/
model_power_outlet_type.go
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/
model_power_outlet_type.go
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/*
NetBox REST API
No description provided (generated by Openapi Generator https://github.com/openapitools/openapi-generator)
API version: 3.6.1 (3.6)
*/
// Code generated by OpenAPI Generator (https://openapi-generator.tech); DO NOT EDIT.
package netbox
import (
"encoding/json"
)
// checks if the PowerOutletType type satisfies the MappedNullable interface at compile time
var _ MappedNullable = &PowerOutletType{}
// PowerOutletType struct for PowerOutletType
type PowerOutletType struct {
// * `iec-60320-c5` - C5 * `iec-60320-c7` - C7 * `iec-60320-c13` - C13 * `iec-60320-c15` - C15 * `iec-60320-c19` - C19 * `iec-60320-c21` - C21 * `iec-60309-p-n-e-4h` - P+N+E 4H * `iec-60309-p-n-e-6h` - P+N+E 6H * `iec-60309-p-n-e-9h` - P+N+E 9H * `iec-60309-2p-e-4h` - 2P+E 4H * `iec-60309-2p-e-6h` - 2P+E 6H * `iec-60309-2p-e-9h` - 2P+E 9H * `iec-60309-3p-e-4h` - 3P+E 4H * `iec-60309-3p-e-6h` - 3P+E 6H * `iec-60309-3p-e-9h` - 3P+E 9H * `iec-60309-3p-n-e-4h` - 3P+N+E 4H * `iec-60309-3p-n-e-6h` - 3P+N+E 6H * `iec-60309-3p-n-e-9h` - 3P+N+E 9H * `iec-60906-1` - IEC 60906-1 * `nbr-14136-10a` - 2P+T 10A (NBR 14136) * `nbr-14136-20a` - 2P+T 20A (NBR 14136) * `nema-1-15r` - NEMA 1-15R * `nema-5-15r` - NEMA 5-15R * `nema-5-20r` - NEMA 5-20R * `nema-5-30r` - NEMA 5-30R * `nema-5-50r` - NEMA 5-50R * `nema-6-15r` - NEMA 6-15R * `nema-6-20r` - NEMA 6-20R * `nema-6-30r` - NEMA 6-30R * `nema-6-50r` - NEMA 6-50R * `nema-10-30r` - NEMA 10-30R * `nema-10-50r` - NEMA 10-50R * `nema-14-20r` - NEMA 14-20R * `nema-14-30r` - NEMA 14-30R * `nema-14-50r` - NEMA 14-50R * `nema-14-60r` - NEMA 14-60R * `nema-15-15r` - NEMA 15-15R * `nema-15-20r` - NEMA 15-20R * `nema-15-30r` - NEMA 15-30R * `nema-15-50r` - NEMA 15-50R * `nema-15-60r` - NEMA 15-60R * `nema-l1-15r` - NEMA L1-15R * `nema-l5-15r` - NEMA L5-15R * `nema-l5-20r` - NEMA L5-20R * `nema-l5-30r` - NEMA L5-30R * `nema-l5-50r` - NEMA L5-50R * `nema-l6-15r` - NEMA L6-15R * `nema-l6-20r` - NEMA L6-20R * `nema-l6-30r` - NEMA L6-30R * `nema-l6-50r` - NEMA L6-50R * `nema-l10-30r` - NEMA L10-30R * `nema-l14-20r` - NEMA L14-20R * `nema-l14-30r` - NEMA L14-30R * `nema-l14-50r` - NEMA L14-50R * `nema-l14-60r` - NEMA L14-60R * `nema-l15-20r` - NEMA L15-20R * `nema-l15-30r` - NEMA L15-30R * `nema-l15-50r` - NEMA L15-50R * `nema-l15-60r` - NEMA L15-60R * `nema-l21-20r` - NEMA L21-20R * `nema-l21-30r` - NEMA L21-30R * `nema-l22-30r` - NEMA L22-30R * `CS6360C` - CS6360C * `CS6364C` - CS6364C * `CS8164C` - CS8164C * `CS8264C` - CS8264C * `CS8364C` - CS8364C * `CS8464C` - CS8464C * `ita-e` - ITA Type E (CEE 7/5) * `ita-f` - ITA Type F (CEE 7/3) * `ita-g` - ITA Type G (BS 1363) * `ita-h` - ITA Type H * `ita-i` - ITA Type I * `ita-j` - ITA Type J * `ita-k` - ITA Type K * `ita-l` - ITA Type L (CEI 23-50) * `ita-m` - ITA Type M (BS 546) * `ita-n` - ITA Type N * `ita-o` - ITA Type O * `ita-multistandard` - ITA Multistandard * `usb-a` - USB Type A * `usb-micro-b` - USB Micro B * `usb-c` - USB Type C * `dc-terminal` - DC Terminal * `hdot-cx` - HDOT Cx * `saf-d-grid` - Saf-D-Grid * `neutrik-powercon-20a` - Neutrik powerCON (20A) * `neutrik-powercon-32a` - Neutrik powerCON (32A) * `neutrik-powercon-true1` - Neutrik powerCON TRUE1 * `neutrik-powercon-true1-top` - Neutrik powerCON TRUE1 TOP * `ubiquiti-smartpower` - Ubiquiti SmartPower * `hardwired` - Hardwired * `other` - Other
Value *string `json:"value,omitempty"`
Label *string `json:"label,omitempty"`
}
// NewPowerOutletType instantiates a new PowerOutletType 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 NewPowerOutletType() *PowerOutletType {
this := PowerOutletType{}
return &this
}
// NewPowerOutletTypeWithDefaults instantiates a new PowerOutletType 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 NewPowerOutletTypeWithDefaults() *PowerOutletType {
this := PowerOutletType{}
return &this
}
// GetValue returns the Value field value if set, zero value otherwise.
func (o *PowerOutletType) GetValue() string {
if o == nil || IsNil(o.Value) {
var ret string
return ret
}
return *o.Value
}
// GetValueOk returns a tuple with the Value field value if set, nil otherwise
// and a boolean to check if the value has been set.
func (o *PowerOutletType) GetValueOk() (*string, bool) {
if o == nil || IsNil(o.Value) {
return nil, false
}
return o.Value, true
}
// HasValue returns a boolean if a field has been set.
func (o *PowerOutletType) HasValue() bool {
if o != nil && !IsNil(o.Value) {
return true
}
return false
}
// SetValue gets a reference to the given string and assigns it to the Value field.
func (o *PowerOutletType) SetValue(v string) {
o.Value = &v
}
// GetLabel returns the Label field value if set, zero value otherwise.
func (o *PowerOutletType) GetLabel() string {
if o == nil || IsNil(o.Label) {
var ret string
return ret
}
return *o.Label
}
// GetLabelOk returns a tuple with the Label field value if set, nil otherwise
// and a boolean to check if the value has been set.
func (o *PowerOutletType) GetLabelOk() (*string, bool) {
if o == nil || IsNil(o.Label) {
return nil, false
}
return o.Label, true
}
// HasLabel returns a boolean if a field has been set.
func (o *PowerOutletType) HasLabel() bool {
if o != nil && !IsNil(o.Label) {
return true
}
return false
}
// SetLabel gets a reference to the given string and assigns it to the Label field.
func (o *PowerOutletType) SetLabel(v string) {
o.Label = &v
}
func (o PowerOutletType) MarshalJSON() ([]byte, error) {
toSerialize,err := o.ToMap()
if err != nil {
return []byte{}, err
}
return json.Marshal(toSerialize)
}
func (o PowerOutletType) ToMap() (map[string]interface{}, error) {
toSerialize := map[string]interface{}{}
if !IsNil(o.Value) {
toSerialize["value"] = o.Value
}
if !IsNil(o.Label) {
toSerialize["label"] = o.Label
}
return toSerialize, nil
}
type NullablePowerOutletType struct {
value *PowerOutletType
isSet bool
}
func (v NullablePowerOutletType) Get() *PowerOutletType {
return v.value
}
func (v *NullablePowerOutletType) Set(val *PowerOutletType) {
v.value = val
v.isSet = true
}
func (v NullablePowerOutletType) IsSet() bool {
return v.isSet
}
func (v *NullablePowerOutletType) Unset() {
v.value = nil
v.isSet = false
}
func NewNullablePowerOutletType(val *PowerOutletType) *NullablePowerOutletType {
return &NullablePowerOutletType{value: val, isSet: true}
}
func (v NullablePowerOutletType) MarshalJSON() ([]byte, error) {
return json.Marshal(v.value)
}
func (v *NullablePowerOutletType) UnmarshalJSON(src []byte) error {
v.isSet = true
return json.Unmarshal(src, &v.value)
}