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model_deprecation_info.go
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model_deprecation_info.go
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/*
* Copyright (C) 2020-2024 Arm Limited or its affiliates and Contributors. All rights reserved.
* SPDX-License-Identifier: Apache-2.0
*/
/*
Solar API
This API provides a RESTful interface to all the Solar services e.g. looking for boards, building projects, etc. - This API uses Hypermedia as the Engine of Application State (HATEOAS) to drive the discovery and provide affordances. - Discovery is possible by following links from the well known root resource. While this specification lists all supported endpoints, it is only recommended that these are hard coded into a client if code generation is being used. Otherwise, it is recommended that the discovery mechanisms present in the resources (affordances) are used exclusively. - Affordances are links which indicate whether an action is currently possible, this is significantly different from whether the service supports an action in general. This specification defines what actions could be possible, but only by checking the affordances returned by the API in the returned resources, can a client determine whether this action is currently possible or available for the current user. For example: - An operation to modify a resource could be defined in this specification, but the user may lack the appropriate privileges. In that situation, the affordance link would not be present in the resource when read. Therefore, the client can infer that it is not possible to edit this resource and present appropriate information to the user. - An operation to delete a resource could be defined and be possible in some circumstances. The specification describes that the delete is supported and how to use it, but the affordance describes whether it is currently possible. The logic in the API may dictate that if the resource was in use (perhaps it is a running job or used by another resource), then it will not be possible to delete that resource as it would result in a conflicted state. - It is strongly encouraged that affordances are used by all clients, even those using code generation. This has the ability to both improve robustness and the user experience by decoupling the client and server. For example, if for some reason the criteria for deleting a resource changes, the logic is only implemented in the server and there is no need to update the logic in the client as it is driven by the affordances. - The format used for the resources is the Hypertext Application Language (HAL), which includes the definition of links and embedded resources.
API version: 1.1.1
Contact: support@arm.com
*/
// Code generated by OpenAPI Generator (https://openapi-generator.tech); DO NOT EDIT.
package client
import (
"encoding/json"
"time"
"bytes"
"fmt"
)
// checks if the DeprecationInfo type satisfies the MappedNullable interface at compile time
var _ MappedNullable = &DeprecationInfo{}
// DeprecationInfo Additional information about the deprecation status.
type DeprecationInfo struct {
// further explanation of the rationale behind the deprecation
Comment string `json:"comment"`
// time when the deprecation notice was first issued
Issued time.Time `json:"issued"`
// time when the removal will be effective
Removal time.Time `json:"removal"`
}
type _DeprecationInfo DeprecationInfo
// NewDeprecationInfo instantiates a new DeprecationInfo 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 NewDeprecationInfo(comment string, issued time.Time, removal time.Time) *DeprecationInfo {
this := DeprecationInfo{}
this.Comment = comment
this.Issued = issued
this.Removal = removal
return &this
}
// NewDeprecationInfoWithDefaults instantiates a new DeprecationInfo 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 NewDeprecationInfoWithDefaults() *DeprecationInfo {
this := DeprecationInfo{}
return &this
}
// GetComment returns the Comment field value
func (o *DeprecationInfo) GetComment() string {
if o == nil {
var ret string
return ret
}
return o.Comment
}
// GetCommentOk returns a tuple with the Comment field value
// and a boolean to check if the value has been set.
func (o *DeprecationInfo) GetCommentOk() (*string, bool) {
if o == nil {
return nil, false
}
return &o.Comment, true
}
// SetComment sets field value
func (o *DeprecationInfo) SetComment(v string) {
o.Comment = v
}
// GetIssued returns the Issued field value
func (o *DeprecationInfo) GetIssued() time.Time {
if o == nil {
var ret time.Time
return ret
}
return o.Issued
}
// GetIssuedOk returns a tuple with the Issued field value
// and a boolean to check if the value has been set.
func (o *DeprecationInfo) GetIssuedOk() (*time.Time, bool) {
if o == nil {
return nil, false
}
return &o.Issued, true
}
// SetIssued sets field value
func (o *DeprecationInfo) SetIssued(v time.Time) {
o.Issued = v
}
// GetRemoval returns the Removal field value
func (o *DeprecationInfo) GetRemoval() time.Time {
if o == nil {
var ret time.Time
return ret
}
return o.Removal
}
// GetRemovalOk returns a tuple with the Removal field value
// and a boolean to check if the value has been set.
func (o *DeprecationInfo) GetRemovalOk() (*time.Time, bool) {
if o == nil {
return nil, false
}
return &o.Removal, true
}
// SetRemoval sets field value
func (o *DeprecationInfo) SetRemoval(v time.Time) {
o.Removal = v
}
func (o DeprecationInfo) MarshalJSON() ([]byte, error) {
toSerialize,err := o.ToMap()
if err != nil {
return []byte{}, err
}
return json.Marshal(toSerialize)
}
func (o DeprecationInfo) ToMap() (map[string]interface{}, error) {
toSerialize := map[string]interface{}{}
toSerialize["comment"] = o.Comment
toSerialize["issued"] = o.Issued
toSerialize["removal"] = o.Removal
return toSerialize, nil
}
func (o *DeprecationInfo) UnmarshalJSON(data []byte) (err error) {
// This validates that all required properties are included in the JSON object
// by unmarshalling the object into a generic map with string keys and checking
// that every required field exists as a key in the generic map.
requiredProperties := []string{
"comment",
"issued",
"removal",
}
allProperties := make(map[string]interface{})
err = json.Unmarshal(data, &allProperties)
if err != nil {
return err;
}
for _, requiredProperty := range(requiredProperties) {
if _, exists := allProperties[requiredProperty]; !exists {
return fmt.Errorf("no value given for required property %v", requiredProperty)
}
}
varDeprecationInfo := _DeprecationInfo{}
decoder := json.NewDecoder(bytes.NewReader(data))
decoder.DisallowUnknownFields()
err = decoder.Decode(&varDeprecationInfo)
if err != nil {
return err
}
*o = DeprecationInfo(varDeprecationInfo)
return err
}
type NullableDeprecationInfo struct {
value *DeprecationInfo
isSet bool
}
func (v NullableDeprecationInfo) Get() *DeprecationInfo {
return v.value
}
func (v *NullableDeprecationInfo) Set(val *DeprecationInfo) {
v.value = val
v.isSet = true
}
func (v NullableDeprecationInfo) IsSet() bool {
return v.isSet
}
func (v *NullableDeprecationInfo) Unset() {
v.value = nil
v.isSet = false
}
func NewNullableDeprecationInfo(val *DeprecationInfo) *NullableDeprecationInfo {
return &NullableDeprecationInfo{value: val, isSet: true}
}
func (v NullableDeprecationInfo) MarshalJSON() ([]byte, error) {
return json.Marshal(v.value)
}
func (v *NullableDeprecationInfo) UnmarshalJSON(src []byte) error {
v.isSet = true
return json.Unmarshal(src, &v.value)
}