model_data_type.go

// Copyright 2021 Confluent Inc. All Rights Reserved.
//
// 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.

/*
SQL API v1

No description provided (generated by Openapi Generator https://github.com/openapitools/openapi-generator)

API version: 0.0.1
Contact: flink-control-plane@confluent.io
*/

// Code generated by OpenAPI Generator (https://openapi-generator.tech); DO NOT EDIT.

package v1

import (
	"bytes"
	"encoding/json"
)

import (
	"reflect"
)

// DataType struct for DataType
type DataType struct {
	// The data type of the column.
	Type string `json:"type,omitempty"`
	// Indicates whether values in this column can be null.
	Nullable bool `json:"nullable,omitempty"`
	// The length of the data type.
	Length *int32 `json:"length,omitempty"`
	// The precision of the data type.
	Precision *int32 `json:"precision,omitempty"`
	// The scale of the data type.
	Scale *int32 `json:"scale,omitempty"`
	// The type of the key in the data type (if applicable).
	KeyType *DataType `json:"key_type,omitempty"`
	// The type of the value in the data type (if applicable).
	ValueType *DataType `json:"value_type,omitempty"`
	// The type of the element in the data type (if applicable).
	ElementType *DataType `json:"element_type,omitempty"`
	// The fields of the element in the data type (if applicable).
	Fields *[]RowFieldType `json:"fields,omitempty"`
	// The resolution of the data type (if applicable).
	Resolution *string `json:"resolution,omitempty"`
	// The fractional precision of the data type (if applicable).
	FractionalPrecision *int32 `json:"fractional_precision,omitempty"`
}

// NewDataType instantiates a new DataType object
// This constructor will assign default values to properties that have it defined,
// and makes sure properties required by API are set, but the set of arguments
// will change when the set of required properties is changed
func NewDataType(type_ string, nullable bool) *DataType {
	this := DataType{}
	this.Type = type_
	this.Nullable = nullable
	return &this
}

// NewDataTypeWithDefaults instantiates a new DataType object
// This constructor will only assign default values to properties that have it defined,
// but it doesn't guarantee that properties required by API are set
func NewDataTypeWithDefaults() *DataType {
	this := DataType{}
	return &this
}

// GetType returns the Type field value
func (o *DataType) GetType() string {
	if o == nil {
		var ret string
		return ret
	}

	return o.Type
}

// GetTypeOk returns a tuple with the Type field value
// and a boolean to check if the value has been set.
func (o *DataType) GetTypeOk() (*string, bool) {
	if o == nil {
		return nil, false
	}
	return &o.Type, true
}

// SetType sets field value
func (o *DataType) SetType(v string) {
	o.Type = v
}

// GetNullable returns the Nullable field value
func (o *DataType) GetNullable() bool {
	if o == nil {
		var ret bool
		return ret
	}

	return o.Nullable
}

// GetNullableOk returns a tuple with the Nullable field value
// and a boolean to check if the value has been set.
func (o *DataType) GetNullableOk() (*bool, bool) {
	if o == nil {
		return nil, false
	}
	return &o.Nullable, true
}

// SetNullable sets field value
func (o *DataType) SetNullable(v bool) {
	o.Nullable = v
}

// GetLength returns the Length field value if set, zero value otherwise.
func (o *DataType) GetLength() int32 {
	if o == nil || o.Length == nil {
		var ret int32
		return ret
	}
	return *o.Length
}

// GetLengthOk returns a tuple with the Length field value if set, nil otherwise
// and a boolean to check if the value has been set.
func (o *DataType) GetLengthOk() (*int32, bool) {
	if o == nil || o.Length == nil {
		return nil, false
	}
	return o.Length, true
}

// HasLength returns a boolean if a field has been set.
func (o *DataType) HasLength() bool {
	if o != nil && o.Length != nil {
		return true
	}

	return false
}

// SetLength gets a reference to the given int32 and assigns it to the Length field.
func (o *DataType) SetLength(v int32) {
	o.Length = &v
}

// GetPrecision returns the Precision field value if set, zero value otherwise.
func (o *DataType) GetPrecision() int32 {
	if o == nil || o.Precision == nil {
		var ret int32
		return ret
	}
	return *o.Precision
}

// GetPrecisionOk returns a tuple with the Precision field value if set, nil otherwise
// and a boolean to check if the value has been set.
func (o *DataType) GetPrecisionOk() (*int32, bool) {
	if o == nil || o.Precision == nil {
		return nil, false
	}
	return o.Precision, true
}

// HasPrecision returns a boolean if a field has been set.
func (o *DataType) HasPrecision() bool {
	if o != nil && o.Precision != nil {
		return true
	}

	return false
}

// SetPrecision gets a reference to the given int32 and assigns it to the Precision field.
func (o *DataType) SetPrecision(v int32) {
	o.Precision = &v
}

// GetScale returns the Scale field value if set, zero value otherwise.
func (o *DataType) GetScale() int32 {
	if o == nil || o.Scale == nil {
		var ret int32
		return ret
	}
	return *o.Scale
}

// GetScaleOk returns a tuple with the Scale field value if set, nil otherwise
// and a boolean to check if the value has been set.
func (o *DataType) GetScaleOk() (*int32, bool) {
	if o == nil || o.Scale == nil {
		return nil, false
	}
	return o.Scale, true
}

// HasScale returns a boolean if a field has been set.
func (o *DataType) HasScale() bool {
	if o != nil && o.Scale != nil {
		return true
	}

	return false
}

// SetScale gets a reference to the given int32 and assigns it to the Scale field.
func (o *DataType) SetScale(v int32) {
	o.Scale = &v
}

// GetKeyType returns the KeyType field value if set, zero value otherwise.
func (o *DataType) GetKeyType() DataType {
	if o == nil || o.KeyType == nil {
		var ret DataType
		return ret
	}
	return *o.KeyType
}

// GetKeyTypeOk returns a tuple with the KeyType field value if set, nil otherwise
// and a boolean to check if the value has been set.
func (o *DataType) GetKeyTypeOk() (*DataType, bool) {
	if o == nil || o.KeyType == nil {
		return nil, false
	}
	return o.KeyType, true
}

// HasKeyType returns a boolean if a field has been set.
func (o *DataType) HasKeyType() bool {
	if o != nil && o.KeyType != nil {
		return true
	}

	return false
}

// SetKeyType gets a reference to the given DataType and assigns it to the KeyType field.
func (o *DataType) SetKeyType(v DataType) {
	o.KeyType = &v
}

// GetValueType returns the ValueType field value if set, zero value otherwise.
func (o *DataType) GetValueType() DataType {
	if o == nil || o.ValueType == nil {
		var ret DataType
		return ret
	}
	return *o.ValueType
}

// GetValueTypeOk returns a tuple with the ValueType field value if set, nil otherwise
// and a boolean to check if the value has been set.
func (o *DataType) GetValueTypeOk() (*DataType, bool) {
	if o == nil || o.ValueType == nil {
		return nil, false
	}
	return o.ValueType, true
}

// HasValueType returns a boolean if a field has been set.
func (o *DataType) HasValueType() bool {
	if o != nil && o.ValueType != nil {
		return true
	}

	return false
}

// SetValueType gets a reference to the given DataType and assigns it to the ValueType field.
func (o *DataType) SetValueType(v DataType) {
	o.ValueType = &v
}

// GetElementType returns the ElementType field value if set, zero value otherwise.
func (o *DataType) GetElementType() DataType {
	if o == nil || o.ElementType == nil {
		var ret DataType
		return ret
	}
	return *o.ElementType
}

// GetElementTypeOk returns a tuple with the ElementType field value if set, nil otherwise
// and a boolean to check if the value has been set.
func (o *DataType) GetElementTypeOk() (*DataType, bool) {
	if o == nil || o.ElementType == nil {
		return nil, false
	}
	return o.ElementType, true
}

// HasElementType returns a boolean if a field has been set.
func (o *DataType) HasElementType() bool {
	if o != nil && o.ElementType != nil {
		return true
	}

	return false
}

// SetElementType gets a reference to the given DataType and assigns it to the ElementType field.
func (o *DataType) SetElementType(v DataType) {
	o.ElementType = &v
}

// GetFields returns the Fields field value if set, zero value otherwise.
func (o *DataType) GetFields() []RowFieldType {
	if o == nil || o.Fields == nil {
		var ret []RowFieldType
		return ret
	}
	return *o.Fields
}

// GetFieldsOk returns a tuple with the Fields field value if set, nil otherwise
// and a boolean to check if the value has been set.
func (o *DataType) GetFieldsOk() (*[]RowFieldType, bool) {
	if o == nil || o.Fields == nil {
		return nil, false
	}
	return o.Fields, true
}

// HasFields returns a boolean if a field has been set.
func (o *DataType) HasFields() bool {
	if o != nil && o.Fields != nil {
		return true
	}

	return false
}

// SetFields gets a reference to the given []RowFieldType and assigns it to the Fields field.
func (o *DataType) SetFields(v []RowFieldType) {
	o.Fields = &v
}

// GetResolution returns the Resolution field value if set, zero value otherwise.
func (o *DataType) GetResolution() string {
	if o == nil || o.Resolution == nil {
		var ret string
		return ret
	}
	return *o.Resolution
}

// GetResolutionOk returns a tuple with the Resolution field value if set, nil otherwise
// and a boolean to check if the value has been set.
func (o *DataType) GetResolutionOk() (*string, bool) {
	if o == nil || o.Resolution == nil {
		return nil, false
	}
	return o.Resolution, true
}

// HasResolution returns a boolean if a field has been set.
func (o *DataType) HasResolution() bool {
	if o != nil && o.Resolution != nil {
		return true
	}

	return false
}

// SetResolution gets a reference to the given string and assigns it to the Resolution field.
func (o *DataType) SetResolution(v string) {
	o.Resolution = &v
}

// GetFractionalPrecision returns the FractionalPrecision field value if set, zero value otherwise.
func (o *DataType) GetFractionalPrecision() int32 {
	if o == nil || o.FractionalPrecision == nil {
		var ret int32
		return ret
	}
	return *o.FractionalPrecision
}

// GetFractionalPrecisionOk returns a tuple with the FractionalPrecision field value if set, nil otherwise
// and a boolean to check if the value has been set.
func (o *DataType) GetFractionalPrecisionOk() (*int32, bool) {
	if o == nil || o.FractionalPrecision == nil {
		return nil, false
	}
	return o.FractionalPrecision, true
}

// HasFractionalPrecision returns a boolean if a field has been set.
func (o *DataType) HasFractionalPrecision() bool {
	if o != nil && o.FractionalPrecision != nil {
		return true
	}

	return false
}

// SetFractionalPrecision gets a reference to the given int32 and assigns it to the FractionalPrecision field.
func (o *DataType) SetFractionalPrecision(v int32) {
	o.FractionalPrecision = &v
}

// Redact resets all sensitive fields to their zero value.
func (o *DataType) Redact() {
	o.recurseRedact(&o.Type)
	o.recurseRedact(&o.Nullable)
	o.recurseRedact(o.Length)
	o.recurseRedact(o.Precision)
	o.recurseRedact(o.Scale)
	o.recurseRedact(o.KeyType)
	o.recurseRedact(o.ValueType)
	o.recurseRedact(o.ElementType)
	o.recurseRedact(o.Fields)
	o.recurseRedact(o.Resolution)
	o.recurseRedact(o.FractionalPrecision)
}

func (o *DataType) recurseRedact(v interface{}) {
	type redactor interface {
		Redact()
	}
	if r, ok := v.(redactor); ok {
		r.Redact()
	} else {
		val := reflect.ValueOf(v)
		if val.Kind() == reflect.Ptr {
			val = val.Elem()
		}
		switch val.Kind() {
		case reflect.Slice, reflect.Array:
			for i := 0; i < val.Len(); i++ {
				// support data types declared without pointers
				o.recurseRedact(val.Index(i).Interface())
				// ... and data types that were declared without but need pointers (for Redact)
				if val.Index(i).CanAddr() {
					o.recurseRedact(val.Index(i).Addr().Interface())
				}
			}
		}
	}
}

func (o DataType) zeroField(v interface{}) {
	p := reflect.ValueOf(v).Elem()
	p.Set(reflect.Zero(p.Type()))
}

func (o DataType) MarshalJSON() ([]byte, error) {
	toSerialize := map[string]interface{}{}
	if true {
		toSerialize["type"] = o.Type
	}
	if true {
		toSerialize["nullable"] = o.Nullable
	}
	if o.Length != nil {
		toSerialize["length"] = o.Length
	}
	if o.Precision != nil {
		toSerialize["precision"] = o.Precision
	}
	if o.Scale != nil {
		toSerialize["scale"] = o.Scale
	}
	if o.KeyType != nil {
		toSerialize["key_type"] = o.KeyType
	}
	if o.ValueType != nil {
		toSerialize["value_type"] = o.ValueType
	}
	if o.ElementType != nil {
		toSerialize["element_type"] = o.ElementType
	}
	if o.Fields != nil {
		toSerialize["fields"] = o.Fields
	}
	if o.Resolution != nil {
		toSerialize["resolution"] = o.Resolution
	}
	if o.FractionalPrecision != nil {
		toSerialize["fractional_precision"] = o.FractionalPrecision
	}
	buffer := &bytes.Buffer{}
	encoder := json.NewEncoder(buffer)
	encoder.SetEscapeHTML(false)
	err := encoder.Encode(toSerialize)
	return buffer.Bytes(), err
}

type NullableDataType struct {
	value *DataType
	isSet bool
}

func (v NullableDataType) Get() *DataType {
	return v.value
}

func (v *NullableDataType) Set(val *DataType) {
	v.value = val
	v.isSet = true
}

func (v NullableDataType) IsSet() bool {
	return v.isSet
}

func (v *NullableDataType) Unset() {
	v.value = nil
	v.isSet = false
}

func NewNullableDataType(val *DataType) *NullableDataType {
	return &NullableDataType{value: val, isSet: true}
}

func (v NullableDataType) MarshalJSON() ([]byte, error) {
	buffer := &bytes.Buffer{}
	encoder := json.NewEncoder(buffer)
	encoder.SetEscapeHTML(false)
	err := encoder.Encode(v.value)
	return buffer.Bytes(), err
}

func (v *NullableDataType) UnmarshalJSON(src []byte) error {
	v.isSet = true
	return json.Unmarshal(src, &v.value)
}