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VariantQualifiedName.go
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/
VariantQualifiedName.go
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/*
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you 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
*
* https://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 model
import (
"context"
"fmt"
"github.com/apache/plc4x/plc4go/spi/utils"
"github.com/pkg/errors"
"github.com/rs/zerolog"
)
// Code generated by code-generation. DO NOT EDIT.
// VariantQualifiedName is the corresponding interface of VariantQualifiedName
type VariantQualifiedName interface {
fmt.Stringer
utils.LengthAware
utils.Serializable
Variant
// GetArrayLength returns ArrayLength (property field)
GetArrayLength() *int32
// GetValue returns Value (property field)
GetValue() []QualifiedName
}
// VariantQualifiedNameExactly can be used when we want exactly this type and not a type which fulfills VariantQualifiedName.
// This is useful for switch cases.
type VariantQualifiedNameExactly interface {
VariantQualifiedName
isVariantQualifiedName() bool
}
// _VariantQualifiedName is the data-structure of this message
type _VariantQualifiedName struct {
*_Variant
ArrayLength *int32
Value []QualifiedName
}
///////////////////////////////////////////////////////////
///////////////////////////////////////////////////////////
/////////////////////// Accessors for discriminator values.
///////////////////////
func (m *_VariantQualifiedName) GetVariantType() uint8 {
return uint8(20)
}
///////////////////////
///////////////////////
///////////////////////////////////////////////////////////
///////////////////////////////////////////////////////////
func (m *_VariantQualifiedName) InitializeParent(parent Variant, arrayLengthSpecified bool, arrayDimensionsSpecified bool, noOfArrayDimensions *int32, arrayDimensions []bool) {
m.ArrayLengthSpecified = arrayLengthSpecified
m.ArrayDimensionsSpecified = arrayDimensionsSpecified
m.NoOfArrayDimensions = noOfArrayDimensions
m.ArrayDimensions = arrayDimensions
}
func (m *_VariantQualifiedName) GetParent() Variant {
return m._Variant
}
///////////////////////////////////////////////////////////
///////////////////////////////////////////////////////////
/////////////////////// Accessors for property fields.
///////////////////////
func (m *_VariantQualifiedName) GetArrayLength() *int32 {
return m.ArrayLength
}
func (m *_VariantQualifiedName) GetValue() []QualifiedName {
return m.Value
}
///////////////////////
///////////////////////
///////////////////////////////////////////////////////////
///////////////////////////////////////////////////////////
// NewVariantQualifiedName factory function for _VariantQualifiedName
func NewVariantQualifiedName(arrayLength *int32, value []QualifiedName, arrayLengthSpecified bool, arrayDimensionsSpecified bool, noOfArrayDimensions *int32, arrayDimensions []bool) *_VariantQualifiedName {
_result := &_VariantQualifiedName{
ArrayLength: arrayLength,
Value: value,
_Variant: NewVariant(arrayLengthSpecified, arrayDimensionsSpecified, noOfArrayDimensions, arrayDimensions),
}
_result._Variant._VariantChildRequirements = _result
return _result
}
// Deprecated: use the interface for direct cast
func CastVariantQualifiedName(structType any) VariantQualifiedName {
if casted, ok := structType.(VariantQualifiedName); ok {
return casted
}
if casted, ok := structType.(*VariantQualifiedName); ok {
return *casted
}
return nil
}
func (m *_VariantQualifiedName) GetTypeName() string {
return "VariantQualifiedName"
}
func (m *_VariantQualifiedName) GetLengthInBits(ctx context.Context) uint16 {
lengthInBits := uint16(m.GetParentLengthInBits(ctx))
// Optional Field (arrayLength)
if m.ArrayLength != nil {
lengthInBits += 32
}
// Array field
if len(m.Value) > 0 {
for _curItem, element := range m.Value {
arrayCtx := utils.CreateArrayContext(ctx, len(m.Value), _curItem)
_ = arrayCtx
_ = _curItem
lengthInBits += element.(interface{ GetLengthInBits(context.Context) uint16 }).GetLengthInBits(arrayCtx)
}
}
return lengthInBits
}
func (m *_VariantQualifiedName) GetLengthInBytes(ctx context.Context) uint16 {
return m.GetLengthInBits(ctx) / 8
}
func VariantQualifiedNameParse(ctx context.Context, theBytes []byte, arrayLengthSpecified bool) (VariantQualifiedName, error) {
return VariantQualifiedNameParseWithBuffer(ctx, utils.NewReadBufferByteBased(theBytes), arrayLengthSpecified)
}
func VariantQualifiedNameParseWithBuffer(ctx context.Context, readBuffer utils.ReadBuffer, arrayLengthSpecified bool) (VariantQualifiedName, error) {
positionAware := readBuffer
_ = positionAware
log := zerolog.Ctx(ctx)
_ = log
if pullErr := readBuffer.PullContext("VariantQualifiedName"); pullErr != nil {
return nil, errors.Wrap(pullErr, "Error pulling for VariantQualifiedName")
}
currentPos := positionAware.GetPos()
_ = currentPos
// Optional Field (arrayLength) (Can be skipped, if a given expression evaluates to false)
var arrayLength *int32 = nil
if arrayLengthSpecified {
_val, _err := readBuffer.ReadInt32("arrayLength", 32)
if _err != nil {
return nil, errors.Wrap(_err, "Error parsing 'arrayLength' field of VariantQualifiedName")
}
arrayLength = &_val
}
// Array field (value)
if pullErr := readBuffer.PullContext("value", utils.WithRenderAsList(true)); pullErr != nil {
return nil, errors.Wrap(pullErr, "Error pulling for value")
}
// Count array
value := make([]QualifiedName, utils.Max(utils.InlineIf(bool((arrayLength) == (nil)), func() any { return uint16(uint16(1)) }, func() any { return uint16((*arrayLength)) }).(uint16), 0))
// This happens when the size is set conditional to 0
if len(value) == 0 {
value = nil
}
{
_numItems := uint16(utils.Max(utils.InlineIf(bool((arrayLength) == (nil)), func() any { return uint16(uint16(1)) }, func() any { return uint16((*arrayLength)) }).(uint16), 0))
for _curItem := uint16(0); _curItem < _numItems; _curItem++ {
arrayCtx := utils.CreateArrayContext(ctx, int(_numItems), int(_curItem))
_ = arrayCtx
_ = _curItem
_item, _err := QualifiedNameParseWithBuffer(arrayCtx, readBuffer)
if _err != nil {
return nil, errors.Wrap(_err, "Error parsing 'value' field of VariantQualifiedName")
}
value[_curItem] = _item.(QualifiedName)
}
}
if closeErr := readBuffer.CloseContext("value", utils.WithRenderAsList(true)); closeErr != nil {
return nil, errors.Wrap(closeErr, "Error closing for value")
}
if closeErr := readBuffer.CloseContext("VariantQualifiedName"); closeErr != nil {
return nil, errors.Wrap(closeErr, "Error closing for VariantQualifiedName")
}
// Create a partially initialized instance
_child := &_VariantQualifiedName{
_Variant: &_Variant{},
ArrayLength: arrayLength,
Value: value,
}
_child._Variant._VariantChildRequirements = _child
return _child, nil
}
func (m *_VariantQualifiedName) Serialize() ([]byte, error) {
wb := utils.NewWriteBufferByteBased(utils.WithInitialSizeForByteBasedBuffer(int(m.GetLengthInBytes(context.Background()))))
if err := m.SerializeWithWriteBuffer(context.Background(), wb); err != nil {
return nil, err
}
return wb.GetBytes(), nil
}
func (m *_VariantQualifiedName) SerializeWithWriteBuffer(ctx context.Context, writeBuffer utils.WriteBuffer) error {
positionAware := writeBuffer
_ = positionAware
log := zerolog.Ctx(ctx)
_ = log
ser := func() error {
if pushErr := writeBuffer.PushContext("VariantQualifiedName"); pushErr != nil {
return errors.Wrap(pushErr, "Error pushing for VariantQualifiedName")
}
// Optional Field (arrayLength) (Can be skipped, if the value is null)
var arrayLength *int32 = nil
if m.GetArrayLength() != nil {
arrayLength = m.GetArrayLength()
_arrayLengthErr := writeBuffer.WriteInt32("arrayLength", 32, int32(*(arrayLength)))
if _arrayLengthErr != nil {
return errors.Wrap(_arrayLengthErr, "Error serializing 'arrayLength' field")
}
}
// Array Field (value)
if pushErr := writeBuffer.PushContext("value", utils.WithRenderAsList(true)); pushErr != nil {
return errors.Wrap(pushErr, "Error pushing for value")
}
for _curItem, _element := range m.GetValue() {
_ = _curItem
arrayCtx := utils.CreateArrayContext(ctx, len(m.GetValue()), _curItem)
_ = arrayCtx
_elementErr := writeBuffer.WriteSerializable(arrayCtx, _element)
if _elementErr != nil {
return errors.Wrap(_elementErr, "Error serializing 'value' field")
}
}
if popErr := writeBuffer.PopContext("value", utils.WithRenderAsList(true)); popErr != nil {
return errors.Wrap(popErr, "Error popping for value")
}
if popErr := writeBuffer.PopContext("VariantQualifiedName"); popErr != nil {
return errors.Wrap(popErr, "Error popping for VariantQualifiedName")
}
return nil
}
return m.SerializeParent(ctx, writeBuffer, m, ser)
}
func (m *_VariantQualifiedName) isVariantQualifiedName() bool {
return true
}
func (m *_VariantQualifiedName) String() string {
if m == nil {
return "<nil>"
}
writeBuffer := utils.NewWriteBufferBoxBasedWithOptions(true, true)
if err := writeBuffer.WriteSerializable(context.Background(), m); err != nil {
return err.Error()
}
return writeBuffer.GetBox().String()
}