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inet_array.go
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inet_array.go
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// Code generated by erb. DO NOT EDIT.
package pgtype
import (
"database/sql/driver"
"encoding/binary"
"fmt"
"net"
"reflect"
"github.com/jackc/pgio"
)
type InetArray struct {
Elements []Inet
Dimensions []ArrayDimension
Status Status
}
func (dst *InetArray) Set(src interface{}) error {
// untyped nil and typed nil interfaces are different
if src == nil {
*dst = InetArray{Status: Null}
return nil
}
if value, ok := src.(interface{ Get() interface{} }); ok {
value2 := value.Get()
if value2 != value {
return dst.Set(value2)
}
}
// Attempt to match to select common types:
switch value := src.(type) {
case []*net.IPNet:
if value == nil {
*dst = InetArray{Status: Null}
} else if len(value) == 0 {
*dst = InetArray{Status: Present}
} else {
elements := make([]Inet, len(value))
for i := range value {
if err := elements[i].Set(value[i]); err != nil {
return err
}
}
*dst = InetArray{
Elements: elements,
Dimensions: []ArrayDimension{{Length: int32(len(elements)), LowerBound: 1}},
Status: Present,
}
}
case []net.IP:
if value == nil {
*dst = InetArray{Status: Null}
} else if len(value) == 0 {
*dst = InetArray{Status: Present}
} else {
elements := make([]Inet, len(value))
for i := range value {
if err := elements[i].Set(value[i]); err != nil {
return err
}
}
*dst = InetArray{
Elements: elements,
Dimensions: []ArrayDimension{{Length: int32(len(elements)), LowerBound: 1}},
Status: Present,
}
}
case []*net.IP:
if value == nil {
*dst = InetArray{Status: Null}
} else if len(value) == 0 {
*dst = InetArray{Status: Present}
} else {
elements := make([]Inet, len(value))
for i := range value {
if err := elements[i].Set(value[i]); err != nil {
return err
}
}
*dst = InetArray{
Elements: elements,
Dimensions: []ArrayDimension{{Length: int32(len(elements)), LowerBound: 1}},
Status: Present,
}
}
case []Inet:
if value == nil {
*dst = InetArray{Status: Null}
} else if len(value) == 0 {
*dst = InetArray{Status: Present}
} else {
*dst = InetArray{
Elements: value,
Dimensions: []ArrayDimension{{Length: int32(len(value)), LowerBound: 1}},
Status: Present,
}
}
default:
// Fallback to reflection if an optimised match was not found.
// The reflection is necessary for arrays and multidimensional slices,
// but it comes with a 20-50% performance penalty for large arrays/slices
reflectedValue := reflect.ValueOf(src)
if !reflectedValue.IsValid() || reflectedValue.IsZero() {
*dst = InetArray{Status: Null}
return nil
}
dimensions, elementsLength, ok := findDimensionsFromValue(reflectedValue, nil, 0)
if !ok {
return fmt.Errorf("cannot find dimensions of %v for InetArray", src)
}
if elementsLength == 0 {
*dst = InetArray{Status: Present}
return nil
}
if len(dimensions) == 0 {
if originalSrc, ok := underlyingSliceType(src); ok {
return dst.Set(originalSrc)
}
return fmt.Errorf("cannot convert %v to InetArray", src)
}
*dst = InetArray{
Elements: make([]Inet, elementsLength),
Dimensions: dimensions,
Status: Present,
}
elementCount, err := dst.setRecursive(reflectedValue, 0, 0)
if err != nil {
// Maybe the target was one dimension too far, try again:
if len(dst.Dimensions) > 1 {
dst.Dimensions = dst.Dimensions[:len(dst.Dimensions)-1]
elementsLength = 0
for _, dim := range dst.Dimensions {
if elementsLength == 0 {
elementsLength = int(dim.Length)
} else {
elementsLength *= int(dim.Length)
}
}
dst.Elements = make([]Inet, elementsLength)
elementCount, err = dst.setRecursive(reflectedValue, 0, 0)
if err != nil {
return err
}
} else {
return err
}
}
if elementCount != len(dst.Elements) {
return fmt.Errorf("cannot convert %v to InetArray, expected %d dst.Elements, but got %d instead", src, len(dst.Elements), elementCount)
}
}
return nil
}
func (dst *InetArray) setRecursive(value reflect.Value, index, dimension int) (int, error) {
switch value.Kind() {
case reflect.Array:
fallthrough
case reflect.Slice:
if len(dst.Dimensions) == dimension {
break
}
valueLen := value.Len()
if int32(valueLen) != dst.Dimensions[dimension].Length {
return 0, fmt.Errorf("multidimensional arrays must have array expressions with matching dimensions")
}
for i := 0; i < valueLen; i++ {
var err error
index, err = dst.setRecursive(value.Index(i), index, dimension+1)
if err != nil {
return 0, err
}
}
return index, nil
}
if !value.CanInterface() {
return 0, fmt.Errorf("cannot convert all values to InetArray")
}
if err := dst.Elements[index].Set(value.Interface()); err != nil {
return 0, fmt.Errorf("%v in InetArray", err)
}
index++
return index, nil
}
func (dst InetArray) Get() interface{} {
switch dst.Status {
case Present:
return dst
case Null:
return nil
default:
return dst.Status
}
}
func (src *InetArray) AssignTo(dst interface{}) error {
switch src.Status {
case Present:
if len(src.Dimensions) <= 1 {
// Attempt to match to select common types:
switch v := dst.(type) {
case *[]*net.IPNet:
*v = make([]*net.IPNet, len(src.Elements))
for i := range src.Elements {
if err := src.Elements[i].AssignTo(&((*v)[i])); err != nil {
return err
}
}
return nil
case *[]net.IP:
*v = make([]net.IP, len(src.Elements))
for i := range src.Elements {
if err := src.Elements[i].AssignTo(&((*v)[i])); err != nil {
return err
}
}
return nil
case *[]*net.IP:
*v = make([]*net.IP, len(src.Elements))
for i := range src.Elements {
if err := src.Elements[i].AssignTo(&((*v)[i])); err != nil {
return err
}
}
return nil
}
}
// Try to convert to something AssignTo can use directly.
if nextDst, retry := GetAssignToDstType(dst); retry {
return src.AssignTo(nextDst)
}
// Fallback to reflection if an optimised match was not found.
// The reflection is necessary for arrays and multidimensional slices,
// but it comes with a 20-50% performance penalty for large arrays/slices
value := reflect.ValueOf(dst)
if value.Kind() == reflect.Ptr {
value = value.Elem()
}
switch value.Kind() {
case reflect.Array, reflect.Slice:
default:
return fmt.Errorf("cannot assign %T to %T", src, dst)
}
if len(src.Elements) == 0 {
if value.Kind() == reflect.Slice {
value.Set(reflect.MakeSlice(value.Type(), 0, 0))
return nil
}
}
elementCount, err := src.assignToRecursive(value, 0, 0)
if err != nil {
return err
}
if elementCount != len(src.Elements) {
return fmt.Errorf("cannot assign %v, needed to assign %d elements, but only assigned %d", dst, len(src.Elements), elementCount)
}
return nil
case Null:
return NullAssignTo(dst)
}
return fmt.Errorf("cannot decode %#v into %T", src, dst)
}
func (src *InetArray) assignToRecursive(value reflect.Value, index, dimension int) (int, error) {
switch kind := value.Kind(); kind {
case reflect.Array:
fallthrough
case reflect.Slice:
if len(src.Dimensions) == dimension {
break
}
length := int(src.Dimensions[dimension].Length)
if reflect.Array == kind {
typ := value.Type()
if typ.Len() != length {
return 0, fmt.Errorf("expected size %d array, but %s has size %d array", length, typ, typ.Len())
}
value.Set(reflect.New(typ).Elem())
} else {
value.Set(reflect.MakeSlice(value.Type(), length, length))
}
var err error
for i := 0; i < length; i++ {
index, err = src.assignToRecursive(value.Index(i), index, dimension+1)
if err != nil {
return 0, err
}
}
return index, nil
}
if len(src.Dimensions) != dimension {
return 0, fmt.Errorf("incorrect dimensions, expected %d, found %d", len(src.Dimensions), dimension)
}
if !value.CanAddr() {
return 0, fmt.Errorf("cannot assign all values from InetArray")
}
addr := value.Addr()
if !addr.CanInterface() {
return 0, fmt.Errorf("cannot assign all values from InetArray")
}
if err := src.Elements[index].AssignTo(addr.Interface()); err != nil {
return 0, err
}
index++
return index, nil
}
func (dst *InetArray) DecodeText(ci *ConnInfo, src []byte) error {
if src == nil {
*dst = InetArray{Status: Null}
return nil
}
uta, err := ParseUntypedTextArray(string(src))
if err != nil {
return err
}
var elements []Inet
if len(uta.Elements) > 0 {
elements = make([]Inet, len(uta.Elements))
for i, s := range uta.Elements {
var elem Inet
var elemSrc []byte
if s != "NULL" || uta.Quoted[i] {
elemSrc = []byte(s)
}
err = elem.DecodeText(ci, elemSrc)
if err != nil {
return err
}
elements[i] = elem
}
}
*dst = InetArray{Elements: elements, Dimensions: uta.Dimensions, Status: Present}
return nil
}
func (dst *InetArray) DecodeBinary(ci *ConnInfo, src []byte) error {
if src == nil {
*dst = InetArray{Status: Null}
return nil
}
var arrayHeader ArrayHeader
rp, err := arrayHeader.DecodeBinary(ci, src)
if err != nil {
return err
}
if len(arrayHeader.Dimensions) == 0 {
*dst = InetArray{Dimensions: arrayHeader.Dimensions, Status: Present}
return nil
}
elementCount := arrayHeader.Dimensions[0].Length
for _, d := range arrayHeader.Dimensions[1:] {
elementCount *= d.Length
}
elements := make([]Inet, elementCount)
for i := range elements {
elemLen := int(int32(binary.BigEndian.Uint32(src[rp:])))
rp += 4
var elemSrc []byte
if elemLen >= 0 {
elemSrc = src[rp : rp+elemLen]
rp += elemLen
}
err = elements[i].DecodeBinary(ci, elemSrc)
if err != nil {
return err
}
}
*dst = InetArray{Elements: elements, Dimensions: arrayHeader.Dimensions, Status: Present}
return nil
}
func (src InetArray) EncodeText(ci *ConnInfo, buf []byte) ([]byte, error) {
switch src.Status {
case Null:
return nil, nil
case Undefined:
return nil, errUndefined
}
if len(src.Dimensions) == 0 {
return append(buf, '{', '}'), nil
}
buf = EncodeTextArrayDimensions(buf, src.Dimensions)
// dimElemCounts is the multiples of elements that each array lies on. For
// example, a single dimension array of length 4 would have a dimElemCounts of
// [4]. A multi-dimensional array of lengths [3,5,2] would have a
// dimElemCounts of [30,10,2]. This is used to simplify when to render a '{'
// or '}'.
dimElemCounts := make([]int, len(src.Dimensions))
dimElemCounts[len(src.Dimensions)-1] = int(src.Dimensions[len(src.Dimensions)-1].Length)
for i := len(src.Dimensions) - 2; i > -1; i-- {
dimElemCounts[i] = int(src.Dimensions[i].Length) * dimElemCounts[i+1]
}
inElemBuf := make([]byte, 0, 32)
for i, elem := range src.Elements {
if i > 0 {
buf = append(buf, ',')
}
for _, dec := range dimElemCounts {
if i%dec == 0 {
buf = append(buf, '{')
}
}
elemBuf, err := elem.EncodeText(ci, inElemBuf)
if err != nil {
return nil, err
}
if elemBuf == nil {
buf = append(buf, `NULL`...)
} else {
buf = append(buf, QuoteArrayElementIfNeeded(string(elemBuf))...)
}
for _, dec := range dimElemCounts {
if (i+1)%dec == 0 {
buf = append(buf, '}')
}
}
}
return buf, nil
}
func (src InetArray) EncodeBinary(ci *ConnInfo, buf []byte) ([]byte, error) {
switch src.Status {
case Null:
return nil, nil
case Undefined:
return nil, errUndefined
}
arrayHeader := ArrayHeader{
Dimensions: src.Dimensions,
}
if dt, ok := ci.DataTypeForName("inet"); ok {
arrayHeader.ElementOID = int32(dt.OID)
} else {
return nil, fmt.Errorf("unable to find oid for type name %v", "inet")
}
for i := range src.Elements {
if src.Elements[i].Status == Null {
arrayHeader.ContainsNull = true
break
}
}
buf = arrayHeader.EncodeBinary(ci, buf)
for i := range src.Elements {
sp := len(buf)
buf = pgio.AppendInt32(buf, -1)
elemBuf, err := src.Elements[i].EncodeBinary(ci, buf)
if err != nil {
return nil, err
}
if elemBuf != nil {
buf = elemBuf
pgio.SetInt32(buf[sp:], int32(len(buf[sp:])-4))
}
}
return buf, nil
}
// Scan implements the database/sql Scanner interface.
func (dst *InetArray) Scan(src interface{}) error {
if src == nil {
return dst.DecodeText(nil, nil)
}
switch src := src.(type) {
case string:
return dst.DecodeText(nil, []byte(src))
case []byte:
srcCopy := make([]byte, len(src))
copy(srcCopy, src)
return dst.DecodeText(nil, srcCopy)
}
return fmt.Errorf("cannot scan %T", src)
}
// Value implements the database/sql/driver Valuer interface.
func (src InetArray) Value() (driver.Value, error) {
buf, err := src.EncodeText(nil, nil)
if err != nil {
return nil, err
}
if buf == nil {
return nil, nil
}
return string(buf), nil
}