isFirstRow bool) error {
return nil return nil
} }
func inferTypeAsTimestamp(v *Value) {
if s, ok := v.ToString(); ok {
t, err := parseSQLTimestamp(s)
if err != nil {
return
}
v.setTimestamp(t)
} else if b, ok := v.ToBytes(); ok {
s := string(b)
t, err := parseSQLTimestamp(s)
if err != nil {
return
}
v.setTimestamp(t)
}
return
}
// inferTypeAsString is used to convert untyped values to string - it // inferTypeAsString is used to convert untyped values to string - it
// is called when the caller requires a string context to proceed. // is called when the caller requires a string context to proceed.
func inferTypeAsString(v *Value) { func inferTypeAsString(v *Value) {

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