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// This is a generated file (see the discoveryapis_generator project).
// ignore_for_file: camel_case_types
// ignore_for_file: comment_references
// ignore_for_file: file_names
// ignore_for_file: library_names
// ignore_for_file: lines_longer_than_80_chars
// ignore_for_file: non_constant_identifier_names
// ignore_for_file: prefer_expression_function_bodies
// ignore_for_file: prefer_final_locals
// ignore_for_file: prefer_interpolation_to_compose_strings
// ignore_for_file: unnecessary_brace_in_string_interps
// ignore_for_file: unnecessary_cast
// ignore_for_file: unnecessary_lambdas
// ignore_for_file: unnecessary_parenthesis
// ignore_for_file: unnecessary_string_interpolations
/// Cloud Talent Solution API - v3
///
/// Cloud Talent Solution provides the capability to create, read, update, and
/// delete job postings, as well as search jobs based on keywords and filters.
///
/// For more information, see
/// <https://cloud.google.com/talent-solution/job-search/docs/>
library jobs.v3;
import 'dart:async' as async;
import 'dart:convert' as convert;
import 'dart:core' as core;
import 'package:_discoveryapis_commons/_discoveryapis_commons.dart' as commons;
import 'package:http/http.dart' as http;
import '../src/user_agent.dart';
export 'package:_discoveryapis_commons/_discoveryapis_commons.dart'
show ApiRequestError, DetailedApiRequestError;
/// Cloud Talent Solution provides the capability to create, read, update, and
/// delete job postings, as well as search jobs based on keywords and filters.
class JobsApi {
/// View and manage your data across Google Cloud Platform services
static const cloudPlatformScope =
'https://www.googleapis.com/auth/cloud-platform';
/// Manage job postings
static const jobsScope = 'https://www.googleapis.com/auth/jobs';
final commons.ApiRequester _requester;
ProjectsResourceApi get projects => ProjectsResourceApi(_requester);
JobsApi(http.Client client,
{core.String rootUrl = 'https://jobs.googleapis.com/',
core.String servicePath = ''})
: _requester =
commons.ApiRequester(client, rootUrl, servicePath, userAgent);
}
class ProjectsResourceApi {
final commons.ApiRequester _requester;
ProjectsClientEventsResourceApi get clientEvents =>
ProjectsClientEventsResourceApi(_requester);
ProjectsCompaniesResourceApi get companies =>
ProjectsCompaniesResourceApi(_requester);
ProjectsJobsResourceApi get jobs => ProjectsJobsResourceApi(_requester);
ProjectsResourceApi(commons.ApiRequester client) : _requester = client;
/// Completes the specified prefix with keyword suggestions. Intended for use
/// by a job search auto-complete search box.
///
/// Request parameters:
///
/// [name] - Required. Resource name of project the completion is performed
/// within. The format is "projects/{project_id}", for example,
/// "projects/api-test-project".
/// Value must have pattern "^projects/[^/]+$".
///
/// [companyName] - Optional. If provided, restricts completion to specified
/// company. The format is "projects/{project_id}/companies/{company_id}", for
/// example, "projects/api-test-project/companies/foo".
///
/// [languageCode] - Deprecated. Use language_codes instead. Optional. The
/// language of the query. This is the BCP-47 language code, such as "en-US"
/// or "sr-Latn". For more information, see [Tags for Identifying
/// Languages](https://tools.ietf.org/html/bcp47). For
/// CompletionType.JOB_TITLE type, only open jobs with the same language_code
/// are returned. For CompletionType.COMPANY_NAME type, only companies having
/// open jobs with the same language_code are returned. For
/// CompletionType.COMBINED type, only open jobs with the same language_code
/// or companies having open jobs with the same language_code are returned.
/// The maximum number of allowed characters is 255.
///
/// [languageCodes] - Optional. The list of languages of the query. This is
/// the BCP-47 language code, such as "en-US" or "sr-Latn". For more
/// information, see [Tags for Identifying
/// Languages](https://tools.ietf.org/html/bcp47). For
/// CompletionType.JOB_TITLE type, only open jobs with the same language_codes
/// are returned. For CompletionType.COMPANY_NAME type, only companies having
/// open jobs with the same language_codes are returned. For
/// CompletionType.COMBINED type, only open jobs with the same language_codes
/// or companies having open jobs with the same language_codes are returned.
/// The maximum number of allowed characters is 255.
///
/// [pageSize] - Required. Completion result count. The maximum allowed page
/// size is 10.
///
/// [query] - Required. The query used to generate suggestions. The maximum
/// number of allowed characters is 255.
///
/// [scope] - Optional. The scope of the completion. The defaults is
/// CompletionScope.PUBLIC.
/// Possible string values are:
/// - "COMPLETION_SCOPE_UNSPECIFIED" : Default value.
/// - "TENANT" : Suggestions are based only on the data provided by the
/// client.
/// - "PUBLIC" : Suggestions are based on all jobs data in the system that's
/// visible to the client
///
/// [type] - Optional. The completion topic. The default is
/// CompletionType.COMBINED.
/// Possible string values are:
/// - "COMPLETION_TYPE_UNSPECIFIED" : Default value.
/// - "JOB_TITLE" : Only suggest job titles.
/// - "COMPANY_NAME" : Only suggest company names.
/// - "COMBINED" : Suggest both job titles and company names.
///
/// [$fields] - Selector specifying which fields to include in a partial
/// response.
///
/// Completes with a [CompleteQueryResponse].
///
/// Completes with a [commons.ApiRequestError] if the API endpoint returned an
/// error.
///
/// If the used [http.Client] completes with an error when making a REST call,
/// this method will complete with the same error.
async.Future<CompleteQueryResponse> complete(
core.String name, {
core.String companyName,
core.String languageCode,
core.List<core.String> languageCodes,
core.int pageSize,
core.String query,
core.String scope,
core.String type,
core.String $fields,
}) {
core.String _url;
final _queryParams = <core.String, core.List<core.String>>{};
commons.Media _uploadMedia;
commons.UploadOptions _uploadOptions;
var _downloadOptions = commons.DownloadOptions.Metadata;
core.String _body;
if (name == null) {
throw core.ArgumentError('Parameter name is required.');
}
if (companyName != null) {
_queryParams['companyName'] = [companyName];
}
if (languageCode != null) {
_queryParams['languageCode'] = [languageCode];
}
if (languageCodes != null) {
_queryParams['languageCodes'] = languageCodes;
}
if (pageSize != null) {
_queryParams['pageSize'] = ['${pageSize}'];
}
if (query != null) {
_queryParams['query'] = [query];
}
if (scope != null) {
_queryParams['scope'] = [scope];
}
if (type != null) {
_queryParams['type'] = [type];
}
if ($fields != null) {
_queryParams['fields'] = [$fields];
}
_url = 'v3/' + commons.Escaper.ecapeVariableReserved('$name') + ':complete';
final _response = _requester.request(
_url,
'GET',
body: _body,
queryParams: _queryParams,
uploadOptions: _uploadOptions,
uploadMedia: _uploadMedia,
downloadOptions: _downloadOptions,
);
return _response.then(
(data) => CompleteQueryResponse.fromJson(
data as core.Map<core.String, core.dynamic>),
);
}
}
class ProjectsClientEventsResourceApi {
final commons.ApiRequester _requester;
ProjectsClientEventsResourceApi(commons.ApiRequester client)
: _requester = client;
/// Report events issued when end user interacts with customer's application
/// that uses Cloud Talent Solution. You may inspect the created events in
/// [self service
/// tools](https://console.cloud.google.com/talent-solution/overview). [Learn
/// more](https://cloud.google.com/talent-solution/docs/management-tools)
/// about self service tools.
///
/// [request] - The metadata request object.
///
/// Request parameters:
///
/// [parent] - Parent project name.
/// Value must have pattern "^projects/[^/]+$".
///
/// [$fields] - Selector specifying which fields to include in a partial
/// response.
///
/// Completes with a [ClientEvent].
///
/// Completes with a [commons.ApiRequestError] if the API endpoint returned an
/// error.
///
/// If the used [http.Client] completes with an error when making a REST call,
/// this method will complete with the same error.
async.Future<ClientEvent> create(
CreateClientEventRequest request,
core.String parent, {
core.String $fields,
}) {
core.String _url;
final _queryParams = <core.String, core.List<core.String>>{};
commons.Media _uploadMedia;
commons.UploadOptions _uploadOptions;
var _downloadOptions = commons.DownloadOptions.Metadata;
core.String _body;
if (request != null) {
_body = convert.json.encode(request.toJson());
}
if (parent == null) {
throw core.ArgumentError('Parameter parent is required.');
}
if ($fields != null) {
_queryParams['fields'] = [$fields];
}
_url = 'v3/' +
commons.Escaper.ecapeVariableReserved('$parent') +
'/clientEvents';
final _response = _requester.request(
_url,
'POST',
body: _body,
queryParams: _queryParams,
uploadOptions: _uploadOptions,
uploadMedia: _uploadMedia,
downloadOptions: _downloadOptions,
);
return _response.then(
(data) =>
ClientEvent.fromJson(data as core.Map<core.String, core.dynamic>),
);
}
}
class ProjectsCompaniesResourceApi {
final commons.ApiRequester _requester;
ProjectsCompaniesResourceApi(commons.ApiRequester client)
: _requester = client;
/// Creates a new company entity.
///
/// [request] - The metadata request object.
///
/// Request parameters:
///
/// [parent] - Required. Resource name of the project under which the company
/// is created. The format is "projects/{project_id}", for example,
/// "projects/api-test-project".
/// Value must have pattern "^projects/[^/]+$".
///
/// [$fields] - Selector specifying which fields to include in a partial
/// response.
///
/// Completes with a [Company].
///
/// Completes with a [commons.ApiRequestError] if the API endpoint returned an
/// error.
///
/// If the used [http.Client] completes with an error when making a REST call,
/// this method will complete with the same error.
async.Future<Company> create(
CreateCompanyRequest request,
core.String parent, {
core.String $fields,
}) {
core.String _url;
final _queryParams = <core.String, core.List<core.String>>{};
commons.Media _uploadMedia;
commons.UploadOptions _uploadOptions;
var _downloadOptions = commons.DownloadOptions.Metadata;
core.String _body;
if (request != null) {
_body = convert.json.encode(request.toJson());
}
if (parent == null) {
throw core.ArgumentError('Parameter parent is required.');
}
if ($fields != null) {
_queryParams['fields'] = [$fields];
}
_url =
'v3/' + commons.Escaper.ecapeVariableReserved('$parent') + '/companies';
final _response = _requester.request(
_url,
'POST',
body: _body,
queryParams: _queryParams,
uploadOptions: _uploadOptions,
uploadMedia: _uploadMedia,
downloadOptions: _downloadOptions,
);
return _response.then(
(data) => Company.fromJson(data as core.Map<core.String, core.dynamic>),
);
}
/// Deletes specified company. Prerequisite: The company has no jobs
/// associated with it.
///
/// Request parameters:
///
/// [name] - Required. The resource name of the company to be deleted. The
/// format is "projects/{project_id}/companies/{company_id}", for example,
/// "projects/api-test-project/companies/foo".
/// Value must have pattern "^projects/[^/]+/companies/[^/]+$".
///
/// [$fields] - Selector specifying which fields to include in a partial
/// response.
///
/// Completes with a [Empty].
///
/// Completes with a [commons.ApiRequestError] if the API endpoint returned an
/// error.
///
/// If the used [http.Client] completes with an error when making a REST call,
/// this method will complete with the same error.
async.Future<Empty> delete(
core.String name, {
core.String $fields,
}) {
core.String _url;
final _queryParams = <core.String, core.List<core.String>>{};
commons.Media _uploadMedia;
commons.UploadOptions _uploadOptions;
var _downloadOptions = commons.DownloadOptions.Metadata;
core.String _body;
if (name == null) {
throw core.ArgumentError('Parameter name is required.');
}
if ($fields != null) {
_queryParams['fields'] = [$fields];
}
_url = 'v3/' + commons.Escaper.ecapeVariableReserved('$name');
final _response = _requester.request(
_url,
'DELETE',
body: _body,
queryParams: _queryParams,
uploadOptions: _uploadOptions,
uploadMedia: _uploadMedia,
downloadOptions: _downloadOptions,
);
return _response.then(
(data) => Empty.fromJson(data as core.Map<core.String, core.dynamic>),
);
}
/// Retrieves specified company.
///
/// Request parameters:
///
/// [name] - Required. The resource name of the company to be retrieved. The
/// format is "projects/{project_id}/companies/{company_id}", for example,
/// "projects/api-test-project/companies/foo".
/// Value must have pattern "^projects/[^/]+/companies/[^/]+$".
///
/// [$fields] - Selector specifying which fields to include in a partial
/// response.
///
/// Completes with a [Company].
///
/// Completes with a [commons.ApiRequestError] if the API endpoint returned an
/// error.
///
/// If the used [http.Client] completes with an error when making a REST call,
/// this method will complete with the same error.
async.Future<Company> get(
core.String name, {
core.String $fields,
}) {
core.String _url;
final _queryParams = <core.String, core.List<core.String>>{};
commons.Media _uploadMedia;
commons.UploadOptions _uploadOptions;
var _downloadOptions = commons.DownloadOptions.Metadata;
core.String _body;
if (name == null) {
throw core.ArgumentError('Parameter name is required.');
}
if ($fields != null) {
_queryParams['fields'] = [$fields];
}
_url = 'v3/' + commons.Escaper.ecapeVariableReserved('$name');
final _response = _requester.request(
_url,
'GET',
body: _body,
queryParams: _queryParams,
uploadOptions: _uploadOptions,
uploadMedia: _uploadMedia,
downloadOptions: _downloadOptions,
);
return _response.then(
(data) => Company.fromJson(data as core.Map<core.String, core.dynamic>),
);
}
/// Lists all companies associated with the service account.
///
/// Request parameters:
///
/// [parent] - Required. Resource name of the project under which the company
/// is created. The format is "projects/{project_id}", for example,
/// "projects/api-test-project".
/// Value must have pattern "^projects/[^/]+$".
///
/// [pageSize] - Optional. The maximum number of companies to be returned, at
/// most 100. Default is 100 if a non-positive number is provided.
///
/// [pageToken] - Optional. The starting indicator from which to return
/// results.
///
/// [requireOpenJobs] - Optional. Set to true if the companies requested must
/// have open jobs. Defaults to false. If true, at most page_size of companies
/// are fetched, among which only those with open jobs are returned.
///
/// [$fields] - Selector specifying which fields to include in a partial
/// response.
///
/// Completes with a [ListCompaniesResponse].
///
/// Completes with a [commons.ApiRequestError] if the API endpoint returned an
/// error.
///
/// If the used [http.Client] completes with an error when making a REST call,
/// this method will complete with the same error.
async.Future<ListCompaniesResponse> list(
core.String parent, {
core.int pageSize,
core.String pageToken,
core.bool requireOpenJobs,
core.String $fields,
}) {
core.String _url;
final _queryParams = <core.String, core.List<core.String>>{};
commons.Media _uploadMedia;
commons.UploadOptions _uploadOptions;
var _downloadOptions = commons.DownloadOptions.Metadata;
core.String _body;
if (parent == null) {
throw core.ArgumentError('Parameter parent is required.');
}
if (pageSize != null) {
_queryParams['pageSize'] = ['${pageSize}'];
}
if (pageToken != null) {
_queryParams['pageToken'] = [pageToken];
}
if (requireOpenJobs != null) {
_queryParams['requireOpenJobs'] = ['${requireOpenJobs}'];
}
if ($fields != null) {
_queryParams['fields'] = [$fields];
}
_url =
'v3/' + commons.Escaper.ecapeVariableReserved('$parent') + '/companies';
final _response = _requester.request(
_url,
'GET',
body: _body,
queryParams: _queryParams,
uploadOptions: _uploadOptions,
uploadMedia: _uploadMedia,
downloadOptions: _downloadOptions,
);
return _response.then(
(data) => ListCompaniesResponse.fromJson(
data as core.Map<core.String, core.dynamic>),
);
}
/// Updates specified company. Company names can't be updated. To update a
/// company name, delete the company and all jobs associated with it, and only
/// then re-create them.
///
/// [request] - The metadata request object.
///
/// Request parameters:
///
/// [name] - Required during company update. The resource name for a company.
/// This is generated by the service when a company is created. The format is
/// "projects/{project_id}/companies/{company_id}", for example,
/// "projects/api-test-project/companies/foo".
/// Value must have pattern "^projects/[^/]+/companies/[^/]+$".
///
/// [$fields] - Selector specifying which fields to include in a partial
/// response.
///
/// Completes with a [Company].
///
/// Completes with a [commons.ApiRequestError] if the API endpoint returned an
/// error.
///
/// If the used [http.Client] completes with an error when making a REST call,
/// this method will complete with the same error.
async.Future<Company> patch(
UpdateCompanyRequest request,
core.String name, {
core.String $fields,
}) {
core.String _url;
final _queryParams = <core.String, core.List<core.String>>{};
commons.Media _uploadMedia;
commons.UploadOptions _uploadOptions;
var _downloadOptions = commons.DownloadOptions.Metadata;
core.String _body;
if (request != null) {
_body = convert.json.encode(request.toJson());
}
if (name == null) {
throw core.ArgumentError('Parameter name is required.');
}
if ($fields != null) {
_queryParams['fields'] = [$fields];
}
_url = 'v3/' + commons.Escaper.ecapeVariableReserved('$name');
final _response = _requester.request(
_url,
'PATCH',
body: _body,
queryParams: _queryParams,
uploadOptions: _uploadOptions,
uploadMedia: _uploadMedia,
downloadOptions: _downloadOptions,
);
return _response.then(
(data) => Company.fromJson(data as core.Map<core.String, core.dynamic>),
);
}
}
class ProjectsJobsResourceApi {
final commons.ApiRequester _requester;
ProjectsJobsResourceApi(commons.ApiRequester client) : _requester = client;
/// Deletes a list of Jobs by filter.
///
/// [request] - The metadata request object.
///
/// Request parameters:
///
/// [parent] - Required. The resource name of the project under which the job
/// is created. The format is "projects/{project_id}", for example,
/// "projects/api-test-project".
/// Value must have pattern "^projects/[^/]+$".
///
/// [$fields] - Selector specifying which fields to include in a partial
/// response.
///
/// Completes with a [Empty].
///
/// Completes with a [commons.ApiRequestError] if the API endpoint returned an
/// error.
///
/// If the used [http.Client] completes with an error when making a REST call,
/// this method will complete with the same error.
async.Future<Empty> batchDelete(
BatchDeleteJobsRequest request,
core.String parent, {
core.String $fields,
}) {
core.String _url;
final _queryParams = <core.String, core.List<core.String>>{};
commons.Media _uploadMedia;
commons.UploadOptions _uploadOptions;
var _downloadOptions = commons.DownloadOptions.Metadata;
core.String _body;
if (request != null) {
_body = convert.json.encode(request.toJson());
}
if (parent == null) {
throw core.ArgumentError('Parameter parent is required.');
}
if ($fields != null) {
_queryParams['fields'] = [$fields];
}
_url = 'v3/' +
commons.Escaper.ecapeVariableReserved('$parent') +
'/jobs:batchDelete';
final _response = _requester.request(
_url,
'POST',
body: _body,
queryParams: _queryParams,
uploadOptions: _uploadOptions,
uploadMedia: _uploadMedia,
downloadOptions: _downloadOptions,
);
return _response.then(
(data) => Empty.fromJson(data as core.Map<core.String, core.dynamic>),
);
}
/// Creates a new job. Typically, the job becomes searchable within 10
/// seconds, but it may take up to 5 minutes.
///
/// [request] - The metadata request object.
///
/// Request parameters:
///
/// [parent] - Required. The resource name of the project under which the job
/// is created. The format is "projects/{project_id}", for example,
/// "projects/api-test-project".
/// Value must have pattern "^projects/[^/]+$".
///
/// [$fields] - Selector specifying which fields to include in a partial
/// response.
///
/// Completes with a [Job].
///
/// Completes with a [commons.ApiRequestError] if the API endpoint returned an
/// error.
///
/// If the used [http.Client] completes with an error when making a REST call,
/// this method will complete with the same error.
async.Future<Job> create(
CreateJobRequest request,
core.String parent, {
core.String $fields,
}) {
core.String _url;
final _queryParams = <core.String, core.List<core.String>>{};
commons.Media _uploadMedia;
commons.UploadOptions _uploadOptions;
var _downloadOptions = commons.DownloadOptions.Metadata;
core.String _body;
if (request != null) {
_body = convert.json.encode(request.toJson());
}
if (parent == null) {
throw core.ArgumentError('Parameter parent is required.');
}
if ($fields != null) {
_queryParams['fields'] = [$fields];
}
_url = 'v3/' + commons.Escaper.ecapeVariableReserved('$parent') + '/jobs';
final _response = _requester.request(
_url,
'POST',
body: _body,
queryParams: _queryParams,
uploadOptions: _uploadOptions,
uploadMedia: _uploadMedia,
downloadOptions: _downloadOptions,
);
return _response.then(
(data) => Job.fromJson(data as core.Map<core.String, core.dynamic>),
);
}
/// Deletes the specified job. Typically, the job becomes unsearchable within
/// 10 seconds, but it may take up to 5 minutes.
///
/// Request parameters:
///
/// [name] - Required. The resource name of the job to be deleted. The format
/// is "projects/{project_id}/jobs/{job_id}", for example,
/// "projects/api-test-project/jobs/1234".
/// Value must have pattern "^projects/[^/]+/jobs/[^/]+$".
///
/// [$fields] - Selector specifying which fields to include in a partial
/// response.
///
/// Completes with a [Empty].
///
/// Completes with a [commons.ApiRequestError] if the API endpoint returned an
/// error.
///
/// If the used [http.Client] completes with an error when making a REST call,
/// this method will complete with the same error.
async.Future<Empty> delete(
core.String name, {
core.String $fields,
}) {
core.String _url;
final _queryParams = <core.String, core.List<core.String>>{};
commons.Media _uploadMedia;
commons.UploadOptions _uploadOptions;
var _downloadOptions = commons.DownloadOptions.Metadata;
core.String _body;
if (name == null) {
throw core.ArgumentError('Parameter name is required.');
}
if ($fields != null) {
_queryParams['fields'] = [$fields];
}
_url = 'v3/' + commons.Escaper.ecapeVariableReserved('$name');
final _response = _requester.request(
_url,
'DELETE',
body: _body,
queryParams: _queryParams,
uploadOptions: _uploadOptions,
uploadMedia: _uploadMedia,
downloadOptions: _downloadOptions,
);
return _response.then(
(data) => Empty.fromJson(data as core.Map<core.String, core.dynamic>),
);
}
/// Retrieves the specified job, whose status is OPEN or recently EXPIRED
/// within the last 90 days.
///
/// Request parameters:
///
/// [name] - Required. The resource name of the job to retrieve. The format is
/// "projects/{project_id}/jobs/{job_id}", for example,
/// "projects/api-test-project/jobs/1234".
/// Value must have pattern "^projects/[^/]+/jobs/[^/]+$".
///
/// [$fields] - Selector specifying which fields to include in a partial
/// response.
///
/// Completes with a [Job].
///
/// Completes with a [commons.ApiRequestError] if the API endpoint returned an
/// error.
///
/// If the used [http.Client] completes with an error when making a REST call,
/// this method will complete with the same error.
async.Future<Job> get(
core.String name, {
core.String $fields,
}) {
core.String _url;
final _queryParams = <core.String, core.List<core.String>>{};
commons.Media _uploadMedia;
commons.UploadOptions _uploadOptions;
var _downloadOptions = commons.DownloadOptions.Metadata;
core.String _body;
if (name == null) {
throw core.ArgumentError('Parameter name is required.');
}
if ($fields != null) {
_queryParams['fields'] = [$fields];
}
_url = 'v3/' + commons.Escaper.ecapeVariableReserved('$name');
final _response = _requester.request(
_url,
'GET',
body: _body,
queryParams: _queryParams,
uploadOptions: _uploadOptions,
uploadMedia: _uploadMedia,
downloadOptions: _downloadOptions,
);
return _response.then(
(data) => Job.fromJson(data as core.Map<core.String, core.dynamic>),
);
}
/// Lists jobs by filter.
///
/// Request parameters:
///
/// [parent] - Required. The resource name of the project under which the job
/// is created. The format is "projects/{project_id}", for example,
/// "projects/api-test-project".
/// Value must have pattern "^projects/[^/]+$".
///
/// [filter] - Required. The filter string specifies the jobs to be
/// enumerated. Supported operator: =, AND The fields eligible for filtering
/// are: * `companyName` (Required) * `requisitionId` (Optional) Sample Query:
/// * companyName = "projects/api-test-project/companies/123" * companyName =
/// "projects/api-test-project/companies/123" AND requisitionId = "req-1"
///
/// [jobView] - Optional. The desired job attributes returned for jobs in the
/// search response. Defaults to JobView.JOB_VIEW_FULL if no value is
/// specified.
/// Possible string values are:
/// - "JOB_VIEW_UNSPECIFIED" : Default value.
/// - "JOB_VIEW_ID_ONLY" : A ID only view of job, with following attributes:
/// Job.name, Job.requisition_id, Job.language_code.
/// - "JOB_VIEW_MINIMAL" : A minimal view of the job, with the following
/// attributes: Job.name, Job.requisition_id, Job.title, Job.company_name,
/// Job.DerivedInfo.locations, Job.language_code.
/// - "JOB_VIEW_SMALL" : A small view of the job, with the following
/// attributes in the search results: Job.name, Job.requisition_id, Job.title,
/// Job.company_name, Job.DerivedInfo.locations, Job.visibility,
/// Job.language_code, Job.description.
/// - "JOB_VIEW_FULL" : All available attributes are included in the search
/// results.
///
/// [pageSize] - Optional. The maximum number of jobs to be returned per page
/// of results. If job_view is set to JobView.JOB_VIEW_ID_ONLY, the maximum
/// allowed page size is 1000. Otherwise, the maximum allowed page size is
/// 100. Default is 100 if empty or a number < 1 is specified.
///
/// [pageToken] - Optional. The starting point of a query result.
///
/// [$fields] - Selector specifying which fields to include in a partial
/// response.
///
/// Completes with a [ListJobsResponse].
///
/// Completes with a [commons.ApiRequestError] if the API endpoint returned an
/// error.
///
/// If the used [http.Client] completes with an error when making a REST call,
/// this method will complete with the same error.
async.Future<ListJobsResponse> list(
core.String parent, {
core.String filter,
core.String jobView,
core.int pageSize,
core.String pageToken,
core.String $fields,
}) {
core.String _url;
final _queryParams = <core.String, core.List<core.String>>{};
commons.Media _uploadMedia;
commons.UploadOptions _uploadOptions;
var _downloadOptions = commons.DownloadOptions.Metadata;
core.String _body;
if (parent == null) {
throw core.ArgumentError('Parameter parent is required.');
}
if (filter != null) {
_queryParams['filter'] = [filter];
}
if (jobView != null) {
_queryParams['jobView'] = [jobView];
}
if (pageSize != null) {
_queryParams['pageSize'] = ['${pageSize}'];
}
if (pageToken != null) {
_queryParams['pageToken'] = [pageToken];
}
if ($fields != null) {
_queryParams['fields'] = [$fields];
}
_url = 'v3/' + commons.Escaper.ecapeVariableReserved('$parent') + '/jobs';
final _response = _requester.request(
_url,
'GET',
body: _body,
queryParams: _queryParams,
uploadOptions: _uploadOptions,
uploadMedia: _uploadMedia,
downloadOptions: _downloadOptions,
);
return _response.then(
(data) => ListJobsResponse.fromJson(
data as core.Map<core.String, core.dynamic>),
);
}
/// Updates specified job. Typically, updated contents become visible in
/// search results within 10 seconds, but it may take up to 5 minutes.
///
/// [request] - The metadata request object.
///
/// Request parameters:
///
/// [name] - Required during job update. The resource name for the job. This
/// is generated by the service when a job is created. The format is
/// "projects/{project_id}/jobs/{job_id}", for example,
/// "projects/api-test-project/jobs/1234". Use of this field in job queries
/// and API calls is preferred over the use of requisition_id since this value
/// is unique.
/// Value must have pattern "^projects/[^/]+/jobs/[^/]+$".
///
/// [$fields] - Selector specifying which fields to include in a partial
/// response.
///
/// Completes with a [Job].
///
/// Completes with a [commons.ApiRequestError] if the API endpoint returned an
/// error.
///
/// If the used [http.Client] completes with an error when making a REST call,
/// this method will complete with the same error.
async.Future<Job> patch(
UpdateJobRequest request,
core.String name, {
core.String $fields,
}) {
core.String _url;
final _queryParams = <core.String, core.List<core.String>>{};
commons.Media _uploadMedia;
commons.UploadOptions _uploadOptions;
var _downloadOptions = commons.DownloadOptions.Metadata;
core.String _body;
if (request != null) {
_body = convert.json.encode(request.toJson());
}
if (name == null) {
throw core.ArgumentError('Parameter name is required.');
}
if ($fields != null) {
_queryParams['fields'] = [$fields];
}
_url = 'v3/' + commons.Escaper.ecapeVariableReserved('$name');
final _response = _requester.request(
_url,
'PATCH',
body: _body,
queryParams: _queryParams,
uploadOptions: _uploadOptions,
uploadMedia: _uploadMedia,
downloadOptions: _downloadOptions,
);
return _response.then(
(data) => Job.fromJson(data as core.Map<core.String, core.dynamic>),
);
}
/// Searches for jobs using the provided SearchJobsRequest. This call
/// constrains the visibility of jobs present in the database, and only
/// returns jobs that the caller has permission to search against.
///
/// [request] - The metadata request object.
///
/// Request parameters:
///
/// [parent] - Required. The resource name of the project to search within.
/// The format is "projects/{project_id}", for example,
/// "projects/api-test-project".
/// Value must have pattern "^projects/[^/]+$".
///
/// [$fields] - Selector specifying which fields to include in a partial
/// response.
///
/// Completes with a [SearchJobsResponse].
///
/// Completes with a [commons.ApiRequestError] if the API endpoint returned an
/// error.
///
/// If the used [http.Client] completes with an error when making a REST call,
/// this method will complete with the same error.
async.Future<SearchJobsResponse> search(
SearchJobsRequest request,
core.String parent, {
core.String $fields,
}) {
core.String _url;
final _queryParams = <core.String, core.List<core.String>>{};
commons.Media _uploadMedia;
commons.UploadOptions _uploadOptions;
var _downloadOptions = commons.DownloadOptions.Metadata;
core.String _body;
if (request != null) {
_body = convert.json.encode(request.toJson());
}
if (parent == null) {
throw core.ArgumentError('Parameter parent is required.');
}
if ($fields != null) {
_queryParams['fields'] = [$fields];
}
_url = 'v3/' +
commons.Escaper.ecapeVariableReserved('$parent') +
'/jobs:search';
final _response = _requester.request(
_url,
'POST',
body: _body,
queryParams: _queryParams,
uploadOptions: _uploadOptions,
uploadMedia: _uploadMedia,
downloadOptions: _downloadOptions,
);
return _response.then(
(data) => SearchJobsResponse.fromJson(
data as core.Map<core.String, core.dynamic>),
);
}
/// Searches for jobs using the provided SearchJobsRequest. This API call is
/// intended for the use case of targeting passive job seekers (for example,
/// job seekers who have signed up to receive email alerts about potential job
/// opportunities), and has different algorithmic adjustments that are
/// targeted to passive job seekers. This call constrains the visibility of
/// jobs present in the database, and only returns jobs the caller has
/// permission to search against.
///
/// [request] - The metadata request object.
///
/// Request parameters:
///
/// [parent] - Required. The resource name of the project to search within.
/// The format is "projects/{project_id}", for example,
/// "projects/api-test-project".
/// Value must have pattern "^projects/[^/]+$".
///
/// [$fields] - Selector specifying which fields to include in a partial
/// response.
///
/// Completes with a [SearchJobsResponse].
///
/// Completes with a [commons.ApiRequestError] if the API endpoint returned an
/// error.
///
/// If the used [http.Client] completes with an error when making a REST call,
/// this method will complete with the same error.
async.Future<SearchJobsResponse> searchForAlert(
SearchJobsRequest request,
core.String parent, {
core.String $fields,
}) {
core.String _url;
final _queryParams = <core.String, core.List<core.String>>{};
commons.Media _uploadMedia;
commons.UploadOptions _uploadOptions;
var _downloadOptions = commons.DownloadOptions.Metadata;
core.String _body;
if (request != null) {
_body = convert.json.encode(request.toJson());
}
if (parent == null) {
throw core.ArgumentError('Parameter parent is required.');
}
if ($fields != null) {
_queryParams['fields'] = [$fields];
}
_url = 'v3/' +
commons.Escaper.ecapeVariableReserved('$parent') +
'/jobs:searchForAlert';
final _response = _requester.request(
_url,
'POST',
body: _body,
queryParams: _queryParams,
uploadOptions: _uploadOptions,
uploadMedia: _uploadMedia,
downloadOptions: _downloadOptions,
);
return _response.then(
(data) => SearchJobsResponse.fromJson(
data as core.Map<core.String, core.dynamic>),
);
}
}
/// Application related details of a job posting.
class ApplicationInfo {
/// Optional but at least one of uris, emails or instruction must be
/// specified. Use this field to specify email address(es) to which resumes or
/// applications can be sent. The maximum number of allowed characters for
/// each entry is 255.
core.List<core.String> emails;
/// Optional but at least one of uris, emails or instruction must be
/// specified. Use this field to provide instructions, such as "Mail your
/// application to ...", that a candidate can follow to apply for the job.
/// This field accepts and sanitizes HTML input, and also accepts bold,
/// italic, ordered list, and unordered list markup tags. The maximum number
/// of allowed characters is 3,000.
core.String instruction;
/// Optional but at least one of uris, emails or instruction must be
/// specified. Use this URI field to direct an applicant to a website, for
/// example to link to an online application form. The maximum number of
/// allowed characters for each entry is 2,000.
core.List<core.String> uris;
ApplicationInfo();
ApplicationInfo.fromJson(core.Map _json) {
if (_json.containsKey('emails')) {
emails = (_json['emails'] as core.List)
.map<core.String>((value) => value as core.String)
.toList();
}
if (_json.containsKey('instruction')) {
instruction = _json['instruction'] as core.String;
}
if (_json.containsKey('uris')) {
uris = (_json['uris'] as core.List)
.map<core.String>((value) => value as core.String)
.toList();
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (emails != null) {
_json['emails'] = emails;
}
if (instruction != null) {
_json['instruction'] = instruction;
}
if (uris != null) {
_json['uris'] = uris;
}
return _json;
}
}
/// Input only. Batch delete jobs request.
class BatchDeleteJobsRequest {
/// Required. The filter string specifies the jobs to be deleted. Supported
/// operator: =, AND The fields eligible for filtering are: * `companyName`
/// (Required) * `requisitionId` (Required) Sample Query: companyName =
/// "projects/api-test-project/companies/123" AND requisitionId = "req-1"
core.String filter;
BatchDeleteJobsRequest();
BatchDeleteJobsRequest.fromJson(core.Map _json) {
if (_json.containsKey('filter')) {
filter = _json['filter'] as core.String;
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (filter != null) {
_json['filter'] = filter;
}
return _json;
}
}
/// Represents starting and ending value of a range in double.
class BucketRange {
/// Starting value of the bucket range.
core.double from;
/// Ending value of the bucket range.
core.double to;
BucketRange();
BucketRange.fromJson(core.Map _json) {
if (_json.containsKey('from')) {
from = (_json['from'] as core.num).toDouble();
}
if (_json.containsKey('to')) {
to = (_json['to'] as core.num).toDouble();
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (from != null) {
_json['from'] = from;
}
if (to != null) {
_json['to'] = to;
}
return _json;
}
}
/// Represents count of jobs within one bucket.
class BucketizedCount {
/// Number of jobs whose numeric field value fall into `range`.
core.int count;
/// Bucket range on which histogram was performed for the numeric field, that
/// is, the count represents number of jobs in this range.
BucketRange range;
BucketizedCount();
BucketizedCount.fromJson(core.Map _json) {
if (_json.containsKey('count')) {
count = _json['count'] as core.int;
}
if (_json.containsKey('range')) {
range = BucketRange.fromJson(
_json['range'] as core.Map<core.String, core.dynamic>);
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (count != null) {
_json['count'] = count;
}
if (range != null) {
_json['range'] = range.toJson();
}
return _json;
}
}
/// An event issued when an end user interacts with the application that
/// implements Cloud Talent Solution. Providing this information improves the
/// quality of search and recommendation for the API clients, enabling the
/// service to perform optimally. The number of events sent must be consistent
/// with other calls, such as job searches, issued to the service by the client.
class ClientEvent {
/// Required. The timestamp of the event.
core.String createTime;
/// Required. A unique identifier, generated by the client application. This
/// `event_id` is used to establish the relationship between different events
/// (see parent_event_id).
core.String eventId;
/// Optional. Extra information about this event. Used for storing information
/// with no matching field in event payload, for example, user application
/// specific context or details. At most 20 keys are supported. The maximum
/// total size of all keys and values is 2 KB.
core.Map<core.String, core.String> extraInfo;
/// A event issued when a job seeker interacts with the application that
/// implements Cloud Talent Solution.
JobEvent jobEvent;
/// Optional. The event_id of an event that resulted in the current event. For
/// example, a Job view event usually follows a parent impression event: A job
/// seeker first does a search where a list of jobs appears (impression). The
/// job seeker then selects a result and views the description of a particular
/// job (Job view).
core.String parentEventId;
/// Required. A unique ID generated in the API responses. It can be found in
/// ResponseMetadata.request_id.
core.String requestId;
ClientEvent();
ClientEvent.fromJson(core.Map _json) {
if (_json.containsKey('createTime')) {
createTime = _json['createTime'] as core.String;
}
if (_json.containsKey('eventId')) {
eventId = _json['eventId'] as core.String;
}
if (_json.containsKey('extraInfo')) {
extraInfo =
(_json['extraInfo'] as core.Map).cast<core.String, core.String>().map(
(key, item) => core.MapEntry(
key,
item as core.String,
),
);
}
if (_json.containsKey('jobEvent')) {
jobEvent = JobEvent.fromJson(
_json['jobEvent'] as core.Map<core.String, core.dynamic>);
}
if (_json.containsKey('parentEventId')) {
parentEventId = _json['parentEventId'] as core.String;
}
if (_json.containsKey('requestId')) {
requestId = _json['requestId'] as core.String;
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (createTime != null) {
_json['createTime'] = createTime;
}
if (eventId != null) {
_json['eventId'] = eventId;
}
if (extraInfo != null) {
_json['extraInfo'] = extraInfo;
}
if (jobEvent != null) {
_json['jobEvent'] = jobEvent.toJson();
}
if (parentEventId != null) {
_json['parentEventId'] = parentEventId;
}
if (requestId != null) {
_json['requestId'] = requestId;
}
return _json;
}
}
/// Input only. Parameters needed for commute search.
class CommuteFilter {
/// Optional. If true, jobs without "precise" addresses (street level
/// addresses or GPS coordinates) might also be returned. For city and coarser
/// level addresses, text matching is used. If this field is set to false or
/// is not specified, only jobs that include precise addresses are returned by
/// Commute Search. Note: If `allow_imprecise_addresses` is set to true,
/// Commute Search is not able to calculate accurate commute times to jobs
/// with city level and coarser address information. Jobs with imprecise
/// addresses will return a `travel_duration` time of 0 regardless of distance
/// from the job seeker.
core.bool allowImpreciseAddresses;
/// Required. The method of transportation for which to calculate the commute
/// time.
/// Possible string values are:
/// - "COMMUTE_METHOD_UNSPECIFIED" : Commute method is not specified.
/// - "DRIVING" : Commute time is calculated based on driving time.
/// - "TRANSIT" : Commute time is calculated based on public transit including
/// bus, metro, subway, etc.
core.String commuteMethod;
/// Optional. The departure time used to calculate traffic impact, represented
/// as google.type.TimeOfDay in local time zone. Currently traffic model is
/// restricted to hour level resolution.
TimeOfDay departureTime;
/// Optional. Specifies the traffic density to use when calculating commute
/// time.
/// Possible string values are:
/// - "ROAD_TRAFFIC_UNSPECIFIED" : Road traffic situation is not specified.
/// - "TRAFFIC_FREE" : Optimal commute time without considering any traffic
/// impact.
/// - "BUSY_HOUR" : Commute time calculation takes in account the peak traffic
/// impact.
core.String roadTraffic;
/// Required. The latitude and longitude of the location from which to
/// calculate the commute time.
LatLng startCoordinates;
/// Required. The maximum travel time in seconds. The maximum allowed value is
/// `3600s` (one hour). Format is `123s`.
core.String travelDuration;
CommuteFilter();
CommuteFilter.fromJson(core.Map _json) {
if (_json.containsKey('allowImpreciseAddresses')) {
allowImpreciseAddresses = _json['allowImpreciseAddresses'] as core.bool;
}
if (_json.containsKey('commuteMethod')) {
commuteMethod = _json['commuteMethod'] as core.String;
}
if (_json.containsKey('departureTime')) {
departureTime = TimeOfDay.fromJson(
_json['departureTime'] as core.Map<core.String, core.dynamic>);
}
if (_json.containsKey('roadTraffic')) {
roadTraffic = _json['roadTraffic'] as core.String;
}
if (_json.containsKey('startCoordinates')) {
startCoordinates = LatLng.fromJson(
_json['startCoordinates'] as core.Map<core.String, core.dynamic>);
}
if (_json.containsKey('travelDuration')) {
travelDuration = _json['travelDuration'] as core.String;
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (allowImpreciseAddresses != null) {
_json['allowImpreciseAddresses'] = allowImpreciseAddresses;
}
if (commuteMethod != null) {
_json['commuteMethod'] = commuteMethod;
}
if (departureTime != null) {
_json['departureTime'] = departureTime.toJson();
}
if (roadTraffic != null) {
_json['roadTraffic'] = roadTraffic;
}
if (startCoordinates != null) {
_json['startCoordinates'] = startCoordinates.toJson();
}
if (travelDuration != null) {
_json['travelDuration'] = travelDuration;
}
return _json;
}
}
/// Output only. Commute details related to this job.
class CommuteInfo {
/// Location used as the destination in the commute calculation.
Location jobLocation;
/// The number of seconds required to travel to the job location from the
/// query location. A duration of 0 seconds indicates that the job is not
/// reachable within the requested duration, but was returned as part of an
/// expanded query.
core.String travelDuration;
CommuteInfo();
CommuteInfo.fromJson(core.Map _json) {
if (_json.containsKey('jobLocation')) {
jobLocation = Location.fromJson(
_json['jobLocation'] as core.Map<core.String, core.dynamic>);
}
if (_json.containsKey('travelDuration')) {
travelDuration = _json['travelDuration'] as core.String;
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (jobLocation != null) {
_json['jobLocation'] = jobLocation.toJson();
}
if (travelDuration != null) {
_json['travelDuration'] = travelDuration;
}
return _json;
}
}
/// A Company resource represents a company in the service. A company is the
/// entity that owns job postings, that is, the hiring entity responsible for
/// employing applicants for the job position.
class Company {
/// Optional. The URI to employer's career site or careers page on the
/// employer's web site, for example, "https://careers.google.com".
core.String careerSiteUri;
/// Output only. Derived details about the company.
CompanyDerivedInfo derivedInfo;
/// Required. The display name of the company, for example, "Google LLC".
core.String displayName;
/// Optional. Equal Employment Opportunity legal disclaimer text to be
/// associated with all jobs, and typically to be displayed in all roles. The
/// maximum number of allowed characters is 500.
core.String eeoText;
/// Required. Client side company identifier, used to uniquely identify the
/// company. The maximum number of allowed characters is 255.
core.String externalId;
/// Optional. The street address of the company's main headquarters, which may
/// be different from the job location. The service attempts to geolocate the
/// provided address, and populates a more specific location wherever possible
/// in DerivedInfo.headquarters_location.
core.String headquartersAddress;
/// Optional. Set to true if it is the hiring agency that post jobs for other
/// employers. Defaults to false if not provided.
core.bool hiringAgency;
/// Optional. A URI that hosts the employer's company logo.
core.String imageUri;
/// Optional. A list of keys of filterable Job.custom_attributes, whose
/// corresponding `string_values` are used in keyword search. Jobs with
/// `string_values` under these specified field keys are returned if any of
/// the values matches the search keyword. Custom field values with
/// parenthesis, brackets and special symbols won't be properly searchable,
/// and those keyword queries need to be surrounded by quotes.
core.List<core.String> keywordSearchableJobCustomAttributes;
/// Required during company update. The resource name for a company. This is
/// generated by the service when a company is created. The format is
/// "projects/{project_id}/companies/{company_id}", for example,
/// "projects/api-test-project/companies/foo".
core.String name;
/// Optional. The employer's company size.
/// Possible string values are:
/// - "COMPANY_SIZE_UNSPECIFIED" : Default value if the size is not specified.
/// - "MINI" : The company has less than 50 employees.
/// - "SMALL" : The company has between 50 and 99 employees.
/// - "SMEDIUM" : The company has between 100 and 499 employees.
/// - "MEDIUM" : The company has between 500 and 999 employees.
/// - "BIG" : The company has between 1,000 and 4,999 employees.
/// - "BIGGER" : The company has between 5,000 and 9,999 employees.
/// - "GIANT" : The company has 10,000 or more employees.
core.String size;
/// Output only. Indicates whether a company is flagged to be suspended from
/// public availability by the service when job content appears suspicious,
/// abusive, or spammy.
core.bool suspended;
/// Optional. The URI representing the company's primary web site or home
/// page, for example, "https://www.google.com". The maximum number of allowed
/// characters is 255.
core.String websiteUri;
Company();
Company.fromJson(core.Map _json) {
if (_json.containsKey('careerSiteUri')) {
careerSiteUri = _json['careerSiteUri'] as core.String;
}
if (_json.containsKey('derivedInfo')) {
derivedInfo = CompanyDerivedInfo.fromJson(
_json['derivedInfo'] as core.Map<core.String, core.dynamic>);
}
if (_json.containsKey('displayName')) {
displayName = _json['displayName'] as core.String;
}
if (_json.containsKey('eeoText')) {
eeoText = _json['eeoText'] as core.String;
}
if (_json.containsKey('externalId')) {
externalId = _json['externalId'] as core.String;
}
if (_json.containsKey('headquartersAddress')) {
headquartersAddress = _json['headquartersAddress'] as core.String;
}
if (_json.containsKey('hiringAgency')) {
hiringAgency = _json['hiringAgency'] as core.bool;
}
if (_json.containsKey('imageUri')) {
imageUri = _json['imageUri'] as core.String;
}
if (_json.containsKey('keywordSearchableJobCustomAttributes')) {
keywordSearchableJobCustomAttributes =
(_json['keywordSearchableJobCustomAttributes'] as core.List)
.map<core.String>((value) => value as core.String)
.toList();
}
if (_json.containsKey('name')) {
name = _json['name'] as core.String;
}
if (_json.containsKey('size')) {
size = _json['size'] as core.String;
}
if (_json.containsKey('suspended')) {
suspended = _json['suspended'] as core.bool;
}
if (_json.containsKey('websiteUri')) {
websiteUri = _json['websiteUri'] as core.String;
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (careerSiteUri != null) {
_json['careerSiteUri'] = careerSiteUri;
}
if (derivedInfo != null) {
_json['derivedInfo'] = derivedInfo.toJson();
}
if (displayName != null) {
_json['displayName'] = displayName;
}
if (eeoText != null) {
_json['eeoText'] = eeoText;
}
if (externalId != null) {
_json['externalId'] = externalId;
}
if (headquartersAddress != null) {
_json['headquartersAddress'] = headquartersAddress;
}
if (hiringAgency != null) {
_json['hiringAgency'] = hiringAgency;
}
if (imageUri != null) {
_json['imageUri'] = imageUri;
}
if (keywordSearchableJobCustomAttributes != null) {
_json['keywordSearchableJobCustomAttributes'] =
keywordSearchableJobCustomAttributes;
}
if (name != null) {
_json['name'] = name;
}
if (size != null) {
_json['size'] = size;
}
if (suspended != null) {
_json['suspended'] = suspended;
}
if (websiteUri != null) {
_json['websiteUri'] = websiteUri;
}
return _json;
}
}
/// Derived details about the company.
class CompanyDerivedInfo {
/// A structured headquarters location of the company, resolved from
/// Company.hq_location if provided.
Location headquartersLocation;
CompanyDerivedInfo();
CompanyDerivedInfo.fromJson(core.Map _json) {
if (_json.containsKey('headquartersLocation')) {
headquartersLocation = Location.fromJson(
_json['headquartersLocation'] as core.Map<core.String, core.dynamic>);
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (headquartersLocation != null) {
_json['headquartersLocation'] = headquartersLocation.toJson();
}
return _json;
}
}
/// A compensation entry that represents one component of compensation, such as
/// base pay, bonus, or other compensation type. Annualization: One compensation
/// entry can be annualized if - it contains valid amount or range. - and its
/// expected_units_per_year is set or can be derived. Its annualized range is
/// determined as (amount or range) times expected_units_per_year.
class CompensationEntry {
/// Optional. Compensation amount.
Money amount;
/// Optional. Compensation description. For example, could indicate equity
/// terms or provide additional context to an estimated bonus.
core.String description;
/// Optional. Expected number of units paid each year. If not specified, when
/// Job.employment_types is FULLTIME, a default value is inferred based on
/// unit. Default values: - HOURLY: 2080 - DAILY: 260 - WEEKLY: 52 - MONTHLY:
/// 12 - ANNUAL: 1
core.double expectedUnitsPerYear;
/// Optional. Compensation range.
CompensationRange range;
/// Optional. Compensation type. Default is
/// CompensationUnit.COMPENSATION_TYPE_UNSPECIFIED.
/// Possible string values are:
/// - "COMPENSATION_TYPE_UNSPECIFIED" : Default value.
/// - "BASE" : Base compensation: Refers to the fixed amount of money paid to
/// an employee by an employer in return for work performed. Base compensation
/// does not include benefits, bonuses or any other potential compensation
/// from an employer.
/// - "BONUS" : Bonus.
/// - "SIGNING_BONUS" : Signing bonus.
/// - "EQUITY" : Equity.
/// - "PROFIT_SHARING" : Profit sharing.
/// - "COMMISSIONS" : Commission.
/// - "TIPS" : Tips.
/// - "OTHER_COMPENSATION_TYPE" : Other compensation type.
core.String type;
/// Optional. Frequency of the specified amount. Default is
/// CompensationUnit.COMPENSATION_UNIT_UNSPECIFIED.
/// Possible string values are:
/// - "COMPENSATION_UNIT_UNSPECIFIED" : Default value.
/// - "HOURLY" : Hourly.
/// - "DAILY" : Daily.
/// - "WEEKLY" : Weekly
/// - "MONTHLY" : Monthly.
/// - "YEARLY" : Yearly.
/// - "ONE_TIME" : One time.
/// - "OTHER_COMPENSATION_UNIT" : Other compensation units.
core.String unit;
CompensationEntry();
CompensationEntry.fromJson(core.Map _json) {
if (_json.containsKey('amount')) {
amount = Money.fromJson(
_json['amount'] as core.Map<core.String, core.dynamic>);
}
if (_json.containsKey('description')) {
description = _json['description'] as core.String;
}
if (_json.containsKey('expectedUnitsPerYear')) {
expectedUnitsPerYear =
(_json['expectedUnitsPerYear'] as core.num).toDouble();
}
if (_json.containsKey('range')) {
range = CompensationRange.fromJson(
_json['range'] as core.Map<core.String, core.dynamic>);
}
if (_json.containsKey('type')) {
type = _json['type'] as core.String;
}
if (_json.containsKey('unit')) {
unit = _json['unit'] as core.String;
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (amount != null) {
_json['amount'] = amount.toJson();
}
if (description != null) {
_json['description'] = description;
}
if (expectedUnitsPerYear != null) {
_json['expectedUnitsPerYear'] = expectedUnitsPerYear;
}
if (range != null) {
_json['range'] = range.toJson();
}
if (type != null) {
_json['type'] = type;
}
if (unit != null) {
_json['unit'] = unit;
}
return _json;
}
}
/// Input only. Filter on job compensation type and amount.
class CompensationFilter {
/// Optional. If set to true, jobs with unspecified compensation range fields
/// are included.
core.bool includeJobsWithUnspecifiedCompensationRange;
/// Optional. Compensation range.
CompensationRange range;
/// Required. Type of filter.
/// Possible string values are:
/// - "FILTER_TYPE_UNSPECIFIED" : Filter type unspecified. Position holder,
/// INVALID, should never be used.
/// - "UNIT_ONLY" : Filter by `base compensation entry's` unit. A job is a
/// match if and only if the job contains a base CompensationEntry and the
/// base CompensationEntry's unit matches provided units. Populate one or more
/// units. See CompensationInfo.CompensationEntry for definition of base
/// compensation entry.
/// - "UNIT_AND_AMOUNT" : Filter by `base compensation entry's` unit and
/// amount / range. A job is a match if and only if the job contains a base
/// CompensationEntry, and the base entry's unit matches provided
/// compensation_units and amount or range overlaps with provided
/// compensation_range. See CompensationInfo.CompensationEntry for definition
/// of base compensation entry. Set exactly one units and populate range.
/// - "ANNUALIZED_BASE_AMOUNT" : Filter by annualized base compensation amount
/// and `base compensation entry's` unit. Populate range and zero or more
/// units.
/// - "ANNUALIZED_TOTAL_AMOUNT" : Filter by annualized total compensation
/// amount and `base compensation entry's` unit . Populate range and zero or
/// more units.
core.String type;
/// Required. Specify desired `base compensation entry's`
/// CompensationInfo.CompensationUnit.
core.List<core.String> units;
CompensationFilter();
CompensationFilter.fromJson(core.Map _json) {
if (_json.containsKey('includeJobsWithUnspecifiedCompensationRange')) {
includeJobsWithUnspecifiedCompensationRange =
_json['includeJobsWithUnspecifiedCompensationRange'] as core.bool;
}
if (_json.containsKey('range')) {
range = CompensationRange.fromJson(
_json['range'] as core.Map<core.String, core.dynamic>);
}
if (_json.containsKey('type')) {
type = _json['type'] as core.String;
}
if (_json.containsKey('units')) {
units = (_json['units'] as core.List)
.map<core.String>((value) => value as core.String)
.toList();
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (includeJobsWithUnspecifiedCompensationRange != null) {
_json['includeJobsWithUnspecifiedCompensationRange'] =
includeJobsWithUnspecifiedCompensationRange;
}
if (range != null) {
_json['range'] = range.toJson();
}
if (type != null) {
_json['type'] = type;
}
if (units != null) {
_json['units'] = units;
}
return _json;
}
}
/// Input only. Compensation based histogram request.
class CompensationHistogramRequest {
/// Required. Numeric histogram options, like buckets, whether include min or
/// max value.
NumericBucketingOption bucketingOption;
/// Required. Type of the request, representing which field the histogramming
/// should be performed over. A single request can only specify one histogram
/// of each `CompensationHistogramRequestType`.
/// Possible string values are:
/// - "COMPENSATION_HISTOGRAM_REQUEST_TYPE_UNSPECIFIED" : Default value.
/// Invalid.
/// - "BASE" : Histogram by job's base compensation. See CompensationEntry for
/// definition of base compensation.
/// - "ANNUALIZED_BASE" : Histogram by job's annualized base compensation. See
/// CompensationEntry for definition of annualized base compensation.
/// - "ANNUALIZED_TOTAL" : Histogram by job's annualized total compensation.
/// See CompensationEntry for definition of annualized total compensation.
core.String type;
CompensationHistogramRequest();
CompensationHistogramRequest.fromJson(core.Map _json) {
if (_json.containsKey('bucketingOption')) {
bucketingOption = NumericBucketingOption.fromJson(
_json['bucketingOption'] as core.Map<core.String, core.dynamic>);
}
if (_json.containsKey('type')) {
type = _json['type'] as core.String;
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (bucketingOption != null) {
_json['bucketingOption'] = bucketingOption.toJson();
}
if (type != null) {
_json['type'] = type;
}
return _json;
}
}
/// Output only. Compensation based histogram result.
class CompensationHistogramResult {
/// Histogram result.
NumericBucketingResult result;
/// Type of the request, corresponding to CompensationHistogramRequest.type.
/// Possible string values are:
/// - "COMPENSATION_HISTOGRAM_REQUEST_TYPE_UNSPECIFIED" : Default value.
/// Invalid.
/// - "BASE" : Histogram by job's base compensation. See CompensationEntry for
/// definition of base compensation.
/// - "ANNUALIZED_BASE" : Histogram by job's annualized base compensation. See
/// CompensationEntry for definition of annualized base compensation.
/// - "ANNUALIZED_TOTAL" : Histogram by job's annualized total compensation.
/// See CompensationEntry for definition of annualized total compensation.
core.String type;
CompensationHistogramResult();
CompensationHistogramResult.fromJson(core.Map _json) {
if (_json.containsKey('result')) {
result = NumericBucketingResult.fromJson(
_json['result'] as core.Map<core.String, core.dynamic>);
}
if (_json.containsKey('type')) {
type = _json['type'] as core.String;
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (result != null) {
_json['result'] = result.toJson();
}
if (type != null) {
_json['type'] = type;
}
return _json;
}
}
/// Job compensation details.
class CompensationInfo {
/// Output only. Annualized base compensation range. Computed as base
/// compensation entry's CompensationEntry.compensation times
/// CompensationEntry.expected_units_per_year. See CompensationEntry for
/// explanation on compensation annualization.
CompensationRange annualizedBaseCompensationRange;
/// Output only. Annualized total compensation range. Computed as all
/// compensation entries' CompensationEntry.compensation times
/// CompensationEntry.expected_units_per_year. See CompensationEntry for
/// explanation on compensation annualization.
CompensationRange annualizedTotalCompensationRange;
/// Optional. Job compensation information. At most one entry can be of type
/// CompensationInfo.CompensationType.BASE, which is referred as ** base
/// compensation entry ** for the job.
core.List<CompensationEntry> entries;
CompensationInfo();
CompensationInfo.fromJson(core.Map _json) {
if (_json.containsKey('annualizedBaseCompensationRange')) {
annualizedBaseCompensationRange = CompensationRange.fromJson(
_json['annualizedBaseCompensationRange']
as core.Map<core.String, core.dynamic>);
}
if (_json.containsKey('annualizedTotalCompensationRange')) {
annualizedTotalCompensationRange = CompensationRange.fromJson(
_json['annualizedTotalCompensationRange']
as core.Map<core.String, core.dynamic>);
}
if (_json.containsKey('entries')) {
entries = (_json['entries'] as core.List)
.map<CompensationEntry>((value) => CompensationEntry.fromJson(
value as core.Map<core.String, core.dynamic>))
.toList();
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (annualizedBaseCompensationRange != null) {
_json['annualizedBaseCompensationRange'] =
annualizedBaseCompensationRange.toJson();
}
if (annualizedTotalCompensationRange != null) {
_json['annualizedTotalCompensationRange'] =
annualizedTotalCompensationRange.toJson();
}
if (entries != null) {
_json['entries'] = entries.map((value) => value.toJson()).toList();
}
return _json;
}
}
/// Compensation range.
class CompensationRange {
/// Optional. The maximum amount of compensation. If left empty, the value is
/// set to a maximal compensation value and the currency code is set to match
/// the currency code of min_compensation.
Money maxCompensation;
/// Optional. The minimum amount of compensation. If left empty, the value is
/// set to zero and the currency code is set to match the currency code of
/// max_compensation.
Money minCompensation;
CompensationRange();
CompensationRange.fromJson(core.Map _json) {
if (_json.containsKey('maxCompensation')) {
maxCompensation = Money.fromJson(
_json['maxCompensation'] as core.Map<core.String, core.dynamic>);
}
if (_json.containsKey('minCompensation')) {
minCompensation = Money.fromJson(
_json['minCompensation'] as core.Map<core.String, core.dynamic>);
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (maxCompensation != null) {
_json['maxCompensation'] = maxCompensation.toJson();
}
if (minCompensation != null) {
_json['minCompensation'] = minCompensation.toJson();
}
return _json;
}
}
/// Output only. Response of auto-complete query.
class CompleteQueryResponse {
/// Results of the matching job/company candidates.
core.List<CompletionResult> completionResults;
/// Additional information for the API invocation, such as the request
/// tracking id.
ResponseMetadata metadata;
CompleteQueryResponse();
CompleteQueryResponse.fromJson(core.Map _json) {
if (_json.containsKey('completionResults')) {
completionResults = (_json['completionResults'] as core.List)
.map<CompletionResult>((value) => CompletionResult.fromJson(
value as core.Map<core.String, core.dynamic>))
.toList();
}
if (_json.containsKey('metadata')) {
metadata = ResponseMetadata.fromJson(
_json['metadata'] as core.Map<core.String, core.dynamic>);
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (completionResults != null) {
_json['completionResults'] =
completionResults.map((value) => value.toJson()).toList();
}
if (metadata != null) {
_json['metadata'] = metadata.toJson();
}
return _json;
}
}
/// Output only. Resource that represents completion results.
class CompletionResult {
/// The URI of the company image for CompletionType.COMPANY_NAME.
core.String imageUri;
/// The suggestion for the query.
core.String suggestion;
/// The completion topic.
/// Possible string values are:
/// - "COMPLETION_TYPE_UNSPECIFIED" : Default value.
/// - "JOB_TITLE" : Only suggest job titles.
/// - "COMPANY_NAME" : Only suggest company names.
/// - "COMBINED" : Suggest both job titles and company names.
core.String type;
CompletionResult();
CompletionResult.fromJson(core.Map _json) {
if (_json.containsKey('imageUri')) {
imageUri = _json['imageUri'] as core.String;
}
if (_json.containsKey('suggestion')) {
suggestion = _json['suggestion'] as core.String;
}
if (_json.containsKey('type')) {
type = _json['type'] as core.String;
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (imageUri != null) {
_json['imageUri'] = imageUri;
}
if (suggestion != null) {
_json['suggestion'] = suggestion;
}
if (type != null) {
_json['type'] = type;
}
return _json;
}
}
/// The report event request.
class CreateClientEventRequest {
/// Required. Events issued when end user interacts with customer's
/// application that uses Cloud Talent Solution.
ClientEvent clientEvent;
CreateClientEventRequest();
CreateClientEventRequest.fromJson(core.Map _json) {
if (_json.containsKey('clientEvent')) {
clientEvent = ClientEvent.fromJson(
_json['clientEvent'] as core.Map<core.String, core.dynamic>);
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (clientEvent != null) {
_json['clientEvent'] = clientEvent.toJson();
}
return _json;
}
}
/// Input only. The Request of the CreateCompany method.
class CreateCompanyRequest {
/// Required. The company to be created.
Company company;
CreateCompanyRequest();
CreateCompanyRequest.fromJson(core.Map _json) {
if (_json.containsKey('company')) {
company = Company.fromJson(
_json['company'] as core.Map<core.String, core.dynamic>);
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (company != null) {
_json['company'] = company.toJson();
}
return _json;
}
}
/// Input only. Create job request.
class CreateJobRequest {
/// Required. The Job to be created.
Job job;
CreateJobRequest();
CreateJobRequest.fromJson(core.Map _json) {
if (_json.containsKey('job')) {
job = Job.fromJson(_json['job'] as core.Map<core.String, core.dynamic>);
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (job != null) {
_json['job'] = job.toJson();
}
return _json;
}
}
/// Custom attribute values that are either filterable or non-filterable.
class CustomAttribute {
/// Optional. If the `filterable` flag is true, the custom field values may be
/// used for custom attribute filters JobQuery.custom_attribute_filter. If
/// false, these values may not be used for custom attribute filters. Default
/// is false.
core.bool filterable;
/// Optional but exactly one of string_values or long_values must be
/// specified. This field is used to perform number range search. (`EQ`, `GT`,
/// `GE`, `LE`, `LT`) over filterable `long_value`. Currently at most 1
/// long_values is supported.
core.List<core.String> longValues;
/// Optional but exactly one of string_values or long_values must be
/// specified. This field is used to perform a string match
/// (`CASE_SENSITIVE_MATCH` or `CASE_INSENSITIVE_MATCH`) search. For
/// filterable `string_value`s, a maximum total number of 200 values is
/// allowed, with each `string_value` has a byte size of no more than 500B.
/// For unfilterable `string_values`, the maximum total byte size of
/// unfilterable `string_values` is 50KB. Empty string is not allowed.
core.List<core.String> stringValues;
CustomAttribute();
CustomAttribute.fromJson(core.Map _json) {
if (_json.containsKey('filterable')) {
filterable = _json['filterable'] as core.bool;
}
if (_json.containsKey('longValues')) {
longValues = (_json['longValues'] as core.List)
.map<core.String>((value) => value as core.String)
.toList();
}
if (_json.containsKey('stringValues')) {
stringValues = (_json['stringValues'] as core.List)
.map<core.String>((value) => value as core.String)
.toList();
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (filterable != null) {
_json['filterable'] = filterable;
}
if (longValues != null) {
_json['longValues'] = longValues;
}
if (stringValues != null) {
_json['stringValues'] = stringValues;
}
return _json;
}
}
/// Custom attributes histogram request. An error is thrown if neither
/// string_value_histogram or long_value_histogram_bucketing_option has been
/// defined.
class CustomAttributeHistogramRequest {
/// Required. Specifies the custom field key to perform a histogram on. If
/// specified without `long_value_histogram_bucketing_option`, histogram on
/// string values of the given `key` is triggered, otherwise histogram is
/// performed on long values.
core.String key;
/// Optional. Specifies buckets used to perform a range histogram on Job's
/// filterable long custom field values, or min/max value requirements.
NumericBucketingOption longValueHistogramBucketingOption;
/// Optional. If set to true, the response includes the histogram value for
/// each key as a string.
core.bool stringValueHistogram;
CustomAttributeHistogramRequest();
CustomAttributeHistogramRequest.fromJson(core.Map _json) {
if (_json.containsKey('key')) {
key = _json['key'] as core.String;
}
if (_json.containsKey('longValueHistogramBucketingOption')) {
longValueHistogramBucketingOption = NumericBucketingOption.fromJson(
_json['longValueHistogramBucketingOption']
as core.Map<core.String, core.dynamic>);
}
if (_json.containsKey('stringValueHistogram')) {
stringValueHistogram = _json['stringValueHistogram'] as core.bool;
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (key != null) {
_json['key'] = key;
}
if (longValueHistogramBucketingOption != null) {
_json['longValueHistogramBucketingOption'] =
longValueHistogramBucketingOption.toJson();
}
if (stringValueHistogram != null) {
_json['stringValueHistogram'] = stringValueHistogram;
}
return _json;
}
}
/// Output only. Custom attribute histogram result.
class CustomAttributeHistogramResult {
/// Stores the key of custom attribute the histogram is performed on.
core.String key;
/// Stores bucketed histogram counting result or min/max values for custom
/// attribute long values associated with `key`.
NumericBucketingResult longValueHistogramResult;
/// Stores a map from the values of string custom field associated with `key`
/// to the number of jobs with that value in this histogram result.
core.Map<core.String, core.int> stringValueHistogramResult;
CustomAttributeHistogramResult();
CustomAttributeHistogramResult.fromJson(core.Map _json) {
if (_json.containsKey('key')) {
key = _json['key'] as core.String;
}
if (_json.containsKey('longValueHistogramResult')) {
longValueHistogramResult = NumericBucketingResult.fromJson(
_json['longValueHistogramResult']
as core.Map<core.String, core.dynamic>);
}
if (_json.containsKey('stringValueHistogramResult')) {
stringValueHistogramResult =
(_json['stringValueHistogramResult'] as core.Map)
.cast<core.String, core.int>()
.map(
(key, item) => core.MapEntry(
key,
item as core.int,
),
);
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (key != null) {
_json['key'] = key;
}
if (longValueHistogramResult != null) {
_json['longValueHistogramResult'] = longValueHistogramResult.toJson();
}
if (stringValueHistogramResult != null) {
_json['stringValueHistogramResult'] = stringValueHistogramResult;
}
return _json;
}
}
/// Device information collected from the job seeker, candidate, or other entity
/// conducting the job search. Providing this information improves the quality
/// of the search results across devices.
class DeviceInfo {
/// Optional. Type of the device.
/// Possible string values are:
/// - "DEVICE_TYPE_UNSPECIFIED" : The device type isn't specified.
/// - "WEB" : A desktop web browser, such as, Chrome, Firefox, Safari, or
/// Internet Explorer)
/// - "MOBILE_WEB" : A mobile device web browser, such as a phone or tablet
/// with a Chrome browser.
/// - "ANDROID" : An Android device native application.
/// - "IOS" : An iOS device native application.
/// - "BOT" : A bot, as opposed to a device operated by human beings, such as
/// a web crawler.
/// - "OTHER" : Other devices types.
core.String deviceType;
/// Optional. A device-specific ID. The ID must be a unique identifier that
/// distinguishes the device from other devices.
core.String id;
DeviceInfo();
DeviceInfo.fromJson(core.Map _json) {
if (_json.containsKey('deviceType')) {
deviceType = _json['deviceType'] as core.String;
}
if (_json.containsKey('id')) {
id = _json['id'] as core.String;
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (deviceType != null) {
_json['deviceType'] = deviceType;
}
if (id != null) {
_json['id'] = id;
}
return _json;
}
}
/// A generic empty message that you can re-use to avoid defining duplicated
/// empty messages in your APIs. A typical example is to use it as the request
/// or the response type of an API method. For instance: service Foo { rpc
/// Bar(google.protobuf.Empty) returns (google.protobuf.Empty); } The JSON
/// representation for `Empty` is empty JSON object `{}`.
class Empty {
Empty();
Empty.fromJson(
// ignore: avoid_unused_constructor_parameters
core.Map _json);
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
return _json;
}
}
/// The result of JobService.BatchCreateJobs. It's used to replace
/// google.longrunning.Operation.response in case of success.
class GoogleCloudTalentV4BatchCreateJobsResponse {
/// List of job mutation results from a batch create operation. It can change
/// until operation status is FINISHED, FAILED or CANCELLED.
core.List<GoogleCloudTalentV4JobResult> jobResults;
GoogleCloudTalentV4BatchCreateJobsResponse();
GoogleCloudTalentV4BatchCreateJobsResponse.fromJson(core.Map _json) {
if (_json.containsKey('jobResults')) {
jobResults = (_json['jobResults'] as core.List)
.map<GoogleCloudTalentV4JobResult>((value) =>
GoogleCloudTalentV4JobResult.fromJson(
value as core.Map<core.String, core.dynamic>))
.toList();
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (jobResults != null) {
_json['jobResults'] = jobResults.map((value) => value.toJson()).toList();
}
return _json;
}
}
/// The result of JobService.BatchDeleteJobs. It's used to replace
/// google.longrunning.Operation.response in case of success.
class GoogleCloudTalentV4BatchDeleteJobsResponse {
/// List of job mutation results from a batch delete operation. It can change
/// until operation status is FINISHED, FAILED or CANCELLED.
core.List<GoogleCloudTalentV4JobResult> jobResults;
GoogleCloudTalentV4BatchDeleteJobsResponse();
GoogleCloudTalentV4BatchDeleteJobsResponse.fromJson(core.Map _json) {
if (_json.containsKey('jobResults')) {
jobResults = (_json['jobResults'] as core.List)
.map<GoogleCloudTalentV4JobResult>((value) =>
GoogleCloudTalentV4JobResult.fromJson(
value as core.Map<core.String, core.dynamic>))
.toList();
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (jobResults != null) {
_json['jobResults'] = jobResults.map((value) => value.toJson()).toList();
}
return _json;
}
}
/// Metadata used for long running operations returned by CTS batch APIs. It's
/// used to replace google.longrunning.Operation.metadata.
class GoogleCloudTalentV4BatchOperationMetadata {
/// The time when the batch operation is created.
core.String createTime;
/// The time when the batch operation is finished and
/// google.longrunning.Operation.done is set to `true`.
core.String endTime;
/// Count of failed item(s) inside an operation.
core.int failureCount;
/// The state of a long running operation.
/// Possible string values are:
/// - "STATE_UNSPECIFIED" : Default value.
/// - "INITIALIZING" : The batch operation is being prepared for processing.
/// - "PROCESSING" : The batch operation is actively being processed.
/// - "SUCCEEDED" : The batch operation is processed, and at least one item
/// has been successfully processed.
/// - "FAILED" : The batch operation is done and no item has been successfully
/// processed.
/// - "CANCELLING" : The batch operation is in the process of cancelling after
/// google.longrunning.Operations.CancelOperation is called.
/// - "CANCELLED" : The batch operation is done after
/// google.longrunning.Operations.CancelOperation is called. Any items
/// processed before cancelling are returned in the response.
core.String state;
/// More detailed information about operation state.
core.String stateDescription;
/// Count of successful item(s) inside an operation.
core.int successCount;
/// Count of total item(s) inside an operation.
core.int totalCount;
/// The time when the batch operation status is updated. The metadata and the
/// update_time is refreshed every minute otherwise cached data is returned.
core.String updateTime;
GoogleCloudTalentV4BatchOperationMetadata();
GoogleCloudTalentV4BatchOperationMetadata.fromJson(core.Map _json) {
if (_json.containsKey('createTime')) {
createTime = _json['createTime'] as core.String;
}
if (_json.containsKey('endTime')) {
endTime = _json['endTime'] as core.String;
}
if (_json.containsKey('failureCount')) {
failureCount = _json['failureCount'] as core.int;
}
if (_json.containsKey('state')) {
state = _json['state'] as core.String;
}
if (_json.containsKey('stateDescription')) {
stateDescription = _json['stateDescription'] as core.String;
}
if (_json.containsKey('successCount')) {
successCount = _json['successCount'] as core.int;
}
if (_json.containsKey('totalCount')) {
totalCount = _json['totalCount'] as core.int;
}
if (_json.containsKey('updateTime')) {
updateTime = _json['updateTime'] as core.String;
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (createTime != null) {
_json['createTime'] = createTime;
}
if (endTime != null) {
_json['endTime'] = endTime;
}
if (failureCount != null) {
_json['failureCount'] = failureCount;
}
if (state != null) {
_json['state'] = state;
}
if (stateDescription != null) {
_json['stateDescription'] = stateDescription;
}
if (successCount != null) {
_json['successCount'] = successCount;
}
if (totalCount != null) {
_json['totalCount'] = totalCount;
}
if (updateTime != null) {
_json['updateTime'] = updateTime;
}
return _json;
}
}
/// The result of JobService.BatchUpdateJobs. It's used to replace
/// google.longrunning.Operation.response in case of success.
class GoogleCloudTalentV4BatchUpdateJobsResponse {
/// List of job mutation results from a batch update operation. It can change
/// until operation status is FINISHED, FAILED or CANCELLED.
core.List<GoogleCloudTalentV4JobResult> jobResults;
GoogleCloudTalentV4BatchUpdateJobsResponse();
GoogleCloudTalentV4BatchUpdateJobsResponse.fromJson(core.Map _json) {
if (_json.containsKey('jobResults')) {
jobResults = (_json['jobResults'] as core.List)
.map<GoogleCloudTalentV4JobResult>((value) =>
GoogleCloudTalentV4JobResult.fromJson(
value as core.Map<core.String, core.dynamic>))
.toList();
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (jobResults != null) {
_json['jobResults'] = jobResults.map((value) => value.toJson()).toList();
}
return _json;
}
}
/// Job compensation details.
class GoogleCloudTalentV4CompensationInfo {
/// Output only. Annualized base compensation range. Computed as base
/// compensation entry's CompensationEntry.amount times
/// CompensationEntry.expected_units_per_year. See CompensationEntry for
/// explanation on compensation annualization.
GoogleCloudTalentV4CompensationInfoCompensationRange
annualizedBaseCompensationRange;
/// Output only. Annualized total compensation range. Computed as all
/// compensation entries' CompensationEntry.amount times
/// CompensationEntry.expected_units_per_year. See CompensationEntry for
/// explanation on compensation annualization.
GoogleCloudTalentV4CompensationInfoCompensationRange
annualizedTotalCompensationRange;
/// Job compensation information. At most one entry can be of type
/// CompensationInfo.CompensationType.BASE, which is referred as **base
/// compensation entry** for the job.
core.List<GoogleCloudTalentV4CompensationInfoCompensationEntry> entries;
GoogleCloudTalentV4CompensationInfo();
GoogleCloudTalentV4CompensationInfo.fromJson(core.Map _json) {
if (_json.containsKey('annualizedBaseCompensationRange')) {
annualizedBaseCompensationRange =
GoogleCloudTalentV4CompensationInfoCompensationRange.fromJson(
_json['annualizedBaseCompensationRange']
as core.Map<core.String, core.dynamic>);
}
if (_json.containsKey('annualizedTotalCompensationRange')) {
annualizedTotalCompensationRange =
GoogleCloudTalentV4CompensationInfoCompensationRange.fromJson(
_json['annualizedTotalCompensationRange']
as core.Map<core.String, core.dynamic>);
}
if (_json.containsKey('entries')) {
entries = (_json['entries'] as core.List)
.map<GoogleCloudTalentV4CompensationInfoCompensationEntry>((value) =>
GoogleCloudTalentV4CompensationInfoCompensationEntry.fromJson(
value as core.Map<core.String, core.dynamic>))
.toList();
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (annualizedBaseCompensationRange != null) {
_json['annualizedBaseCompensationRange'] =
annualizedBaseCompensationRange.toJson();
}
if (annualizedTotalCompensationRange != null) {
_json['annualizedTotalCompensationRange'] =
annualizedTotalCompensationRange.toJson();
}
if (entries != null) {
_json['entries'] = entries.map((value) => value.toJson()).toList();
}
return _json;
}
}
/// A compensation entry that represents one component of compensation, such as
/// base pay, bonus, or other compensation type. Annualization: One compensation
/// entry can be annualized if - it contains valid amount or range. - and its
/// expected_units_per_year is set or can be derived. Its annualized range is
/// determined as (amount or range) times expected_units_per_year.
class GoogleCloudTalentV4CompensationInfoCompensationEntry {
/// Compensation amount.
Money amount;
/// Compensation description. For example, could indicate equity terms or
/// provide additional context to an estimated bonus.
core.String description;
/// Expected number of units paid each year. If not specified, when
/// Job.employment_types is FULLTIME, a default value is inferred based on
/// unit. Default values: - HOURLY: 2080 - DAILY: 260 - WEEKLY: 52 - MONTHLY:
/// 12 - ANNUAL: 1
core.double expectedUnitsPerYear;
/// Compensation range.
GoogleCloudTalentV4CompensationInfoCompensationRange range;
/// Compensation type. Default is
/// CompensationType.COMPENSATION_TYPE_UNSPECIFIED.
/// Possible string values are:
/// - "COMPENSATION_TYPE_UNSPECIFIED" : Default value.
/// - "BASE" : Base compensation: Refers to the fixed amount of money paid to
/// an employee by an employer in return for work performed. Base compensation
/// does not include benefits, bonuses or any other potential compensation
/// from an employer.
/// - "BONUS" : Bonus.
/// - "SIGNING_BONUS" : Signing bonus.
/// - "EQUITY" : Equity.
/// - "PROFIT_SHARING" : Profit sharing.
/// - "COMMISSIONS" : Commission.
/// - "TIPS" : Tips.
/// - "OTHER_COMPENSATION_TYPE" : Other compensation type.
core.String type;
/// Frequency of the specified amount. Default is
/// CompensationUnit.COMPENSATION_UNIT_UNSPECIFIED.
/// Possible string values are:
/// - "COMPENSATION_UNIT_UNSPECIFIED" : Default value.
/// - "HOURLY" : Hourly.
/// - "DAILY" : Daily.
/// - "WEEKLY" : Weekly
/// - "MONTHLY" : Monthly.
/// - "YEARLY" : Yearly.
/// - "ONE_TIME" : One time.
/// - "OTHER_COMPENSATION_UNIT" : Other compensation units.
core.String unit;
GoogleCloudTalentV4CompensationInfoCompensationEntry();
GoogleCloudTalentV4CompensationInfoCompensationEntry.fromJson(
core.Map _json) {
if (_json.containsKey('amount')) {
amount = Money.fromJson(
_json['amount'] as core.Map<core.String, core.dynamic>);
}
if (_json.containsKey('description')) {
description = _json['description'] as core.String;
}
if (_json.containsKey('expectedUnitsPerYear')) {
expectedUnitsPerYear =
(_json['expectedUnitsPerYear'] as core.num).toDouble();
}
if (_json.containsKey('range')) {
range = GoogleCloudTalentV4CompensationInfoCompensationRange.fromJson(
_json['range'] as core.Map<core.String, core.dynamic>);
}
if (_json.containsKey('type')) {
type = _json['type'] as core.String;
}
if (_json.containsKey('unit')) {
unit = _json['unit'] as core.String;
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (amount != null) {
_json['amount'] = amount.toJson();
}
if (description != null) {
_json['description'] = description;
}
if (expectedUnitsPerYear != null) {
_json['expectedUnitsPerYear'] = expectedUnitsPerYear;
}
if (range != null) {
_json['range'] = range.toJson();
}
if (type != null) {
_json['type'] = type;
}
if (unit != null) {
_json['unit'] = unit;
}
return _json;
}
}
/// Compensation range.
class GoogleCloudTalentV4CompensationInfoCompensationRange {
/// The maximum amount of compensation. If left empty, the value is set to a
/// maximal compensation value and the currency code is set to match the
/// currency code of min_compensation.
Money maxCompensation;
/// The minimum amount of compensation. If left empty, the value is set to
/// zero and the currency code is set to match the currency code of
/// max_compensation.
Money minCompensation;
GoogleCloudTalentV4CompensationInfoCompensationRange();
GoogleCloudTalentV4CompensationInfoCompensationRange.fromJson(
core.Map _json) {
if (_json.containsKey('maxCompensation')) {
maxCompensation = Money.fromJson(
_json['maxCompensation'] as core.Map<core.String, core.dynamic>);
}
if (_json.containsKey('minCompensation')) {
minCompensation = Money.fromJson(
_json['minCompensation'] as core.Map<core.String, core.dynamic>);
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (maxCompensation != null) {
_json['maxCompensation'] = maxCompensation.toJson();
}
if (minCompensation != null) {
_json['minCompensation'] = minCompensation.toJson();
}
return _json;
}
}
/// Custom attribute values that are either filterable or non-filterable.
class GoogleCloudTalentV4CustomAttribute {
/// If the `filterable` flag is true, the custom field values may be used for
/// custom attribute filters JobQuery.custom_attribute_filter. If false, these
/// values may not be used for custom attribute filters. Default is false.
core.bool filterable;
/// If the `keyword_searchable` flag is true, the keywords in custom fields
/// are searchable by keyword match. If false, the values are not searchable
/// by keyword match. Default is false.
core.bool keywordSearchable;
/// Exactly one of string_values or long_values must be specified. This field
/// is used to perform number range search. (`EQ`, `GT`, `GE`, `LE`, `LT`)
/// over filterable `long_value`. Currently at most 1 long_values is
/// supported.
core.List<core.String> longValues;
/// Exactly one of string_values or long_values must be specified. This field
/// is used to perform a string match (`CASE_SENSITIVE_MATCH` or
/// `CASE_INSENSITIVE_MATCH`) search. For filterable `string_value`s, a
/// maximum total number of 200 values is allowed, with each `string_value`
/// has a byte size of no more than 500B. For unfilterable `string_values`,
/// the maximum total byte size of unfilterable `string_values` is 50KB. Empty
/// string isn't allowed.
core.List<core.String> stringValues;
GoogleCloudTalentV4CustomAttribute();
GoogleCloudTalentV4CustomAttribute.fromJson(core.Map _json) {
if (_json.containsKey('filterable')) {
filterable = _json['filterable'] as core.bool;
}
if (_json.containsKey('keywordSearchable')) {
keywordSearchable = _json['keywordSearchable'] as core.bool;
}
if (_json.containsKey('longValues')) {
longValues = (_json['longValues'] as core.List)
.map<core.String>((value) => value as core.String)
.toList();
}
if (_json.containsKey('stringValues')) {
stringValues = (_json['stringValues'] as core.List)
.map<core.String>((value) => value as core.String)
.toList();
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (filterable != null) {
_json['filterable'] = filterable;
}
if (keywordSearchable != null) {
_json['keywordSearchable'] = keywordSearchable;
}
if (longValues != null) {
_json['longValues'] = longValues;
}
if (stringValues != null) {
_json['stringValues'] = stringValues;
}
return _json;
}
}
/// A Job resource represents a job posting (also referred to as a "job listing"
/// or "job requisition"). A job belongs to a Company, which is the hiring
/// entity responsible for the job.
class GoogleCloudTalentV4Job {
/// Strongly recommended for the best service experience. Location(s) where
/// the employer is looking to hire for this job posting. Specifying the full
/// street address(es) of the hiring location enables better API results,
/// especially job searches by commute time. At most 50 locations are allowed
/// for best search performance. If a job has more locations, it is suggested
/// to split it into multiple jobs with unique requisition_ids (e.g. 'ReqA'
/// becomes 'ReqA-1', 'ReqA-2', and so on.) as multiple jobs with the same
/// company, language_code and requisition_id are not allowed. If the original
/// requisition_id must be preserved, a custom field should be used for
/// storage. It is also suggested to group the locations that close to each
/// other in the same job for better search experience. The maximum number of
/// allowed characters is 500.
core.List<core.String> addresses;
/// Job application information.
GoogleCloudTalentV4JobApplicationInfo applicationInfo;
/// Required. The resource name of the company listing the job. The format is
/// "projects/{project_id}/tenants/{tenant_id}/companies/{company_id}". For
/// example, "projects/foo/tenants/bar/companies/baz".
core.String company;
/// Output only. Display name of the company listing the job.
core.String companyDisplayName;
/// Job compensation information (a.k.a. "pay rate") i.e., the compensation
/// that will paid to the employee.
GoogleCloudTalentV4CompensationInfo compensationInfo;
/// A map of fields to hold both filterable and non-filterable custom job
/// attributes that are not covered by the provided structured fields. The
/// keys of the map are strings up to 64 bytes and must match the pattern:
/// a-zA-Z*. For example, key0LikeThis or KEY_1_LIKE_THIS. At most 100
/// filterable and at most 100 unfilterable keys are supported. For filterable
/// `string_values`, across all keys at most 200 values are allowed, with each
/// string no more than 255 characters. For unfilterable `string_values`, the
/// maximum total size of `string_values` across all keys is 50KB.
core.Map<core.String, GoogleCloudTalentV4CustomAttribute> customAttributes;
/// The desired education degrees for the job, such as Bachelors, Masters.
core.List<core.String> degreeTypes;
/// The department or functional area within the company with the open
/// position. The maximum number of allowed characters is 255.
core.String department;
/// Output only. Derived details about the job posting.
GoogleCloudTalentV4JobDerivedInfo derivedInfo;
/// Required. The description of the job, which typically includes a
/// multi-paragraph description of the company and related information.
/// Separate fields are provided on the job object for responsibilities,
/// qualifications, and other job characteristics. Use of these separate job
/// fields is recommended. This field accepts and sanitizes HTML input, and
/// also accepts bold, italic, ordered list, and unordered list markup tags.
/// The maximum number of allowed characters is 100,000.
core.String description;
/// The employment type(s) of a job, for example, full time or part time.
core.List<core.String> employmentTypes;
/// A description of bonus, commission, and other compensation incentives
/// associated with the job not including salary or pay. The maximum number of
/// allowed characters is 10,000.
core.String incentives;
/// The benefits included with the job.
core.List<core.String> jobBenefits;
/// The end timestamp of the job. Typically this field is used for contracting
/// engagements. Invalid timestamps are ignored.
core.String jobEndTime;
/// The experience level associated with the job, such as "Entry Level".
/// Possible string values are:
/// - "JOB_LEVEL_UNSPECIFIED" : The default value if the level isn't
/// specified.
/// - "ENTRY_LEVEL" : Entry-level individual contributors, typically with less
/// than 2 years of experience in a similar role. Includes interns.
/// - "EXPERIENCED" : Experienced individual contributors, typically with 2+
/// years of experience in a similar role.
/// - "MANAGER" : Entry- to mid-level managers responsible for managing a team
/// of people.
/// - "DIRECTOR" : Senior-level managers responsible for managing teams of
/// managers.
/// - "EXECUTIVE" : Executive-level managers and above, including C-level
/// positions.
core.String jobLevel;
/// The start timestamp of the job in UTC time zone. Typically this field is
/// used for contracting engagements. Invalid timestamps are ignored.
core.String jobStartTime;
/// The language of the posting. This field is distinct from any requirements
/// for fluency that are associated with the job. Language codes must be in
/// BCP-47 format, such as "en-US" or "sr-Latn". For more information, see
/// [Tags for Identifying Languages](https://tools.ietf.org/html/bcp47){:
/// class="external" target="_blank" }. If this field is unspecified and
/// Job.description is present, detected language code based on
/// Job.description is assigned, otherwise defaults to 'en_US'.
core.String languageCode;
/// Required during job update. The resource name for the job. This is
/// generated by the service when a job is created. The format is
/// "projects/{project_id}/tenants/{tenant_id}/jobs/{job_id}". For example,
/// "projects/foo/tenants/bar/jobs/baz". Use of this field in job queries and
/// API calls is preferred over the use of requisition_id since this value is
/// unique.
core.String name;
/// Output only. The timestamp when this job posting was created.
core.String postingCreateTime;
/// Strongly recommended for the best service experience. The expiration
/// timestamp of the job. After this timestamp, the job is marked as expired,
/// and it no longer appears in search results. The expired job can't be
/// listed by the ListJobs API, but it can be retrieved with the GetJob API or
/// updated with the UpdateJob API or deleted with the DeleteJob API. An
/// expired job can be updated and opened again by using a future expiration
/// timestamp. Updating an expired job fails if there is another existing open
/// job with same company, language_code and requisition_id. The expired jobs
/// are retained in our system for 90 days. However, the overall expired job
/// count cannot exceed 3 times the maximum number of open jobs over previous
/// 7 days. If this threshold is exceeded, expired jobs are cleaned out in
/// order of earliest expire time. Expired jobs are no longer accessible after
/// they are cleaned out. Invalid timestamps are ignored, and treated as
/// expire time not provided. If the timestamp is before the instant request
/// is made, the job is treated as expired immediately on creation. This kind
/// of job can not be updated. And when creating a job with past timestamp,
/// the posting_publish_time must be set before posting_expire_time. The
/// purpose of this feature is to allow other objects, such as Application, to
/// refer a job that didn't exist in the system prior to becoming expired. If
/// you want to modify a job that was expired on creation, delete it and
/// create a new one. If this value isn't provided at the time of job creation
/// or is invalid, the job posting expires after 30 days from the job's
/// creation time. For example, if the job was created on 2017/01/01 13:00AM
/// UTC with an unspecified expiration date, the job expires after 2017/01/31
/// 13:00AM UTC. If this value isn't provided on job update, it depends on the
/// field masks set by UpdateJobRequest.update_mask. If the field masks
/// include job_end_time, or the masks are empty meaning that every field is
/// updated, the job posting expires after 30 days from the job's last update
/// time. Otherwise the expiration date isn't updated.
core.String postingExpireTime;
/// The timestamp this job posting was most recently published. The default
/// value is the time the request arrives at the server. Invalid timestamps
/// are ignored.
core.String postingPublishTime;
/// The job PostingRegion (for example, state, country) throughout which the
/// job is available. If this field is set, a LocationFilter in a search query
/// within the job region finds this job posting if an exact location match
/// isn't specified. If this field is set to PostingRegion.NATION or
/// PostingRegion.ADMINISTRATIVE_AREA, setting job Job.addresses to the same
/// location level as this field is strongly recommended.
/// Possible string values are:
/// - "POSTING_REGION_UNSPECIFIED" : If the region is unspecified, the job is
/// only returned if it matches the LocationFilter.
/// - "ADMINISTRATIVE_AREA" : In addition to exact location matching, job
/// posting is returned when the LocationFilter in the search query is in the
/// same administrative area as the returned job posting. For example, if a
/// `ADMINISTRATIVE_AREA` job is posted in "CA, USA", it's returned if
/// LocationFilter has "Mountain View". Administrative area refers to
/// top-level administrative subdivision of this country. For example, US
/// state, IT region, UK constituent nation and JP prefecture.
/// - "NATION" : In addition to exact location matching, job is returned when
/// LocationFilter in search query is in the same country as this job. For
/// example, if a `NATION_WIDE` job is posted in "USA", it's returned if
/// LocationFilter has 'Mountain View'.
/// - "TELECOMMUTE" : Job allows employees to work remotely (telecommute). If
/// locations are provided with this value, the job is considered as having a
/// location, but telecommuting is allowed.
core.String postingRegion;
/// Output only. The timestamp when this job posting was last updated.
core.String postingUpdateTime;
/// Options for job processing.
GoogleCloudTalentV4JobProcessingOptions processingOptions;
/// A promotion value of the job, as determined by the client. The value
/// determines the sort order of the jobs returned when searching for jobs
/// using the featured jobs search call, with higher promotional values being
/// returned first and ties being resolved by relevance sort. Only the jobs
/// with a promotionValue >0 are returned in a FEATURED_JOB_SEARCH. Default
/// value is 0, and negative values are treated as 0.
core.int promotionValue;
/// A description of the qualifications required to perform the job. The use
/// of this field is recommended as an alternative to using the more general
/// description field. This field accepts and sanitizes HTML input, and also
/// accepts bold, italic, ordered list, and unordered list markup tags. The
/// maximum number of allowed characters is 10,000.
core.String qualifications;
/// Required. The requisition ID, also referred to as the posting ID, is
/// assigned by the client to identify a job. This field is intended to be
/// used by clients for client identification and tracking of postings. A job
/// isn't allowed to be created if there is another job with the same company,
/// language_code and requisition_id. The maximum number of allowed characters
/// is 255.
core.String requisitionId;
/// A description of job responsibilities. The use of this field is
/// recommended as an alternative to using the more general description field.
/// This field accepts and sanitizes HTML input, and also accepts bold,
/// italic, ordered list, and unordered list markup tags. The maximum number
/// of allowed characters is 10,000.
core.String responsibilities;
/// Required. The title of the job, such as "Software Engineer" The maximum
/// number of allowed characters is 500.
core.String title;
/// Deprecated. The job is only visible to the owner. The visibility of the
/// job. Defaults to Visibility.ACCOUNT_ONLY if not specified.
/// Possible string values are:
/// - "VISIBILITY_UNSPECIFIED" : Default value.
/// - "ACCOUNT_ONLY" : The resource is only visible to the GCP account who
/// owns it.
/// - "SHARED_WITH_GOOGLE" : The resource is visible to the owner and may be
/// visible to other applications and processes at Google.
/// - "SHARED_WITH_PUBLIC" : The resource is visible to the owner and may be
/// visible to all other API clients.
core.String visibility;
GoogleCloudTalentV4Job();
GoogleCloudTalentV4Job.fromJson(core.Map _json) {
if (_json.containsKey('addresses')) {
addresses = (_json['addresses'] as core.List)
.map<core.String>((value) => value as core.String)
.toList();
}
if (_json.containsKey('applicationInfo')) {
applicationInfo = GoogleCloudTalentV4JobApplicationInfo.fromJson(
_json['applicationInfo'] as core.Map<core.String, core.dynamic>);
}
if (_json.containsKey('company')) {
company = _json['company'] as core.String;
}
if (_json.containsKey('companyDisplayName')) {
companyDisplayName = _json['companyDisplayName'] as core.String;
}
if (_json.containsKey('compensationInfo')) {
compensationInfo = GoogleCloudTalentV4CompensationInfo.fromJson(
_json['compensationInfo'] as core.Map<core.String, core.dynamic>);
}
if (_json.containsKey('customAttributes')) {
customAttributes = (_json['customAttributes'] as core.Map)
.cast<core.String, core.Map>()
.map(
(key, item) => core.MapEntry(
key,
GoogleCloudTalentV4CustomAttribute.fromJson(
item as core.Map<core.String, core.dynamic>),
),
);
}
if (_json.containsKey('degreeTypes')) {
degreeTypes = (_json['degreeTypes'] as core.List)
.map<core.String>((value) => value as core.String)
.toList();
}
if (_json.containsKey('department')) {
department = _json['department'] as core.String;
}
if (_json.containsKey('derivedInfo')) {
derivedInfo = GoogleCloudTalentV4JobDerivedInfo.fromJson(
_json['derivedInfo'] as core.Map<core.String, core.dynamic>);
}
if (_json.containsKey('description')) {
description = _json['description'] as core.String;
}
if (_json.containsKey('employmentTypes')) {
employmentTypes = (_json['employmentTypes'] as core.List)
.map<core.String>((value) => value as core.String)
.toList();
}
if (_json.containsKey('incentives')) {
incentives = _json['incentives'] as core.String;
}
if (_json.containsKey('jobBenefits')) {
jobBenefits = (_json['jobBenefits'] as core.List)
.map<core.String>((value) => value as core.String)
.toList();
}
if (_json.containsKey('jobEndTime')) {
jobEndTime = _json['jobEndTime'] as core.String;
}
if (_json.containsKey('jobLevel')) {
jobLevel = _json['jobLevel'] as core.String;
}
if (_json.containsKey('jobStartTime')) {
jobStartTime = _json['jobStartTime'] as core.String;
}
if (_json.containsKey('languageCode')) {
languageCode = _json['languageCode'] as core.String;
}
if (_json.containsKey('name')) {
name = _json['name'] as core.String;
}
if (_json.containsKey('postingCreateTime')) {
postingCreateTime = _json['postingCreateTime'] as core.String;
}
if (_json.containsKey('postingExpireTime')) {
postingExpireTime = _json['postingExpireTime'] as core.String;
}
if (_json.containsKey('postingPublishTime')) {
postingPublishTime = _json['postingPublishTime'] as core.String;
}
if (_json.containsKey('postingRegion')) {
postingRegion = _json['postingRegion'] as core.String;
}
if (_json.containsKey('postingUpdateTime')) {
postingUpdateTime = _json['postingUpdateTime'] as core.String;
}
if (_json.containsKey('processingOptions')) {
processingOptions = GoogleCloudTalentV4JobProcessingOptions.fromJson(
_json['processingOptions'] as core.Map<core.String, core.dynamic>);
}
if (_json.containsKey('promotionValue')) {
promotionValue = _json['promotionValue'] as core.int;
}
if (_json.containsKey('qualifications')) {
qualifications = _json['qualifications'] as core.String;
}
if (_json.containsKey('requisitionId')) {
requisitionId = _json['requisitionId'] as core.String;
}
if (_json.containsKey('responsibilities')) {
responsibilities = _json['responsibilities'] as core.String;
}
if (_json.containsKey('title')) {
title = _json['title'] as core.String;
}
if (_json.containsKey('visibility')) {
visibility = _json['visibility'] as core.String;
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (addresses != null) {
_json['addresses'] = addresses;
}
if (applicationInfo != null) {
_json['applicationInfo'] = applicationInfo.toJson();
}
if (company != null) {
_json['company'] = company;
}
if (companyDisplayName != null) {
_json['companyDisplayName'] = companyDisplayName;
}
if (compensationInfo != null) {
_json['compensationInfo'] = compensationInfo.toJson();
}
if (customAttributes != null) {
_json['customAttributes'] = customAttributes
.map((key, item) => core.MapEntry(key, item.toJson()));
}
if (degreeTypes != null) {
_json['degreeTypes'] = degreeTypes;
}
if (department != null) {
_json['department'] = department;
}
if (derivedInfo != null) {
_json['derivedInfo'] = derivedInfo.toJson();
}
if (description != null) {
_json['description'] = description;
}
if (employmentTypes != null) {
_json['employmentTypes'] = employmentTypes;
}
if (incentives != null) {
_json['incentives'] = incentives;
}
if (jobBenefits != null) {
_json['jobBenefits'] = jobBenefits;
}
if (jobEndTime != null) {
_json['jobEndTime'] = jobEndTime;
}
if (jobLevel != null) {
_json['jobLevel'] = jobLevel;
}
if (jobStartTime != null) {
_json['jobStartTime'] = jobStartTime;
}
if (languageCode != null) {
_json['languageCode'] = languageCode;
}
if (name != null) {
_json['name'] = name;
}
if (postingCreateTime != null) {
_json['postingCreateTime'] = postingCreateTime;
}
if (postingExpireTime != null) {
_json['postingExpireTime'] = postingExpireTime;
}
if (postingPublishTime != null) {
_json['postingPublishTime'] = postingPublishTime;
}
if (postingRegion != null) {
_json['postingRegion'] = postingRegion;
}
if (postingUpdateTime != null) {
_json['postingUpdateTime'] = postingUpdateTime;
}
if (processingOptions != null) {
_json['processingOptions'] = processingOptions.toJson();
}
if (promotionValue != null) {
_json['promotionValue'] = promotionValue;
}
if (qualifications != null) {
_json['qualifications'] = qualifications;
}
if (requisitionId != null) {
_json['requisitionId'] = requisitionId;
}
if (responsibilities != null) {
_json['responsibilities'] = responsibilities;
}
if (title != null) {
_json['title'] = title;
}
if (visibility != null) {
_json['visibility'] = visibility;
}
return _json;
}
}
/// Application related details of a job posting.
class GoogleCloudTalentV4JobApplicationInfo {
/// Use this field to specify email address(es) to which resumes or
/// applications can be sent. The maximum number of allowed characters for
/// each entry is 255.
core.List<core.String> emails;
/// Use this field to provide instructions, such as "Mail your application to
/// ...", that a candidate can follow to apply for the job. This field accepts
/// and sanitizes HTML input, and also accepts bold, italic, ordered list, and
/// unordered list markup tags. The maximum number of allowed characters is
/// 3,000.
core.String instruction;
/// Use this URI field to direct an applicant to a website, for example to
/// link to an online application form. The maximum number of allowed
/// characters for each entry is 2,000.
core.List<core.String> uris;
GoogleCloudTalentV4JobApplicationInfo();
GoogleCloudTalentV4JobApplicationInfo.fromJson(core.Map _json) {
if (_json.containsKey('emails')) {
emails = (_json['emails'] as core.List)
.map<core.String>((value) => value as core.String)
.toList();
}
if (_json.containsKey('instruction')) {
instruction = _json['instruction'] as core.String;
}
if (_json.containsKey('uris')) {
uris = (_json['uris'] as core.List)
.map<core.String>((value) => value as core.String)
.toList();
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (emails != null) {
_json['emails'] = emails;
}
if (instruction != null) {
_json['instruction'] = instruction;
}
if (uris != null) {
_json['uris'] = uris;
}
return _json;
}
}
/// Derived details about the job posting.
class GoogleCloudTalentV4JobDerivedInfo {
/// Job categories derived from Job.title and Job.description.
core.List<core.String> jobCategories;
/// Structured locations of the job, resolved from Job.addresses. locations
/// are exactly matched to Job.addresses in the same order.
core.List<GoogleCloudTalentV4Location> locations;
GoogleCloudTalentV4JobDerivedInfo();
GoogleCloudTalentV4JobDerivedInfo.fromJson(core.Map _json) {
if (_json.containsKey('jobCategories')) {
jobCategories = (_json['jobCategories'] as core.List)
.map<core.String>((value) => value as core.String)
.toList();
}
if (_json.containsKey('locations')) {
locations = (_json['locations'] as core.List)
.map<GoogleCloudTalentV4Location>((value) =>
GoogleCloudTalentV4Location.fromJson(
value as core.Map<core.String, core.dynamic>))
.toList();
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (jobCategories != null) {
_json['jobCategories'] = jobCategories;
}
if (locations != null) {
_json['locations'] = locations.map((value) => value.toJson()).toList();
}
return _json;
}
}
/// Options for job processing.
class GoogleCloudTalentV4JobProcessingOptions {
/// If set to `true`, the service does not attempt to resolve a more precise
/// address for the job.
core.bool disableStreetAddressResolution;
/// Option for job HTML content sanitization. Applied fields are: *
/// description * applicationInfo.instruction * incentives * qualifications *
/// responsibilities HTML tags in these fields may be stripped if
/// sanitiazation isn't disabled. Defaults to
/// HtmlSanitization.SIMPLE_FORMATTING_ONLY.
/// Possible string values are:
/// - "HTML_SANITIZATION_UNSPECIFIED" : Default value.
/// - "HTML_SANITIZATION_DISABLED" : Disables sanitization on HTML input.
/// - "SIMPLE_FORMATTING_ONLY" : Sanitizes HTML input, only accepts bold,
/// italic, ordered list, and unordered list markup tags.
core.String htmlSanitization;
GoogleCloudTalentV4JobProcessingOptions();
GoogleCloudTalentV4JobProcessingOptions.fromJson(core.Map _json) {
if (_json.containsKey('disableStreetAddressResolution')) {
disableStreetAddressResolution =
_json['disableStreetAddressResolution'] as core.bool;
}
if (_json.containsKey('htmlSanitization')) {
htmlSanitization = _json['htmlSanitization'] as core.String;
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (disableStreetAddressResolution != null) {
_json['disableStreetAddressResolution'] = disableStreetAddressResolution;
}
if (htmlSanitization != null) {
_json['htmlSanitization'] = htmlSanitization;
}
return _json;
}
}
/// Mutation result of a job from a batch operation.
class GoogleCloudTalentV4JobResult {
/// Here Job only contains basic information including name, company,
/// language_code and requisition_id, use getJob method to retrieve detailed
/// information of the created/updated job.
GoogleCloudTalentV4Job job;
/// The status of the job processed. This field is populated if the processing
/// of the job fails.
Status status;
GoogleCloudTalentV4JobResult();
GoogleCloudTalentV4JobResult.fromJson(core.Map _json) {
if (_json.containsKey('job')) {
job = GoogleCloudTalentV4Job.fromJson(
_json['job'] as core.Map<core.String, core.dynamic>);
}
if (_json.containsKey('status')) {
status = Status.fromJson(
_json['status'] as core.Map<core.String, core.dynamic>);
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (job != null) {
_json['job'] = job.toJson();
}
if (status != null) {
_json['status'] = status.toJson();
}
return _json;
}
}
/// A resource that represents a location with full geographic information.
class GoogleCloudTalentV4Location {
/// An object representing a latitude/longitude pair.
LatLng latLng;
/// The type of a location, which corresponds to the address lines field of
/// google.type.PostalAddress. For example, "Downtown, Atlanta, GA, USA" has a
/// type of LocationType.NEIGHBORHOOD, and "Kansas City, KS, USA" has a type
/// of LocationType.LOCALITY.
/// Possible string values are:
/// - "LOCATION_TYPE_UNSPECIFIED" : Default value if the type isn't specified.
/// - "COUNTRY" : A country level location.
/// - "ADMINISTRATIVE_AREA" : A state or equivalent level location.
/// - "SUB_ADMINISTRATIVE_AREA" : A county or equivalent level location.
/// - "LOCALITY" : A city or equivalent level location.
/// - "POSTAL_CODE" : A postal code level location.
/// - "SUB_LOCALITY" : A sublocality is a subdivision of a locality, for
/// example a city borough, ward, or arrondissement. Sublocalities are usually
/// recognized by a local political authority. For example, Manhattan and
/// Brooklyn are recognized as boroughs by the City of New York, and are
/// therefore modeled as sublocalities.
/// - "SUB_LOCALITY_1" : A district or equivalent level location.
/// - "SUB_LOCALITY_2" : A smaller district or equivalent level display.
/// - "NEIGHBORHOOD" : A neighborhood level location.
/// - "STREET_ADDRESS" : A street address level location.
core.String locationType;
/// Postal address of the location that includes human readable information,
/// such as postal delivery and payments addresses. Given a postal address, a
/// postal service can deliver items to a premises, P.O. Box, or other
/// delivery location.
PostalAddress postalAddress;
/// Radius in miles of the job location. This value is derived from the
/// location bounding box in which a circle with the specified radius centered
/// from google.type.LatLng covers the area associated with the job location.
/// For example, currently, "Mountain View, CA, USA" has a radius of 6.17
/// miles.
core.double radiusMiles;
GoogleCloudTalentV4Location();
GoogleCloudTalentV4Location.fromJson(core.Map _json) {
if (_json.containsKey('latLng')) {
latLng = LatLng.fromJson(
_json['latLng'] as core.Map<core.String, core.dynamic>);
}
if (_json.containsKey('locationType')) {
locationType = _json['locationType'] as core.String;
}
if (_json.containsKey('postalAddress')) {
postalAddress = PostalAddress.fromJson(
_json['postalAddress'] as core.Map<core.String, core.dynamic>);
}
if (_json.containsKey('radiusMiles')) {
radiusMiles = (_json['radiusMiles'] as core.num).toDouble();
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (latLng != null) {
_json['latLng'] = latLng.toJson();
}
if (locationType != null) {
_json['locationType'] = locationType;
}
if (postalAddress != null) {
_json['postalAddress'] = postalAddress.toJson();
}
if (radiusMiles != null) {
_json['radiusMiles'] = radiusMiles;
}
return _json;
}
}
/// Input only. Histogram facets to be specified in SearchJobsRequest.
class HistogramFacets {
/// Optional. Specifies compensation field-based histogram requests. Duplicate
/// values of CompensationHistogramRequest.type are not allowed.
core.List<CompensationHistogramRequest> compensationHistogramFacets;
/// Optional. Specifies the custom attributes histogram requests. Duplicate
/// values of CustomAttributeHistogramRequest.key are not allowed.
core.List<CustomAttributeHistogramRequest> customAttributeHistogramFacets;
/// Optional. Specifies the simple type of histogram facets, for example,
/// `COMPANY_SIZE`, `EMPLOYMENT_TYPE` etc.
core.List<core.String> simpleHistogramFacets;
HistogramFacets();
HistogramFacets.fromJson(core.Map _json) {
if (_json.containsKey('compensationHistogramFacets')) {
compensationHistogramFacets =
(_json['compensationHistogramFacets'] as core.List)
.map<CompensationHistogramRequest>((value) =>
CompensationHistogramRequest.fromJson(
value as core.Map<core.String, core.dynamic>))
.toList();
}
if (_json.containsKey('customAttributeHistogramFacets')) {
customAttributeHistogramFacets =
(_json['customAttributeHistogramFacets'] as core.List)
.map<CustomAttributeHistogramRequest>((value) =>
CustomAttributeHistogramRequest.fromJson(
value as core.Map<core.String, core.dynamic>))
.toList();
}
if (_json.containsKey('simpleHistogramFacets')) {
simpleHistogramFacets = (_json['simpleHistogramFacets'] as core.List)
.map<core.String>((value) => value as core.String)
.toList();
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (compensationHistogramFacets != null) {
_json['compensationHistogramFacets'] =
compensationHistogramFacets.map((value) => value.toJson()).toList();
}
if (customAttributeHistogramFacets != null) {
_json['customAttributeHistogramFacets'] = customAttributeHistogramFacets
.map((value) => value.toJson())
.toList();
}
if (simpleHistogramFacets != null) {
_json['simpleHistogramFacets'] = simpleHistogramFacets;
}
return _json;
}
}
/// Output only. Result of a histogram call. The response contains the histogram
/// map for the search type specified by HistogramResult.field. The response is
/// a map of each filter value to the corresponding count of jobs for that
/// filter.
class HistogramResult {
/// The Histogram search filters.
/// Possible string values are:
/// - "SEARCH_TYPE_UNSPECIFIED" : The default value if search type is not
/// specified.
/// - "COMPANY_ID" : Filter by the company id field.
/// - "EMPLOYMENT_TYPE" : Filter by the employment type field, such as
/// `FULL_TIME` or `PART_TIME`.
/// - "COMPANY_SIZE" : Filter by the company size type field, such as `BIG`,
/// `SMALL` or `BIGGER`.
/// - "DATE_PUBLISHED" : Filter by the date published field. Possible return
/// values are: * PAST_24_HOURS (The past 24 hours) * PAST_3_DAYS (The past 3
/// days) * PAST_WEEK (The past 7 days) * PAST_MONTH (The past 30 days) *
/// PAST_YEAR (The past 365 days)
/// - "EDUCATION_LEVEL" : Filter by the required education level of the job.
/// - "EXPERIENCE_LEVEL" : Filter by the required experience level of the job.
/// - "ADMIN_1" : Filter by Admin1, which is a global placeholder for
/// referring to state, province, or the particular term a country uses to
/// define the geographic structure below the country level. Examples include
/// states codes such as "CA", "IL", "NY", and provinces, such as "BC".
/// - "COUNTRY" : Filter by the country code of job, such as US, JP, FR.
/// - "CITY" : Filter by the "city name", "Admin1 code", for example,
/// "Mountain View, CA" or "New York, NY".
/// - "LOCALE" : Filter by the locale field of a job, such as "en-US",
/// "fr-FR". This is the BCP-47 language code, such as "en-US" or "sr-Latn".
/// For more information, see [Tags for Identifying
/// Languages](https://tools.ietf.org/html/bcp47).
/// - "LANGUAGE" : Filter by the language code portion of the locale field,
/// such as "en" or "fr".
/// - "CATEGORY" : Filter by the Category.
/// - "CITY_COORDINATE" : Filter by the city center GPS coordinate (latitude
/// and longitude), for example, 37.4038522,-122.0987765. Since the
/// coordinates of a city center can change, clients may need to refresh them
/// periodically.
/// - "ADMIN_1_COUNTRY" : A combination of state or province code with a
/// country code. This field differs from `JOB_ADMIN1`, which can be used in
/// multiple countries.
/// - "COMPANY_DISPLAY_NAME" : Company display name.
/// - "BASE_COMPENSATION_UNIT" : Base compensation unit.
core.String searchType;
/// A map from the values of field to the number of jobs with that value in
/// this search result. Key: search type (filter names, such as the
/// companyName). Values: the count of jobs that match the filter for this
/// search.
core.Map<core.String, core.int> values;
HistogramResult();
HistogramResult.fromJson(core.Map _json) {
if (_json.containsKey('searchType')) {
searchType = _json['searchType'] as core.String;
}
if (_json.containsKey('values')) {
values = (_json['values'] as core.Map).cast<core.String, core.int>().map(
(key, item) => core.MapEntry(
key,
item as core.int,
),
);
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (searchType != null) {
_json['searchType'] = searchType;
}
if (values != null) {
_json['values'] = values;
}
return _json;
}
}
/// Output only. Histogram results that match HistogramFacets specified in
/// SearchJobsRequest.
class HistogramResults {
/// Specifies compensation field-based histogram results that match
/// HistogramFacets.compensation_histogram_requests.
core.List<CompensationHistogramResult> compensationHistogramResults;
/// Specifies histogram results for custom attributes that match
/// HistogramFacets.custom_attribute_histogram_facets.
core.List<CustomAttributeHistogramResult> customAttributeHistogramResults;
/// Specifies histogram results that matches
/// HistogramFacets.simple_histogram_facets.
core.List<HistogramResult> simpleHistogramResults;
HistogramResults();
HistogramResults.fromJson(core.Map _json) {
if (_json.containsKey('compensationHistogramResults')) {
compensationHistogramResults =
(_json['compensationHistogramResults'] as core.List)
.map<CompensationHistogramResult>((value) =>
CompensationHistogramResult.fromJson(
value as core.Map<core.String, core.dynamic>))
.toList();
}
if (_json.containsKey('customAttributeHistogramResults')) {
customAttributeHistogramResults =
(_json['customAttributeHistogramResults'] as core.List)
.map<CustomAttributeHistogramResult>((value) =>
CustomAttributeHistogramResult.fromJson(
value as core.Map<core.String, core.dynamic>))
.toList();
}
if (_json.containsKey('simpleHistogramResults')) {
simpleHistogramResults = (_json['simpleHistogramResults'] as core.List)
.map<HistogramResult>((value) => HistogramResult.fromJson(
value as core.Map<core.String, core.dynamic>))
.toList();
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (compensationHistogramResults != null) {
_json['compensationHistogramResults'] =
compensationHistogramResults.map((value) => value.toJson()).toList();
}
if (customAttributeHistogramResults != null) {
_json['customAttributeHistogramResults'] = customAttributeHistogramResults
.map((value) => value.toJson())
.toList();
}
if (simpleHistogramResults != null) {
_json['simpleHistogramResults'] =
simpleHistogramResults.map((value) => value.toJson()).toList();
}
return _json;
}
}
/// A Job resource represents a job posting (also referred to as a "job listing"
/// or "job requisition"). A job belongs to a Company, which is the hiring
/// entity responsible for the job.
class Job {
/// Optional but strongly recommended for the best service experience.
/// Location(s) where the employer is looking to hire for this job posting.
/// Specifying the full street address(es) of the hiring location enables
/// better API results, especially job searches by commute time. At most 50
/// locations are allowed for best search performance. If a job has more
/// locations, it is suggested to split it into multiple jobs with unique
/// requisition_ids (e.g. 'ReqA' becomes 'ReqA-1', 'ReqA-2', etc.) as multiple
/// jobs with the same company_name, language_code and requisition_id are not
/// allowed. If the original requisition_id must be preserved, a custom field
/// should be used for storage. It is also suggested to group the locations
/// that close to each other in the same job for better search experience. The
/// maximum number of allowed characters is 500.
core.List<core.String> addresses;
/// Required. At least one field within ApplicationInfo must be specified. Job
/// application information.
ApplicationInfo applicationInfo;
/// Output only. Display name of the company listing the job.
core.String companyDisplayName;
/// Required. The resource name of the company listing the job, such as
/// "projects/api-test-project/companies/foo".
core.String companyName;
/// Optional. Job compensation information.
CompensationInfo compensationInfo;
/// Optional. A map of fields to hold both filterable and non-filterable
/// custom job attributes that are not covered by the provided structured
/// fields. The keys of the map are strings up to 64 bytes and must match the
/// pattern: a-zA-Z*. For example, key0LikeThis or KEY_1_LIKE_THIS. At most
/// 100 filterable and at most 100 unfilterable keys are supported. For
/// filterable `string_values`, across all keys at most 200 values are
/// allowed, with each string no more than 255 characters. For unfilterable
/// `string_values`, the maximum total size of `string_values` across all keys
/// is 50KB.
core.Map<core.String, CustomAttribute> customAttributes;
/// Optional. The desired education degrees for the job, such as Bachelors,
/// Masters.
core.List<core.String> degreeTypes;
/// Optional. The department or functional area within the company with the
/// open position. The maximum number of allowed characters is 255.
core.String department;
/// Output only. Derived details about the job posting.
JobDerivedInfo derivedInfo;
/// Required. The description of the job, which typically includes a
/// multi-paragraph description of the company and related information.
/// Separate fields are provided on the job object for responsibilities,
/// qualifications, and other job characteristics. Use of these separate job
/// fields is recommended. This field accepts and sanitizes HTML input, and
/// also accepts bold, italic, ordered list, and unordered list markup tags.
/// The maximum number of allowed characters is 100,000.
core.String description;
/// Optional. The employment type(s) of a job, for example, full time or part
/// time.
core.List<core.String> employmentTypes;
/// Optional. A description of bonus, commission, and other compensation
/// incentives associated with the job not including salary or pay. The
/// maximum number of allowed characters is 10,000.
core.String incentives;
/// Optional. The benefits included with the job.
core.List<core.String> jobBenefits;
/// Optional. The end timestamp of the job. Typically this field is used for
/// contracting engagements. Invalid timestamps are ignored.
core.String jobEndTime;
/// Optional. The experience level associated with the job, such as "Entry
/// Level".
/// Possible string values are:
/// - "JOB_LEVEL_UNSPECIFIED" : The default value if the level is not
/// specified.
/// - "ENTRY_LEVEL" : Entry-level individual contributors, typically with less
/// than 2 years of experience in a similar role. Includes interns.
/// - "EXPERIENCED" : Experienced individual contributors, typically with 2+
/// years of experience in a similar role.
/// - "MANAGER" : Entry- to mid-level managers responsible for managing a team
/// of people.
/// - "DIRECTOR" : Senior-level managers responsible for managing teams of
/// managers.
/// - "EXECUTIVE" : Executive-level managers and above, including C-level
/// positions.
core.String jobLevel;
/// Optional. The start timestamp of the job in UTC time zone. Typically this
/// field is used for contracting engagements. Invalid timestamps are ignored.
core.String jobStartTime;
/// Optional. The language of the posting. This field is distinct from any
/// requirements for fluency that are associated with the job. Language codes
/// must be in BCP-47 format, such as "en-US" or "sr-Latn". For more
/// information, see [Tags for Identifying
/// Languages](https://tools.ietf.org/html/bcp47){: class="external"
/// target="_blank" }. If this field is unspecified and Job.description is
/// present, detected language code based on Job.description is assigned,
/// otherwise defaults to 'en_US'.
core.String languageCode;
/// Required during job update. The resource name for the job. This is
/// generated by the service when a job is created. The format is
/// "projects/{project_id}/jobs/{job_id}", for example,
/// "projects/api-test-project/jobs/1234". Use of this field in job queries
/// and API calls is preferred over the use of requisition_id since this value
/// is unique.
core.String name;
/// Output only. The timestamp when this job posting was created.
core.String postingCreateTime;
/// Optional but strongly recommended for the best service experience. The
/// expiration timestamp of the job. After this timestamp, the job is marked
/// as expired, and it no longer appears in search results. The expired job
/// can't be deleted or listed by the DeleteJob and ListJobs APIs, but it can
/// be retrieved with the GetJob API or updated with the UpdateJob API. An
/// expired job can be updated and opened again by using a future expiration
/// timestamp. Updating an expired job fails if there is another existing open
/// job with same company_name, language_code and requisition_id. The expired
/// jobs are retained in our system for 90 days. However, the overall expired
/// job count cannot exceed 3 times the maximum of open jobs count over the
/// past week, otherwise jobs with earlier expire time are cleaned first.
/// Expired jobs are no longer accessible after they are cleaned out. Invalid
/// timestamps are ignored, and treated as expire time not provided. Timestamp
/// before the instant request is made is considered valid, the job will be
/// treated as expired immediately. If this value is not provided at the time
/// of job creation or is invalid, the job posting expires after 30 days from
/// the job's creation time. For example, if the job was created on 2017/01/01
/// 13:00AM UTC with an unspecified expiration date, the job expires after
/// 2017/01/31 13:00AM UTC. If this value is not provided on job update, it
/// depends on the field masks set by UpdateJobRequest.update_mask. If the
/// field masks include expiry_time, or the masks are empty meaning that every
/// field is updated, the job posting expires after 30 days from the job's
/// last update time. Otherwise the expiration date isn't updated.
core.String postingExpireTime;
/// Optional. The timestamp this job posting was most recently published. The
/// default value is the time the request arrives at the server. Invalid
/// timestamps are ignored.
core.String postingPublishTime;
/// Optional. The job PostingRegion (for example, state, country) throughout
/// which the job is available. If this field is set, a LocationFilter in a
/// search query within the job region finds this job posting if an exact
/// location match isn't specified. If this field is set to
/// PostingRegion.NATION or PostingRegion.ADMINISTRATIVE_AREA, setting job
/// Job.addresses to the same location level as this field is strongly
/// recommended.
/// Possible string values are:
/// - "POSTING_REGION_UNSPECIFIED" : If the region is unspecified, the job is
/// only returned if it matches the LocationFilter.
/// - "ADMINISTRATIVE_AREA" : In addition to exact location matching, job
/// posting is returned when the LocationFilter in the search query is in the
/// same administrative area as the returned job posting. For example, if a
/// `ADMINISTRATIVE_AREA` job is posted in "CA, USA", it's returned if
/// LocationFilter has "Mountain View". Administrative area refers to
/// top-level administrative subdivision of this country. For example, US
/// state, IT region, UK constituent nation and JP prefecture.
/// - "NATION" : In addition to exact location matching, job is returned when
/// LocationFilter in search query is in the same country as this job. For
/// example, if a `NATION_WIDE` job is posted in "USA", it's returned if
/// LocationFilter has 'Mountain View'.
/// - "TELECOMMUTE" : Job allows employees to work remotely (telecommute). If
/// locations are provided with this value, the job is considered as having a
/// location, but telecommuting is allowed.
core.String postingRegion;
/// Output only. The timestamp when this job posting was last updated.
core.String postingUpdateTime;
/// Optional. Options for job processing.
ProcessingOptions processingOptions;
/// Optional. A promotion value of the job, as determined by the client. The
/// value determines the sort order of the jobs returned when searching for
/// jobs using the featured jobs search call, with higher promotional values
/// being returned first and ties being resolved by relevance sort. Only the
/// jobs with a promotionValue >0 are returned in a FEATURED_JOB_SEARCH.
/// Default value is 0, and negative values are treated as 0.
core.int promotionValue;
/// Optional. A description of the qualifications required to perform the job.
/// The use of this field is recommended as an alternative to using the more
/// general description field. This field accepts and sanitizes HTML input,
/// and also accepts bold, italic, ordered list, and unordered list markup
/// tags. The maximum number of allowed characters is 10,000.
core.String qualifications;
/// Required. The requisition ID, also referred to as the posting ID, assigned
/// by the client to identify a job. This field is intended to be used by
/// clients for client identification and tracking of postings. A job is not
/// allowed to be created if there is another job with the same
/// [company_name], language_code and requisition_id. The maximum number of
/// allowed characters is 255.
core.String requisitionId;
/// Optional. A description of job responsibilities. The use of this field is
/// recommended as an alternative to using the more general description field.
/// This field accepts and sanitizes HTML input, and also accepts bold,
/// italic, ordered list, and unordered list markup tags. The maximum number
/// of allowed characters is 10,000.
core.String responsibilities;
/// Required. The title of the job, such as "Software Engineer" The maximum
/// number of allowed characters is 500.
core.String title;
/// Deprecated. The job is only visible to the owner. The visibility of the
/// job. Defaults to Visibility.ACCOUNT_ONLY if not specified.
/// Possible string values are:
/// - "VISIBILITY_UNSPECIFIED" : Default value.
/// - "ACCOUNT_ONLY" : The resource is only visible to the GCP account who
/// owns it.
/// - "SHARED_WITH_GOOGLE" : The resource is visible to the owner and may be
/// visible to other applications and processes at Google.
/// - "SHARED_WITH_PUBLIC" : The resource is visible to the owner and may be
/// visible to all other API clients.
core.String visibility;
Job();
Job.fromJson(core.Map _json) {
if (_json.containsKey('addresses')) {
addresses = (_json['addresses'] as core.List)
.map<core.String>((value) => value as core.String)
.toList();
}
if (_json.containsKey('applicationInfo')) {
applicationInfo = ApplicationInfo.fromJson(
_json['applicationInfo'] as core.Map<core.String, core.dynamic>);
}
if (_json.containsKey('companyDisplayName')) {
companyDisplayName = _json['companyDisplayName'] as core.String;
}
if (_json.containsKey('companyName')) {
companyName = _json['companyName'] as core.String;
}
if (_json.containsKey('compensationInfo')) {
compensationInfo = CompensationInfo.fromJson(
_json['compensationInfo'] as core.Map<core.String, core.dynamic>);
}
if (_json.containsKey('customAttributes')) {
customAttributes = (_json['customAttributes'] as core.Map)
.cast<core.String, core.Map>()
.map(
(key, item) => core.MapEntry(
key,
CustomAttribute.fromJson(
item as core.Map<core.String, core.dynamic>),
),
);
}
if (_json.containsKey('degreeTypes')) {
degreeTypes = (_json['degreeTypes'] as core.List)
.map<core.String>((value) => value as core.String)
.toList();
}
if (_json.containsKey('department')) {
department = _json['department'] as core.String;
}
if (_json.containsKey('derivedInfo')) {
derivedInfo = JobDerivedInfo.fromJson(
_json['derivedInfo'] as core.Map<core.String, core.dynamic>);
}
if (_json.containsKey('description')) {
description = _json['description'] as core.String;
}
if (_json.containsKey('employmentTypes')) {
employmentTypes = (_json['employmentTypes'] as core.List)
.map<core.String>((value) => value as core.String)
.toList();
}
if (_json.containsKey('incentives')) {
incentives = _json['incentives'] as core.String;
}
if (_json.containsKey('jobBenefits')) {
jobBenefits = (_json['jobBenefits'] as core.List)
.map<core.String>((value) => value as core.String)
.toList();
}
if (_json.containsKey('jobEndTime')) {
jobEndTime = _json['jobEndTime'] as core.String;
}
if (_json.containsKey('jobLevel')) {
jobLevel = _json['jobLevel'] as core.String;
}
if (_json.containsKey('jobStartTime')) {
jobStartTime = _json['jobStartTime'] as core.String;
}
if (_json.containsKey('languageCode')) {
languageCode = _json['languageCode'] as core.String;
}
if (_json.containsKey('name')) {
name = _json['name'] as core.String;
}
if (_json.containsKey('postingCreateTime')) {
postingCreateTime = _json['postingCreateTime'] as core.String;
}
if (_json.containsKey('postingExpireTime')) {
postingExpireTime = _json['postingExpireTime'] as core.String;
}
if (_json.containsKey('postingPublishTime')) {
postingPublishTime = _json['postingPublishTime'] as core.String;
}
if (_json.containsKey('postingRegion')) {
postingRegion = _json['postingRegion'] as core.String;
}
if (_json.containsKey('postingUpdateTime')) {
postingUpdateTime = _json['postingUpdateTime'] as core.String;
}
if (_json.containsKey('processingOptions')) {
processingOptions = ProcessingOptions.fromJson(
_json['processingOptions'] as core.Map<core.String, core.dynamic>);
}
if (_json.containsKey('promotionValue')) {
promotionValue = _json['promotionValue'] as core.int;
}
if (_json.containsKey('qualifications')) {
qualifications = _json['qualifications'] as core.String;
}
if (_json.containsKey('requisitionId')) {
requisitionId = _json['requisitionId'] as core.String;
}
if (_json.containsKey('responsibilities')) {
responsibilities = _json['responsibilities'] as core.String;
}
if (_json.containsKey('title')) {
title = _json['title'] as core.String;
}
if (_json.containsKey('visibility')) {
visibility = _json['visibility'] as core.String;
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (addresses != null) {
_json['addresses'] = addresses;
}
if (applicationInfo != null) {
_json['applicationInfo'] = applicationInfo.toJson();
}
if (companyDisplayName != null) {
_json['companyDisplayName'] = companyDisplayName;
}
if (companyName != null) {
_json['companyName'] = companyName;
}
if (compensationInfo != null) {
_json['compensationInfo'] = compensationInfo.toJson();
}
if (customAttributes != null) {
_json['customAttributes'] = customAttributes
.map((key, item) => core.MapEntry(key, item.toJson()));
}
if (degreeTypes != null) {
_json['degreeTypes'] = degreeTypes;
}
if (department != null) {
_json['department'] = department;
}
if (derivedInfo != null) {
_json['derivedInfo'] = derivedInfo.toJson();
}
if (description != null) {
_json['description'] = description;
}
if (employmentTypes != null) {
_json['employmentTypes'] = employmentTypes;
}
if (incentives != null) {
_json['incentives'] = incentives;
}
if (jobBenefits != null) {
_json['jobBenefits'] = jobBenefits;
}
if (jobEndTime != null) {
_json['jobEndTime'] = jobEndTime;
}
if (jobLevel != null) {
_json['jobLevel'] = jobLevel;
}
if (jobStartTime != null) {
_json['jobStartTime'] = jobStartTime;
}
if (languageCode != null) {
_json['languageCode'] = languageCode;
}
if (name != null) {
_json['name'] = name;
}
if (postingCreateTime != null) {
_json['postingCreateTime'] = postingCreateTime;
}
if (postingExpireTime != null) {
_json['postingExpireTime'] = postingExpireTime;
}
if (postingPublishTime != null) {
_json['postingPublishTime'] = postingPublishTime;
}
if (postingRegion != null) {
_json['postingRegion'] = postingRegion;
}
if (postingUpdateTime != null) {
_json['postingUpdateTime'] = postingUpdateTime;
}
if (processingOptions != null) {
_json['processingOptions'] = processingOptions.toJson();
}
if (promotionValue != null) {
_json['promotionValue'] = promotionValue;
}
if (qualifications != null) {
_json['qualifications'] = qualifications;
}
if (requisitionId != null) {
_json['requisitionId'] = requisitionId;
}
if (responsibilities != null) {
_json['responsibilities'] = responsibilities;
}
if (title != null) {
_json['title'] = title;
}
if (visibility != null) {
_json['visibility'] = visibility;
}
return _json;
}
}
/// Output only. Derived details about the job posting.
class JobDerivedInfo {
/// Job categories derived from Job.title and Job.description.
core.List<core.String> jobCategories;
/// Structured locations of the job, resolved from Job.addresses. locations
/// are exactly matched to Job.addresses in the same order.
core.List<Location> locations;
JobDerivedInfo();
JobDerivedInfo.fromJson(core.Map _json) {
if (_json.containsKey('jobCategories')) {
jobCategories = (_json['jobCategories'] as core.List)
.map<core.String>((value) => value as core.String)
.toList();
}
if (_json.containsKey('locations')) {
locations = (_json['locations'] as core.List)
.map<Location>((value) =>
Location.fromJson(value as core.Map<core.String, core.dynamic>))
.toList();
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (jobCategories != null) {
_json['jobCategories'] = jobCategories;
}
if (locations != null) {
_json['locations'] = locations.map((value) => value.toJson()).toList();
}
return _json;
}
}
/// An event issued when a job seeker interacts with the application that
/// implements Cloud Talent Solution.
class JobEvent {
/// Required. The job name(s) associated with this event. For example, if this
/// is an impression event, this field contains the identifiers of all jobs
/// shown to the job seeker. If this was a view event, this field contains the
/// identifier of the viewed job.
core.List<core.String> jobs;
/// Required. The type of the event (see JobEventType).
/// Possible string values are:
/// - "JOB_EVENT_TYPE_UNSPECIFIED" : The event is unspecified by other
/// provided values.
/// - "IMPRESSION" : The job seeker or other entity interacting with the
/// service has had a job rendered in their view, such as in a list of search
/// results in a compressed or clipped format. This event is typically
/// associated with the viewing of a jobs list on a single page by a job
/// seeker.
/// - "VIEW" : The job seeker, or other entity interacting with the service,
/// has viewed the details of a job, including the full description. This
/// event doesn't apply to the viewing a snippet of a job appearing as a part
/// of the job search results. Viewing a snippet is associated with an
/// impression).
/// - "VIEW_REDIRECT" : The job seeker or other entity interacting with the
/// service performed an action to view a job and was redirected to a
/// different website for job.
/// - "APPLICATION_START" : The job seeker or other entity interacting with
/// the service began the process or demonstrated the intention of applying
/// for a job.
/// - "APPLICATION_FINISH" : The job seeker or other entity interacting with
/// the service submitted an application for a job.
/// - "APPLICATION_QUICK_SUBMISSION" : The job seeker or other entity
/// interacting with the service submitted an application for a job with a
/// single click without entering information. If a job seeker performs this
/// action, send only this event to the service. Do not also send
/// JobEventType.APPLICATION_START or JobEventType.APPLICATION_FINISH events.
/// - "APPLICATION_REDIRECT" : The job seeker or other entity interacting with
/// the service performed an action to apply to a job and was redirected to a
/// different website to complete the application.
/// - "APPLICATION_START_FROM_SEARCH" : The job seeker or other entity
/// interacting with the service began the process or demonstrated the
/// intention of applying for a job from the search results page without
/// viewing the details of the job posting. If sending this event,
/// JobEventType.VIEW event shouldn't be sent.
/// - "APPLICATION_REDIRECT_FROM_SEARCH" : The job seeker, or other entity
/// interacting with the service, performs an action with a single click from
/// the search results page to apply to a job (without viewing the details of
/// the job posting), and is redirected to a different website to complete the
/// application. If a candidate performs this action, send only this event to
/// the service. Do not also send JobEventType.APPLICATION_START,
/// JobEventType.APPLICATION_FINISH or JobEventType.VIEW events.
/// - "APPLICATION_COMPANY_SUBMIT" : This event should be used when a company
/// submits an application on behalf of a job seeker. This event is intended
/// for use by staffing agencies attempting to place candidates.
/// - "BOOKMARK" : The job seeker or other entity interacting with the service
/// demonstrated an interest in a job by bookmarking or saving it.
/// - "NOTIFICATION" : The job seeker or other entity interacting with the
/// service was sent a notification, such as an email alert or device
/// notification, containing one or more jobs listings generated by the
/// service.
/// - "HIRED" : The job seeker or other entity interacting with the service
/// was employed by the hiring entity (employer). Send this event only if the
/// job seeker was hired through an application that was initiated by a search
/// conducted through the Cloud Talent Solution service.
/// - "SENT_CV" : A recruiter or staffing agency submitted an application on
/// behalf of the candidate after interacting with the service to identify a
/// suitable job posting.
/// - "INTERVIEW_GRANTED" : The entity interacting with the service (for
/// example, the job seeker), was granted an initial interview by the hiring
/// entity (employer). This event should only be sent if the job seeker was
/// granted an interview as part of an application that was initiated by a
/// search conducted through / recommendation provided by the Cloud Talent
/// Solution service.
/// - "NOT_INTERESTED" : The job seeker or other entity interacting with the
/// service showed no interest in the job.
core.String type;
JobEvent();
JobEvent.fromJson(core.Map _json) {
if (_json.containsKey('jobs')) {
jobs = (_json['jobs'] as core.List)
.map<core.String>((value) => value as core.String)
.toList();
}
if (_json.containsKey('type')) {
type = _json['type'] as core.String;
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (jobs != null) {
_json['jobs'] = jobs;
}
if (type != null) {
_json['type'] = type;
}
return _json;
}
}
/// Input only. The query required to perform a search query.
class JobQuery {
/// Optional. Allows filtering jobs by commute time with different travel
/// methods (for example, driving or public transit). Note: This only works
/// with COMMUTE MODE. When specified, [JobQuery.location_filters] is ignored.
/// Currently we don't support sorting by commute time.
CommuteFilter commuteFilter;
/// Optional. This filter specifies the exact company display name of the jobs
/// to search against. If a value isn't specified, jobs within the search
/// results are associated with any company. If multiple values are specified,
/// jobs within the search results may be associated with any of the specified
/// companies. At most 20 company display name filters are allowed.
core.List<core.String> companyDisplayNames;
/// Optional. This filter specifies the company entities to search against. If
/// a value isn't specified, jobs are searched for against all companies. If
/// multiple values are specified, jobs are searched against the companies
/// specified. The format is "projects/{project_id}/companies/{company_id}",
/// for example, "projects/api-test-project/companies/foo". At most 20 company
/// filters are allowed.
core.List<core.String> companyNames;
/// Optional. This search filter is applied only to Job.compensation_info. For
/// example, if the filter is specified as "Hourly job with per-hour
/// compensation > $15", only jobs meeting these criteria are searched. If a
/// filter isn't defined, all open jobs are searched.
CompensationFilter compensationFilter;
/// Optional. This filter specifies a structured syntax to match against the
/// Job.custom_attributes marked as `filterable`. The syntax for this
/// expression is a subset of SQL syntax. Supported operators are: `=`, `!=`,
/// `<`, `<=`, `>`, and `>=` where the left of the operator is a custom field
/// key and the right of the operator is a number or a quoted string. You must
/// escape backslash (\\) and quote (\") characters. Supported functions are
/// `LOWER([field_name])` to perform a case insensitive match and
/// `EMPTY([field_name])` to filter on the existence of a key. Boolean
/// expressions (AND/OR/NOT) are supported up to 3 levels of nesting (for
/// example, "((A AND B AND C) OR NOT D) AND E"), a maximum of 100 comparisons
/// or functions are allowed in the expression. The expression must be < 6000
/// bytes in length. Sample Query: `(LOWER(driving_license)="class \"a\"" OR
/// EMPTY(driving_license)) AND driving_years > 10`
core.String customAttributeFilter;
/// Optional. This flag controls the spell-check feature. If false, the
/// service attempts to correct a misspelled query, for example, "enginee" is
/// corrected to "engineer". Defaults to false: a spell check is performed.
core.bool disableSpellCheck;
/// Optional. The employment type filter specifies the employment type of jobs
/// to search against, such as EmploymentType.FULL_TIME. If a value is not
/// specified, jobs in the search results includes any employment type. If
/// multiple values are specified, jobs in the search results include any of
/// the specified employment types.
core.List<core.String> employmentTypes;
/// Optional. The category filter specifies the categories of jobs to search
/// against. See Category for more information. If a value is not specified,
/// jobs from any category are searched against. If multiple values are
/// specified, jobs from any of the specified categories are searched against.
core.List<core.String> jobCategories;
/// Optional. This filter specifies the locale of jobs to search against, for
/// example, "en-US". If a value isn't specified, the search results can
/// contain jobs in any locale. Language codes should be in BCP-47 format,
/// such as "en-US" or "sr-Latn". For more information, see [Tags for
/// Identifying Languages](https://tools.ietf.org/html/bcp47). At most 10
/// language code filters are allowed.
core.List<core.String> languageCodes;
/// Optional. The location filter specifies geo-regions containing the jobs to
/// search against. See LocationFilter for more information. If a location
/// value isn't specified, jobs fitting the other search criteria are
/// retrieved regardless of where they're located. If multiple values are
/// specified, jobs are retrieved from any of the specified locations. If
/// different values are specified for the LocationFilter.distance_in_miles
/// parameter, the maximum provided distance is used for all locations. At
/// most 5 location filters are allowed.
core.List<LocationFilter> locationFilters;
/// Optional. Jobs published within a range specified by this filter are
/// searched against.
TimestampRange publishTimeRange;
/// Optional. The query string that matches against the job title,
/// description, and location fields. The maximum number of allowed characters
/// is 255.
core.String query;
/// The language code of query. For example, "en-US". This field helps to
/// better interpret the query. If a value isn't specified, the query language
/// code is automatically detected, which may not be accurate. Language code
/// should be in BCP-47 format, such as "en-US" or "sr-Latn". For more
/// information, see [Tags for Identifying
/// Languages](https://tools.ietf.org/html/bcp47).
core.String queryLanguageCode;
JobQuery();
JobQuery.fromJson(core.Map _json) {
if (_json.containsKey('commuteFilter')) {
commuteFilter = CommuteFilter.fromJson(
_json['commuteFilter'] as core.Map<core.String, core.dynamic>);
}
if (_json.containsKey('companyDisplayNames')) {
companyDisplayNames = (_json['companyDisplayNames'] as core.List)
.map<core.String>((value) => value as core.String)
.toList();
}
if (_json.containsKey('companyNames')) {
companyNames = (_json['companyNames'] as core.List)
.map<core.String>((value) => value as core.String)
.toList();
}
if (_json.containsKey('compensationFilter')) {
compensationFilter = CompensationFilter.fromJson(
_json['compensationFilter'] as core.Map<core.String, core.dynamic>);
}
if (_json.containsKey('customAttributeFilter')) {
customAttributeFilter = _json['customAttributeFilter'] as core.String;
}
if (_json.containsKey('disableSpellCheck')) {
disableSpellCheck = _json['disableSpellCheck'] as core.bool;
}
if (_json.containsKey('employmentTypes')) {
employmentTypes = (_json['employmentTypes'] as core.List)
.map<core.String>((value) => value as core.String)
.toList();
}
if (_json.containsKey('jobCategories')) {
jobCategories = (_json['jobCategories'] as core.List)
.map<core.String>((value) => value as core.String)
.toList();
}
if (_json.containsKey('languageCodes')) {
languageCodes = (_json['languageCodes'] as core.List)
.map<core.String>((value) => value as core.String)
.toList();
}
if (_json.containsKey('locationFilters')) {
locationFilters = (_json['locationFilters'] as core.List)
.map<LocationFilter>((value) => LocationFilter.fromJson(
value as core.Map<core.String, core.dynamic>))
.toList();
}
if (_json.containsKey('publishTimeRange')) {
publishTimeRange = TimestampRange.fromJson(
_json['publishTimeRange'] as core.Map<core.String, core.dynamic>);
}
if (_json.containsKey('query')) {
query = _json['query'] as core.String;
}
if (_json.containsKey('queryLanguageCode')) {
queryLanguageCode = _json['queryLanguageCode'] as core.String;
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (commuteFilter != null) {
_json['commuteFilter'] = commuteFilter.toJson();
}
if (companyDisplayNames != null) {
_json['companyDisplayNames'] = companyDisplayNames;
}
if (companyNames != null) {
_json['companyNames'] = companyNames;
}
if (compensationFilter != null) {
_json['compensationFilter'] = compensationFilter.toJson();
}
if (customAttributeFilter != null) {
_json['customAttributeFilter'] = customAttributeFilter;
}
if (disableSpellCheck != null) {
_json['disableSpellCheck'] = disableSpellCheck;
}
if (employmentTypes != null) {
_json['employmentTypes'] = employmentTypes;
}
if (jobCategories != null) {
_json['jobCategories'] = jobCategories;
}
if (languageCodes != null) {
_json['languageCodes'] = languageCodes;
}
if (locationFilters != null) {
_json['locationFilters'] =
locationFilters.map((value) => value.toJson()).toList();
}
if (publishTimeRange != null) {
_json['publishTimeRange'] = publishTimeRange.toJson();
}
if (query != null) {
_json['query'] = query;
}
if (queryLanguageCode != null) {
_json['queryLanguageCode'] = queryLanguageCode;
}
return _json;
}
}
/// An object representing a latitude/longitude pair. This is expressed as a
/// pair of doubles representing degrees latitude and degrees longitude. Unless
/// specified otherwise, this must conform to the WGS84 standard. Values must be
/// within normalized ranges.
class LatLng {
/// The latitude in degrees. It must be in the range [-90.0, +90.0].
core.double latitude;
/// The longitude in degrees. It must be in the range [-180.0, +180.0].
core.double longitude;
LatLng();
LatLng.fromJson(core.Map _json) {
if (_json.containsKey('latitude')) {
latitude = (_json['latitude'] as core.num).toDouble();
}
if (_json.containsKey('longitude')) {
longitude = (_json['longitude'] as core.num).toDouble();
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (latitude != null) {
_json['latitude'] = latitude;
}
if (longitude != null) {
_json['longitude'] = longitude;
}
return _json;
}
}
/// Output only. The List companies response object.
class ListCompaniesResponse {
/// Companies for the current client.
core.List<Company> companies;
/// Additional information for the API invocation, such as the request
/// tracking id.
ResponseMetadata metadata;
/// A token to retrieve the next page of results.
core.String nextPageToken;
ListCompaniesResponse();
ListCompaniesResponse.fromJson(core.Map _json) {
if (_json.containsKey('companies')) {
companies = (_json['companies'] as core.List)
.map<Company>((value) =>
Company.fromJson(value as core.Map<core.String, core.dynamic>))
.toList();
}
if (_json.containsKey('metadata')) {
metadata = ResponseMetadata.fromJson(
_json['metadata'] as core.Map<core.String, core.dynamic>);
}
if (_json.containsKey('nextPageToken')) {
nextPageToken = _json['nextPageToken'] as core.String;
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (companies != null) {
_json['companies'] = companies.map((value) => value.toJson()).toList();
}
if (metadata != null) {
_json['metadata'] = metadata.toJson();
}
if (nextPageToken != null) {
_json['nextPageToken'] = nextPageToken;
}
return _json;
}
}
/// Output only. List jobs response.
class ListJobsResponse {
/// The Jobs for a given company. The maximum number of items returned is
/// based on the limit field provided in the request.
core.List<Job> jobs;
/// Additional information for the API invocation, such as the request
/// tracking id.
ResponseMetadata metadata;
/// A token to retrieve the next page of results.
core.String nextPageToken;
ListJobsResponse();
ListJobsResponse.fromJson(core.Map _json) {
if (_json.containsKey('jobs')) {
jobs = (_json['jobs'] as core.List)
.map<Job>((value) =>
Job.fromJson(value as core.Map<core.String, core.dynamic>))
.toList();
}
if (_json.containsKey('metadata')) {
metadata = ResponseMetadata.fromJson(
_json['metadata'] as core.Map<core.String, core.dynamic>);
}
if (_json.containsKey('nextPageToken')) {
nextPageToken = _json['nextPageToken'] as core.String;
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (jobs != null) {
_json['jobs'] = jobs.map((value) => value.toJson()).toList();
}
if (metadata != null) {
_json['metadata'] = metadata.toJson();
}
if (nextPageToken != null) {
_json['nextPageToken'] = nextPageToken;
}
return _json;
}
}
/// Output only. A resource that represents a location with full geographic
/// information.
class Location {
/// An object representing a latitude/longitude pair.
LatLng latLng;
/// The type of a location, which corresponds to the address lines field of
/// PostalAddress. For example, "Downtown, Atlanta, GA, USA" has a type of
/// LocationType#NEIGHBORHOOD, and "Kansas City, KS, USA" has a type of
/// LocationType#LOCALITY.
/// Possible string values are:
/// - "LOCATION_TYPE_UNSPECIFIED" : Default value if the type is not
/// specified.
/// - "COUNTRY" : A country level location.
/// - "ADMINISTRATIVE_AREA" : A state or equivalent level location.
/// - "SUB_ADMINISTRATIVE_AREA" : A county or equivalent level location.
/// - "LOCALITY" : A city or equivalent level location.
/// - "POSTAL_CODE" : A postal code level location.
/// - "SUB_LOCALITY" : A sublocality is a subdivision of a locality, for
/// example a city borough, ward, or arrondissement. Sublocalities are usually
/// recognized by a local political authority. For example, Manhattan and
/// Brooklyn are recognized as boroughs by the City of New York, and are
/// therefore modeled as sublocalities.
/// - "SUB_LOCALITY_1" : A district or equivalent level location.
/// - "SUB_LOCALITY_2" : A smaller district or equivalent level display.
/// - "NEIGHBORHOOD" : A neighborhood level location.
/// - "STREET_ADDRESS" : A street address level location.
core.String locationType;
/// Postal address of the location that includes human readable information,
/// such as postal delivery and payments addresses. Given a postal address, a
/// postal service can deliver items to a premises, P.O. Box, or other
/// delivery location.
PostalAddress postalAddress;
/// Radius in miles of the job location. This value is derived from the
/// location bounding box in which a circle with the specified radius centered
/// from LatLng covers the area associated with the job location. For example,
/// currently, "Mountain View, CA, USA" has a radius of 6.17 miles.
core.double radiusInMiles;
Location();
Location.fromJson(core.Map _json) {
if (_json.containsKey('latLng')) {
latLng = LatLng.fromJson(
_json['latLng'] as core.Map<core.String, core.dynamic>);
}
if (_json.containsKey('locationType')) {
locationType = _json['locationType'] as core.String;
}
if (_json.containsKey('postalAddress')) {
postalAddress = PostalAddress.fromJson(
_json['postalAddress'] as core.Map<core.String, core.dynamic>);
}
if (_json.containsKey('radiusInMiles')) {
radiusInMiles = (_json['radiusInMiles'] as core.num).toDouble();
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (latLng != null) {
_json['latLng'] = latLng.toJson();
}
if (locationType != null) {
_json['locationType'] = locationType;
}
if (postalAddress != null) {
_json['postalAddress'] = postalAddress.toJson();
}
if (radiusInMiles != null) {
_json['radiusInMiles'] = radiusInMiles;
}
return _json;
}
}
/// Input only. Geographic region of the search.
class LocationFilter {
/// Optional. The address name, such as "Mountain View" or "Bay Area".
core.String address;
/// Optional. The distance_in_miles is applied when the location being
/// searched for is identified as a city or smaller. When the location being
/// searched for is a state or larger, this field is ignored.
core.double distanceInMiles;
/// Optional. The latitude and longitude of the geographic center from which
/// to search. This field's ignored if `address` is provided.
LatLng latLng;
/// Optional. CLDR region code of the country/region of the address. This is
/// used to address ambiguity of the user-input location, for example,
/// "Liverpool" against "Liverpool, NY, US" or "Liverpool, UK". Set this field
/// if all the jobs to search against are from a same region, or jobs are
/// world-wide, but the job seeker is from a specific region. See
/// http://cldr.unicode.org/ and
/// http://www.unicode.org/cldr/charts/30/supplemental/territory_information.html
/// for details. Example: "CH" for Switzerland.
core.String regionCode;
/// Optional. Allows the client to return jobs without a set location,
/// specifically, telecommuting jobs (telecommuting is considered by the
/// service as a special location. Job.posting_region indicates if a job
/// permits telecommuting. If this field is set to
/// TelecommutePreference.TELECOMMUTE_ALLOWED, telecommuting jobs are
/// searched, and address and lat_lng are ignored. If not set or set to
/// TelecommutePreference.TELECOMMUTE_EXCLUDED, telecommute job are not
/// searched. This filter can be used by itself to search exclusively for
/// telecommuting jobs, or it can be combined with another location filter to
/// search for a combination of job locations, such as "Mountain View" or
/// "telecommuting" jobs. However, when used in combination with other
/// location filters, telecommuting jobs can be treated as less relevant than
/// other jobs in the search response.
/// Possible string values are:
/// - "TELECOMMUTE_PREFERENCE_UNSPECIFIED" : Default value if the telecommute
/// preference is not specified.
/// - "TELECOMMUTE_EXCLUDED" : Exclude telecommute jobs.
/// - "TELECOMMUTE_ALLOWED" : Allow telecommute jobs.
core.String telecommutePreference;
LocationFilter();
LocationFilter.fromJson(core.Map _json) {
if (_json.containsKey('address')) {
address = _json['address'] as core.String;
}
if (_json.containsKey('distanceInMiles')) {
distanceInMiles = (_json['distanceInMiles'] as core.num).toDouble();
}
if (_json.containsKey('latLng')) {
latLng = LatLng.fromJson(
_json['latLng'] as core.Map<core.String, core.dynamic>);
}
if (_json.containsKey('regionCode')) {
regionCode = _json['regionCode'] as core.String;
}
if (_json.containsKey('telecommutePreference')) {
telecommutePreference = _json['telecommutePreference'] as core.String;
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (address != null) {
_json['address'] = address;
}
if (distanceInMiles != null) {
_json['distanceInMiles'] = distanceInMiles;
}
if (latLng != null) {
_json['latLng'] = latLng.toJson();
}
if (regionCode != null) {
_json['regionCode'] = regionCode;
}
if (telecommutePreference != null) {
_json['telecommutePreference'] = telecommutePreference;
}
return _json;
}
}
/// Output only. Job entry with metadata inside SearchJobsResponse.
class MatchingJob {
/// Commute information which is generated based on specified CommuteFilter.
CommuteInfo commuteInfo;
/// Job resource that matches the specified SearchJobsRequest.
Job job;
/// A summary of the job with core information that's displayed on the search
/// results listing page.
core.String jobSummary;
/// Contains snippets of text from the Job.job_title field most closely
/// matching a search query's keywords, if available. The matching query
/// keywords are enclosed in HTML bold tags.
core.String jobTitleSnippet;
/// Contains snippets of text from the Job.description and similar fields that
/// most closely match a search query's keywords, if available. All HTML tags
/// in the original fields are stripped when returned in this field, and
/// matching query keywords are enclosed in HTML bold tags.
core.String searchTextSnippet;
MatchingJob();
MatchingJob.fromJson(core.Map _json) {
if (_json.containsKey('commuteInfo')) {
commuteInfo = CommuteInfo.fromJson(
_json['commuteInfo'] as core.Map<core.String, core.dynamic>);
}
if (_json.containsKey('job')) {
job = Job.fromJson(_json['job'] as core.Map<core.String, core.dynamic>);
}
if (_json.containsKey('jobSummary')) {
jobSummary = _json['jobSummary'] as core.String;
}
if (_json.containsKey('jobTitleSnippet')) {
jobTitleSnippet = _json['jobTitleSnippet'] as core.String;
}
if (_json.containsKey('searchTextSnippet')) {
searchTextSnippet = _json['searchTextSnippet'] as core.String;
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (commuteInfo != null) {
_json['commuteInfo'] = commuteInfo.toJson();
}
if (job != null) {
_json['job'] = job.toJson();
}
if (jobSummary != null) {
_json['jobSummary'] = jobSummary;
}
if (jobTitleSnippet != null) {
_json['jobTitleSnippet'] = jobTitleSnippet;
}
if (searchTextSnippet != null) {
_json['searchTextSnippet'] = searchTextSnippet;
}
return _json;
}
}
/// Message representing input to a Mendel server for debug forcing. See
/// go/mendel-debug-forcing for more details. Next ID: 2
class MendelDebugInput {
/// When a request spans multiple servers, a MendelDebugInput may travel with
/// the request and take effect in all the servers. This field is a map of
/// namespaces to NamespacedMendelDebugInput protos. In a single server, up to
/// two NamespacedMendelDebugInput protos are applied: 1.
/// NamespacedMendelDebugInput with the global namespace (key == ""). 2.
/// NamespacedMendelDebugInput with the server's namespace. When both
/// NamespacedMendelDebugInput protos are present, they are merged. See
/// go/mendel-debug-forcing for more details.
core.Map<core.String, NamespacedDebugInput> namespacedDebugInput;
MendelDebugInput();
MendelDebugInput.fromJson(core.Map _json) {
if (_json.containsKey('namespacedDebugInput')) {
namespacedDebugInput = (_json['namespacedDebugInput'] as core.Map)
.cast<core.String, core.Map>()
.map(
(key, item) => core.MapEntry(
key,
NamespacedDebugInput.fromJson(
item as core.Map<core.String, core.dynamic>),
),
);
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (namespacedDebugInput != null) {
_json['namespacedDebugInput'] = namespacedDebugInput
.map((key, item) => core.MapEntry(key, item.toJson()));
}
return _json;
}
}
/// Represents an amount of money with its currency type.
class Money {
/// The 3-letter currency code defined in ISO 4217.
core.String currencyCode;
/// Number of nano (10^-9) units of the amount. The value must be between
/// -999,999,999 and +999,999,999 inclusive. If `units` is positive, `nanos`
/// must be positive or zero. If `units` is zero, `nanos` can be positive,
/// zero, or negative. If `units` is negative, `nanos` must be negative or
/// zero. For example $-1.75 is represented as `units`=-1 and
/// `nanos`=-750,000,000.
core.int nanos;
/// The whole units of the amount. For example if `currencyCode` is `"USD"`,
/// then 1 unit is one US dollar.
core.String units;
Money();
Money.fromJson(core.Map _json) {
if (_json.containsKey('currencyCode')) {
currencyCode = _json['currencyCode'] as core.String;
}
if (_json.containsKey('nanos')) {
nanos = _json['nanos'] as core.int;
}
if (_json.containsKey('units')) {
units = _json['units'] as core.String;
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (currencyCode != null) {
_json['currencyCode'] = currencyCode;
}
if (nanos != null) {
_json['nanos'] = nanos;
}
if (units != null) {
_json['units'] = units;
}
return _json;
}
}
/// Next ID: 15
class NamespacedDebugInput {
/// Set of experiment names to be absolutely forced. These experiments will be
/// forced without evaluating the conditions.
core.List<core.String> absolutelyForcedExpNames;
/// Set of experiment tags to be absolutely forced. The experiments with these
/// tags will be forced without evaluating the conditions.
core.List<core.String> absolutelyForcedExpTags;
/// Set of experiment ids to be absolutely forced. These ids will be forced
/// without evaluating the conditions.
core.List<core.int> absolutelyForcedExps;
/// Set of experiment names to be conditionally forced. These experiments will
/// be forced only if their conditions and their parent domain's conditions
/// are true.
core.List<core.String> conditionallyForcedExpNames;
/// Set of experiment tags to be conditionally forced. The experiments with
/// these tags will be forced only if their conditions and their parent
/// domain's conditions are true.
core.List<core.String> conditionallyForcedExpTags;
/// Set of experiment ids to be conditionally forced. These ids will be forced
/// only if their conditions and their parent domain's conditions are true.
core.List<core.int> conditionallyForcedExps;
/// If true, disable automatic enrollment selection (at all diversion points).
/// Automatic enrollment selection means experiment selection process based on
/// the experiment's automatic enrollment condition. This does not disable
/// selection of forced experiments.
core.bool disableAutomaticEnrollmentSelection;
/// Set of experiment names to be disabled. If an experiment is disabled, it
/// is never selected nor forced. If an aggregate experiment is disabled, its
/// partitions are disabled together. If an experiment with an enrollment is
/// disabled, the enrollment is disabled together. If a name corresponds to a
/// domain, the domain itself and all descendant experiments and domains are
/// disabled together.
core.List<core.String> disableExpNames;
/// Set of experiment tags to be disabled. All experiments that are tagged
/// with one or more of these tags are disabled. If an experiment is disabled,
/// it is never selected nor forced. If an aggregate experiment is disabled,
/// its partitions are disabled together. If an experiment with an enrollment
/// is disabled, the enrollment is disabled together.
core.List<core.String> disableExpTags;
/// Set of experiment ids to be disabled. If an experiment is disabled, it is
/// never selected nor forced. If an aggregate experiment is disabled, its
/// partitions are disabled together. If an experiment with an enrollment is
/// disabled, the enrollment is disabled together. If an ID corresponds to a
/// domain, the domain itself and all descendant experiments and domains are
/// disabled together.
core.List<core.int> disableExps;
/// If true, disable manual enrollment selection (at all diversion points).
/// Manual enrollment selection means experiment selection process based on
/// the request's manual enrollment states (a.k.a. opt-in experiments). This
/// does not disable selection of forced experiments.
core.bool disableManualEnrollmentSelection;
/// If true, disable organic experiment selection (at all diversion points).
/// Organic selection means experiment selection process based on traffic
/// allocation and diversion condition evaluation. This does not disable
/// selection of forced experiments. This is useful in cases when it is not
/// known whether experiment selection behavior is responsible for a error or
/// breakage. Disabling organic selection may help to isolate the cause of a
/// given problem.
core.bool disableOrganicSelection;
/// Flags to force in a particular experiment state. Map from flag name to
/// flag value.
core.Map<core.String, core.String> forcedFlags;
/// Rollouts to force in a particular experiment state. Map from rollout name
/// to rollout value.
core.Map<core.String, core.bool> forcedRollouts;
NamespacedDebugInput();
NamespacedDebugInput.fromJson(core.Map _json) {
if (_json.containsKey('absolutelyForcedExpNames')) {
absolutelyForcedExpNames =
(_json['absolutelyForcedExpNames'] as core.List)
.map<core.String>((value) => value as core.String)
.toList();
}
if (_json.containsKey('absolutelyForcedExpTags')) {
absolutelyForcedExpTags = (_json['absolutelyForcedExpTags'] as core.List)
.map<core.String>((value) => value as core.String)
.toList();
}
if (_json.containsKey('absolutelyForcedExps')) {
absolutelyForcedExps = (_json['absolutelyForcedExps'] as core.List)
.map<core.int>((value) => value as core.int)
.toList();
}
if (_json.containsKey('conditionallyForcedExpNames')) {
conditionallyForcedExpNames =
(_json['conditionallyForcedExpNames'] as core.List)
.map<core.String>((value) => value as core.String)
.toList();
}
if (_json.containsKey('conditionallyForcedExpTags')) {
conditionallyForcedExpTags =
(_json['conditionallyForcedExpTags'] as core.List)
.map<core.String>((value) => value as core.String)
.toList();
}
if (_json.containsKey('conditionallyForcedExps')) {
conditionallyForcedExps = (_json['conditionallyForcedExps'] as core.List)
.map<core.int>((value) => value as core.int)
.toList();
}
if (_json.containsKey('disableAutomaticEnrollmentSelection')) {
disableAutomaticEnrollmentSelection =
_json['disableAutomaticEnrollmentSelection'] as core.bool;
}
if (_json.containsKey('disableExpNames')) {
disableExpNames = (_json['disableExpNames'] as core.List)
.map<core.String>((value) => value as core.String)
.toList();
}
if (_json.containsKey('disableExpTags')) {
disableExpTags = (_json['disableExpTags'] as core.List)
.map<core.String>((value) => value as core.String)
.toList();
}
if (_json.containsKey('disableExps')) {
disableExps = (_json['disableExps'] as core.List)
.map<core.int>((value) => value as core.int)
.toList();
}
if (_json.containsKey('disableManualEnrollmentSelection')) {
disableManualEnrollmentSelection =
_json['disableManualEnrollmentSelection'] as core.bool;
}
if (_json.containsKey('disableOrganicSelection')) {
disableOrganicSelection = _json['disableOrganicSelection'] as core.bool;
}
if (_json.containsKey('forcedFlags')) {
forcedFlags = (_json['forcedFlags'] as core.Map)
.cast<core.String, core.String>()
.map(
(key, item) => core.MapEntry(
key,
item as core.String,
),
);
}
if (_json.containsKey('forcedRollouts')) {
forcedRollouts = (_json['forcedRollouts'] as core.Map)
.cast<core.String, core.bool>()
.map(
(key, item) => core.MapEntry(
key,
item as core.bool,
),
);
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (absolutelyForcedExpNames != null) {
_json['absolutelyForcedExpNames'] = absolutelyForcedExpNames;
}
if (absolutelyForcedExpTags != null) {
_json['absolutelyForcedExpTags'] = absolutelyForcedExpTags;
}
if (absolutelyForcedExps != null) {
_json['absolutelyForcedExps'] = absolutelyForcedExps;
}
if (conditionallyForcedExpNames != null) {
_json['conditionallyForcedExpNames'] = conditionallyForcedExpNames;
}
if (conditionallyForcedExpTags != null) {
_json['conditionallyForcedExpTags'] = conditionallyForcedExpTags;
}
if (conditionallyForcedExps != null) {
_json['conditionallyForcedExps'] = conditionallyForcedExps;
}
if (disableAutomaticEnrollmentSelection != null) {
_json['disableAutomaticEnrollmentSelection'] =
disableAutomaticEnrollmentSelection;
}
if (disableExpNames != null) {
_json['disableExpNames'] = disableExpNames;
}
if (disableExpTags != null) {
_json['disableExpTags'] = disableExpTags;
}
if (disableExps != null) {
_json['disableExps'] = disableExps;
}
if (disableManualEnrollmentSelection != null) {
_json['disableManualEnrollmentSelection'] =
disableManualEnrollmentSelection;
}
if (disableOrganicSelection != null) {
_json['disableOrganicSelection'] = disableOrganicSelection;
}
if (forcedFlags != null) {
_json['forcedFlags'] = forcedFlags;
}
if (forcedRollouts != null) {
_json['forcedRollouts'] = forcedRollouts;
}
return _json;
}
}
/// Input only. Use this field to specify bucketing option for the histogram
/// search response.
class NumericBucketingOption {
/// Required. Two adjacent values form a histogram bucket. Values should be in
/// ascending order. For example, if [5, 10, 15] are provided, four buckets
/// are created: (-inf, 5), 5, 10), [10, 15), [15, inf). At most 20
/// [buckets_bound is supported.
core.List<core.double> bucketBounds;
/// Optional. If set to true, the histogram result includes minimum/maximum
/// value of the numeric field.
core.bool requiresMinMax;
NumericBucketingOption();
NumericBucketingOption.fromJson(core.Map _json) {
if (_json.containsKey('bucketBounds')) {
bucketBounds = (_json['bucketBounds'] as core.List)
.map<core.double>((value) => (value as core.num).toDouble())
.toList();
}
if (_json.containsKey('requiresMinMax')) {
requiresMinMax = _json['requiresMinMax'] as core.bool;
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (bucketBounds != null) {
_json['bucketBounds'] = bucketBounds;
}
if (requiresMinMax != null) {
_json['requiresMinMax'] = requiresMinMax;
}
return _json;
}
}
/// Output only. Custom numeric bucketing result.
class NumericBucketingResult {
/// Count within each bucket. Its size is the length of
/// NumericBucketingOption.bucket_bounds plus 1.
core.List<BucketizedCount> counts;
/// Stores the maximum value of the numeric field. Is populated only if
/// [NumericBucketingOption.requires_min_max] is set to true.
core.double maxValue;
/// Stores the minimum value of the numeric field. Will be populated only if
/// [NumericBucketingOption.requires_min_max] is set to true.
core.double minValue;
NumericBucketingResult();
NumericBucketingResult.fromJson(core.Map _json) {
if (_json.containsKey('counts')) {
counts = (_json['counts'] as core.List)
.map<BucketizedCount>((value) => BucketizedCount.fromJson(
value as core.Map<core.String, core.dynamic>))
.toList();
}
if (_json.containsKey('maxValue')) {
maxValue = (_json['maxValue'] as core.num).toDouble();
}
if (_json.containsKey('minValue')) {
minValue = (_json['minValue'] as core.num).toDouble();
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (counts != null) {
_json['counts'] = counts.map((value) => value.toJson()).toList();
}
if (maxValue != null) {
_json['maxValue'] = maxValue;
}
if (minValue != null) {
_json['minValue'] = minValue;
}
return _json;
}
}
/// Represents a postal address, e.g. for postal delivery or payments addresses.
/// Given a postal address, a postal service can deliver items to a premise,
/// P.O. Box or similar. It is not intended to model geographical locations
/// (roads, towns, mountains). In typical usage an address would be created via
/// user input or from importing existing data, depending on the type of
/// process. Advice on address input / editing: - Use an i18n-ready address
/// widget such as https://github.com/google/libaddressinput) - Users should not
/// be presented with UI elements for input or editing of fields outside
/// countries where that field is used. For more guidance on how to use this
/// schema, please see: https://support.google.com/business/answer/6397478
class PostalAddress {
/// Unstructured address lines describing the lower levels of an address.
/// Because values in address_lines do not have type information and may
/// sometimes contain multiple values in a single field (e.g. "Austin, TX"),
/// it is important that the line order is clear. The order of address lines
/// should be "envelope order" for the country/region of the address. In
/// places where this can vary (e.g. Japan), address_language is used to make
/// it explicit (e.g. "ja" for large-to-small ordering and "ja-Latn" or "en"
/// for small-to-large). This way, the most specific line of an address can be
/// selected based on the language. The minimum permitted structural
/// representation of an address consists of a region_code with all remaining
/// information placed in the address_lines. It would be possible to format
/// such an address very approximately without geocoding, but no semantic
/// reasoning could be made about any of the address components until it was
/// at least partially resolved. Creating an address only containing a
/// region_code and address_lines, and then geocoding is the recommended way
/// to handle completely unstructured addresses (as opposed to guessing which
/// parts of the address should be localities or administrative areas).
core.List<core.String> addressLines;
/// Optional. Highest administrative subdivision which is used for postal
/// addresses of a country or region. For example, this can be a state, a
/// province, an oblast, or a prefecture. Specifically, for Spain this is the
/// province and not the autonomous community (e.g. "Barcelona" and not
/// "Catalonia"). Many countries don't use an administrative area in postal
/// addresses. E.g. in Switzerland this should be left unpopulated.
core.String administrativeArea;
/// Optional. BCP-47 language code of the contents of this address (if known).
/// This is often the UI language of the input form or is expected to match
/// one of the languages used in the address' country/region, or their
/// transliterated equivalents. This can affect formatting in certain
/// countries, but is not critical to the correctness of the data and will
/// never affect any validation or other non-formatting related operations. If
/// this value is not known, it should be omitted (rather than specifying a
/// possibly incorrect default). Examples: "zh-Hant", "ja", "ja-Latn", "en".
core.String languageCode;
/// Optional. Generally refers to the city/town portion of the address.
/// Examples: US city, IT comune, UK post town. In regions of the world where
/// localities are not well defined or do not fit into this structure well,
/// leave locality empty and use address_lines.
core.String locality;
/// Optional. The name of the organization at the address.
core.String organization;
/// Optional. Postal code of the address. Not all countries use or require
/// postal codes to be present, but where they are used, they may trigger
/// additional validation with other parts of the address (e.g. state/zip
/// validation in the U.S.A.).
core.String postalCode;
/// Optional. The recipient at the address. This field may, under certain
/// circumstances, contain multiline information. For example, it might
/// contain "care of" information.
core.List<core.String> recipients;
/// Required. CLDR region code of the country/region of the address. This is
/// never inferred and it is up to the user to ensure the value is correct.
/// See http://cldr.unicode.org/ and
/// http://www.unicode.org/cldr/charts/30/supplemental/territory_information.html
/// for details. Example: "CH" for Switzerland.
core.String regionCode;
/// The schema revision of the `PostalAddress`. This must be set to 0, which
/// is the latest revision. All new revisions **must** be backward compatible
/// with old revisions.
core.int revision;
/// Optional. Additional, country-specific, sorting code. This is not used in
/// most regions. Where it is used, the value is either a string like "CEDEX",
/// optionally followed by a number (e.g. "CEDEX 7"), or just a number alone,
/// representing the "sector code" (Jamaica), "delivery area indicator"
/// (Malawi) or "post office indicator" (e.g. Côte d'Ivoire).
core.String sortingCode;
/// Optional. Sublocality of the address. For example, this can be
/// neighborhoods, boroughs, districts.
core.String sublocality;
PostalAddress();
PostalAddress.fromJson(core.Map _json) {
if (_json.containsKey('addressLines')) {
addressLines = (_json['addressLines'] as core.List)
.map<core.String>((value) => value as core.String)
.toList();
}
if (_json.containsKey('administrativeArea')) {
administrativeArea = _json['administrativeArea'] as core.String;
}
if (_json.containsKey('languageCode')) {
languageCode = _json['languageCode'] as core.String;
}
if (_json.containsKey('locality')) {
locality = _json['locality'] as core.String;
}
if (_json.containsKey('organization')) {
organization = _json['organization'] as core.String;
}
if (_json.containsKey('postalCode')) {
postalCode = _json['postalCode'] as core.String;
}
if (_json.containsKey('recipients')) {
recipients = (_json['recipients'] as core.List)
.map<core.String>((value) => value as core.String)
.toList();
}
if (_json.containsKey('regionCode')) {
regionCode = _json['regionCode'] as core.String;
}
if (_json.containsKey('revision')) {
revision = _json['revision'] as core.int;
}
if (_json.containsKey('sortingCode')) {
sortingCode = _json['sortingCode'] as core.String;
}
if (_json.containsKey('sublocality')) {
sublocality = _json['sublocality'] as core.String;
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (addressLines != null) {
_json['addressLines'] = addressLines;
}
if (administrativeArea != null) {
_json['administrativeArea'] = administrativeArea;
}
if (languageCode != null) {
_json['languageCode'] = languageCode;
}
if (locality != null) {
_json['locality'] = locality;
}
if (organization != null) {
_json['organization'] = organization;
}
if (postalCode != null) {
_json['postalCode'] = postalCode;
}
if (recipients != null) {
_json['recipients'] = recipients;
}
if (regionCode != null) {
_json['regionCode'] = regionCode;
}
if (revision != null) {
_json['revision'] = revision;
}
if (sortingCode != null) {
_json['sortingCode'] = sortingCode;
}
if (sublocality != null) {
_json['sublocality'] = sublocality;
}
return _json;
}
}
/// Input only. Options for job processing.
class ProcessingOptions {
/// Optional. If set to `true`, the service does not attempt to resolve a more
/// precise address for the job.
core.bool disableStreetAddressResolution;
/// Optional. Option for job HTML content sanitization. Applied fields are: *
/// description * applicationInfo.instruction * incentives * qualifications *
/// responsibilities HTML tags in these fields may be stripped if
/// sanitiazation is not disabled. Defaults to
/// HtmlSanitization.SIMPLE_FORMATTING_ONLY.
/// Possible string values are:
/// - "HTML_SANITIZATION_UNSPECIFIED" : Default value.
/// - "HTML_SANITIZATION_DISABLED" : Disables sanitization on HTML input.
/// - "SIMPLE_FORMATTING_ONLY" : Sanitizes HTML input, only accepts bold,
/// italic, ordered list, and unordered list markup tags.
core.String htmlSanitization;
ProcessingOptions();
ProcessingOptions.fromJson(core.Map _json) {
if (_json.containsKey('disableStreetAddressResolution')) {
disableStreetAddressResolution =
_json['disableStreetAddressResolution'] as core.bool;
}
if (_json.containsKey('htmlSanitization')) {
htmlSanitization = _json['htmlSanitization'] as core.String;
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (disableStreetAddressResolution != null) {
_json['disableStreetAddressResolution'] = disableStreetAddressResolution;
}
if (htmlSanitization != null) {
_json['htmlSanitization'] = htmlSanitization;
}
return _json;
}
}
/// Input only. Meta information related to the job searcher or entity
/// conducting the job search. This information is used to improve the
/// performance of the service.
class RequestMetadata {
/// Optional. The type of device used by the job seeker at the time of the
/// call to the service.
DeviceInfo deviceInfo;
/// Required. The client-defined scope or source of the service call, which
/// typically is the domain on which the service has been implemented and is
/// currently being run. For example, if the service is being run by client
/// *Foo, Inc.*, on job board www.foo.com and career site www.bar.com, then
/// this field is set to "foo.com" for use on the job board, and "bar.com" for
/// use on the career site. If this field isn't available for some reason,
/// send "UNKNOWN". Any improvements to the model for a particular tenant site
/// rely on this field being set correctly to a domain. The maximum number of
/// allowed characters is 255.
core.String domain;
/// Required. A unique session identification string. A session is defined as
/// the duration of an end user's interaction with the service over a certain
/// period. Obfuscate this field for privacy concerns before providing it to
/// the service. If this field is not available for some reason, send
/// "UNKNOWN". Note that any improvements to the model for a particular tenant
/// site, rely on this field being set correctly to some unique session_id.
/// The maximum number of allowed characters is 255.
core.String sessionId;
/// Required. A unique user identification string, as determined by the
/// client. To have the strongest positive impact on search quality make sure
/// the client-level is unique. Obfuscate this field for privacy concerns
/// before providing it to the service. If this field is not available for
/// some reason, send "UNKNOWN". Note that any improvements to the model for a
/// particular tenant site, rely on this field being set correctly to a unique
/// user_id. The maximum number of allowed characters is 255.
core.String userId;
RequestMetadata();
RequestMetadata.fromJson(core.Map _json) {
if (_json.containsKey('deviceInfo')) {
deviceInfo = DeviceInfo.fromJson(
_json['deviceInfo'] as core.Map<core.String, core.dynamic>);
}
if (_json.containsKey('domain')) {
domain = _json['domain'] as core.String;
}
if (_json.containsKey('sessionId')) {
sessionId = _json['sessionId'] as core.String;
}
if (_json.containsKey('userId')) {
userId = _json['userId'] as core.String;
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (deviceInfo != null) {
_json['deviceInfo'] = deviceInfo.toJson();
}
if (domain != null) {
_json['domain'] = domain;
}
if (sessionId != null) {
_json['sessionId'] = sessionId;
}
if (userId != null) {
_json['userId'] = userId;
}
return _json;
}
}
/// Output only. Additional information returned to client, such as debugging
/// information.
class ResponseMetadata {
/// A unique id associated with this call. This id is logged for tracking
/// purposes.
core.String requestId;
ResponseMetadata();
ResponseMetadata.fromJson(core.Map _json) {
if (_json.containsKey('requestId')) {
requestId = _json['requestId'] as core.String;
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (requestId != null) {
_json['requestId'] = requestId;
}
return _json;
}
}
/// Input only. The Request body of the `SearchJobs` call.
class SearchJobsRequest {
/// Optional. Controls whether to disable exact keyword match on
/// Job.job_title, Job.description, Job.company_display_name, Job.locations,
/// Job.qualifications. When disable keyword match is turned off, a keyword
/// match returns jobs that do not match given category filters when there are
/// matching keywords. For example, the query "program manager," a result is
/// returned even if the job posting has the title "software developer," which
/// does not fall into "program manager" ontology, but does have "program
/// manager" appearing in its description. For queries like "cloud" that does
/// not contain title or location specific ontology, jobs with "cloud" keyword
/// matches are returned regardless of this flag's value. Please use
/// Company.keyword_searchable_custom_fields or
/// Company.keyword_searchable_custom_attributes if company specific globally
/// matched custom field/attribute string values is needed. Enabling keyword
/// match improves recall of subsequent search requests. Defaults to false.
core.bool disableKeywordMatch;
/// Optional. Controls whether highly similar jobs are returned next to each
/// other in the search results. Jobs are identified as highly similar based
/// on their titles, job categories, and locations. Highly similar results are
/// clustered so that only one representative job of the cluster is displayed
/// to the job seeker higher up in the results, with the other jobs being
/// displayed lower down in the results. Defaults to
/// DiversificationLevel.SIMPLE if no value is specified.
/// Possible string values are:
/// - "DIVERSIFICATION_LEVEL_UNSPECIFIED" : The diversification level isn't
/// specified. By default, jobs with this enum are ordered according to SIMPLE
/// diversifying behavior.
/// - "DISABLED" : Disables diversification. Jobs that would normally be
/// pushed to the last page would not have their positions altered. This may
/// result in highly similar jobs appearing in sequence in the search results.
/// - "SIMPLE" : Default diversifying behavior. The result list is ordered so
/// that highly similar results are pushed to the end of the last page of
/// search results.
core.String diversificationLevel;
/// Optional. Controls whether to broaden the search when it produces sparse
/// results. Broadened queries append results to the end of the matching
/// results list. Defaults to false.
core.bool enableBroadening;
/// Optional. Histogram requests for jobs matching JobQuery.
HistogramFacets histogramFacets;
/// Optional. Query used to search against jobs, such as keyword, location
/// filters, etc.
JobQuery jobQuery;
/// Optional. The desired job attributes returned for jobs in the search
/// response. Defaults to JobView.SMALL if no value is specified.
/// Possible string values are:
/// - "JOB_VIEW_UNSPECIFIED" : Default value.
/// - "JOB_VIEW_ID_ONLY" : A ID only view of job, with following attributes:
/// Job.name, Job.requisition_id, Job.language_code.
/// - "JOB_VIEW_MINIMAL" : A minimal view of the job, with the following
/// attributes: Job.name, Job.requisition_id, Job.title, Job.company_name,
/// Job.DerivedInfo.locations, Job.language_code.
/// - "JOB_VIEW_SMALL" : A small view of the job, with the following
/// attributes in the search results: Job.name, Job.requisition_id, Job.title,
/// Job.company_name, Job.DerivedInfo.locations, Job.visibility,
/// Job.language_code, Job.description.
/// - "JOB_VIEW_FULL" : All available attributes are included in the search
/// results.
core.String jobView;
/// Optional. An integer that specifies the current offset (that is, starting
/// result location, amongst the jobs deemed by the API as relevant) in search
/// results. This field is only considered if page_token is unset. The maximum
/// allowed value is 5000. Otherwise an error is thrown. For example, 0 means
/// to return results starting from the first matching job, and 10 means to
/// return from the 11th job. This can be used for pagination, (for example,
/// pageSize = 10 and offset = 10 means to return from the second page).
core.int offset;
/// Optional. The criteria determining how search results are sorted. Default
/// is "relevance desc". Supported options are: * `"relevance desc"`: By
/// relevance descending, as determined by the API algorithms. Relevance
/// thresholding of query results is only available with this ordering. *
/// `"posting_publish_time desc"`: By Job.posting_publish_time descending. *
/// `"posting_update_time desc"`: By Job.posting_update_time descending. *
/// `"title"`: By Job.title ascending. * `"title desc"`: By Job.title
/// descending. * `"annualized_base_compensation"`: By job's
/// CompensationInfo.annualized_base_compensation_range ascending. Jobs whose
/// annualized base compensation is unspecified are put at the end of search
/// results. * `"annualized_base_compensation desc"`: By job's
/// CompensationInfo.annualized_base_compensation_range descending. Jobs whose
/// annualized base compensation is unspecified are put at the end of search
/// results. * `"annualized_total_compensation"`: By job's
/// CompensationInfo.annualized_total_compensation_range ascending. Jobs whose
/// annualized base compensation is unspecified are put at the end of search
/// results. * `"annualized_total_compensation desc"`: By job's
/// CompensationInfo.annualized_total_compensation_range descending. Jobs
/// whose annualized base compensation is unspecified are put at the end of
/// search results.
core.String orderBy;
/// Optional. A limit on the number of jobs returned in the search results.
/// Increasing this value above the default value of 10 can increase search
/// response time. The value can be between 1 and 100.
core.int pageSize;
/// Optional. The token specifying the current offset within search results.
/// See SearchJobsResponse.next_page_token for an explanation of how to obtain
/// the next set of query results.
core.String pageToken;
/// Required. The meta information collected about the job searcher, used to
/// improve the search quality of the service. The identifiers (such as
/// `user_id`) are provided by users, and must be unique and consistent.
RequestMetadata requestMetadata;
/// This field is deprecated.
core.bool requirePreciseResultSize;
/// Optional. Mode of a search. Defaults to SearchMode.JOB_SEARCH.
/// Possible string values are:
/// - "SEARCH_MODE_UNSPECIFIED" : The mode of the search method isn't
/// specified. The default search behavior is identical to JOB_SEARCH search
/// behavior.
/// - "JOB_SEARCH" : The job search matches against all jobs, and featured
/// jobs (jobs with promotionValue > 0) are not specially handled.
/// - "FEATURED_JOB_SEARCH" : The job search matches only against featured
/// jobs (jobs with a promotionValue > 0). This method doesn't return any jobs
/// having a promotionValue <= 0. The search results order is determined by
/// the promotionValue (jobs with a higher promotionValue are returned higher
/// up in the search results), with relevance being used as a tiebreaker.
core.String searchMode;
SearchJobsRequest();
SearchJobsRequest.fromJson(core.Map _json) {
if (_json.containsKey('disableKeywordMatch')) {
disableKeywordMatch = _json['disableKeywordMatch'] as core.bool;
}
if (_json.containsKey('diversificationLevel')) {
diversificationLevel = _json['diversificationLevel'] as core.String;
}
if (_json.containsKey('enableBroadening')) {
enableBroadening = _json['enableBroadening'] as core.bool;
}
if (_json.containsKey('histogramFacets')) {
histogramFacets = HistogramFacets.fromJson(
_json['histogramFacets'] as core.Map<core.String, core.dynamic>);
}
if (_json.containsKey('jobQuery')) {
jobQuery = JobQuery.fromJson(
_json['jobQuery'] as core.Map<core.String, core.dynamic>);
}
if (_json.containsKey('jobView')) {
jobView = _json['jobView'] as core.String;
}
if (_json.containsKey('offset')) {
offset = _json['offset'] as core.int;
}
if (_json.containsKey('orderBy')) {
orderBy = _json['orderBy'] as core.String;
}
if (_json.containsKey('pageSize')) {
pageSize = _json['pageSize'] as core.int;
}
if (_json.containsKey('pageToken')) {
pageToken = _json['pageToken'] as core.String;
}
if (_json.containsKey('requestMetadata')) {
requestMetadata = RequestMetadata.fromJson(
_json['requestMetadata'] as core.Map<core.String, core.dynamic>);
}
if (_json.containsKey('requirePreciseResultSize')) {
requirePreciseResultSize = _json['requirePreciseResultSize'] as core.bool;
}
if (_json.containsKey('searchMode')) {
searchMode = _json['searchMode'] as core.String;
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (disableKeywordMatch != null) {
_json['disableKeywordMatch'] = disableKeywordMatch;
}
if (diversificationLevel != null) {
_json['diversificationLevel'] = diversificationLevel;
}
if (enableBroadening != null) {
_json['enableBroadening'] = enableBroadening;
}
if (histogramFacets != null) {
_json['histogramFacets'] = histogramFacets.toJson();
}
if (jobQuery != null) {
_json['jobQuery'] = jobQuery.toJson();
}
if (jobView != null) {
_json['jobView'] = jobView;
}
if (offset != null) {
_json['offset'] = offset;
}
if (orderBy != null) {
_json['orderBy'] = orderBy;
}
if (pageSize != null) {
_json['pageSize'] = pageSize;
}
if (pageToken != null) {
_json['pageToken'] = pageToken;
}
if (requestMetadata != null) {
_json['requestMetadata'] = requestMetadata.toJson();
}
if (requirePreciseResultSize != null) {
_json['requirePreciseResultSize'] = requirePreciseResultSize;
}
if (searchMode != null) {
_json['searchMode'] = searchMode;
}
return _json;
}
}
/// Output only. Response for SearchJob method.
class SearchJobsResponse {
/// If query broadening is enabled, we may append additional results from the
/// broadened query. This number indicates how many of the jobs returned in
/// the jobs field are from the broadened query. These results are always at
/// the end of the jobs list. In particular, a value of 0, or if the field
/// isn't set, all the jobs in the jobs list are from the original (without
/// broadening) query. If this field is non-zero, subsequent requests with
/// offset after this result set should contain all broadened results.
core.int broadenedQueryJobsCount;
/// An estimation of the number of jobs that match the specified query. This
/// number is not guaranteed to be accurate. For accurate results, see
/// SearchJobsResponse.total_size.
core.int estimatedTotalSize;
/// The histogram results that match specified
/// SearchJobsRequest.histogram_facets.
HistogramResults histogramResults;
/// The location filters that the service applied to the specified query. If
/// any filters are lat-lng based, the JobLocation.location_type is
/// JobLocation.LocationType#LOCATION_TYPE_UNSPECIFIED.
core.List<Location> locationFilters;
/// The Job entities that match the specified SearchJobsRequest.
core.List<MatchingJob> matchingJobs;
/// Additional information for the API invocation, such as the request
/// tracking id.
ResponseMetadata metadata;
/// The token that specifies the starting position of the next page of
/// results. This field is empty if there are no more results.
core.String nextPageToken;
/// The spell checking result, and correction.
SpellingCorrection spellCorrection;
/// The precise result count with limit 100,000.
core.int totalSize;
SearchJobsResponse();
SearchJobsResponse.fromJson(core.Map _json) {
if (_json.containsKey('broadenedQueryJobsCount')) {
broadenedQueryJobsCount = _json['broadenedQueryJobsCount'] as core.int;
}
if (_json.containsKey('estimatedTotalSize')) {
estimatedTotalSize = _json['estimatedTotalSize'] as core.int;
}
if (_json.containsKey('histogramResults')) {
histogramResults = HistogramResults.fromJson(
_json['histogramResults'] as core.Map<core.String, core.dynamic>);
}
if (_json.containsKey('locationFilters')) {
locationFilters = (_json['locationFilters'] as core.List)
.map<Location>((value) =>
Location.fromJson(value as core.Map<core.String, core.dynamic>))
.toList();
}
if (_json.containsKey('matchingJobs')) {
matchingJobs = (_json['matchingJobs'] as core.List)
.map<MatchingJob>((value) => MatchingJob.fromJson(
value as core.Map<core.String, core.dynamic>))
.toList();
}
if (_json.containsKey('metadata')) {
metadata = ResponseMetadata.fromJson(
_json['metadata'] as core.Map<core.String, core.dynamic>);
}
if (_json.containsKey('nextPageToken')) {
nextPageToken = _json['nextPageToken'] as core.String;
}
if (_json.containsKey('spellCorrection')) {
spellCorrection = SpellingCorrection.fromJson(
_json['spellCorrection'] as core.Map<core.String, core.dynamic>);
}
if (_json.containsKey('totalSize')) {
totalSize = _json['totalSize'] as core.int;
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (broadenedQueryJobsCount != null) {
_json['broadenedQueryJobsCount'] = broadenedQueryJobsCount;
}
if (estimatedTotalSize != null) {
_json['estimatedTotalSize'] = estimatedTotalSize;
}
if (histogramResults != null) {
_json['histogramResults'] = histogramResults.toJson();
}
if (locationFilters != null) {
_json['locationFilters'] =
locationFilters.map((value) => value.toJson()).toList();
}
if (matchingJobs != null) {
_json['matchingJobs'] =
matchingJobs.map((value) => value.toJson()).toList();
}
if (metadata != null) {
_json['metadata'] = metadata.toJson();
}
if (nextPageToken != null) {
_json['nextPageToken'] = nextPageToken;
}
if (spellCorrection != null) {
_json['spellCorrection'] = spellCorrection.toJson();
}
if (totalSize != null) {
_json['totalSize'] = totalSize;
}
return _json;
}
}
/// Output only. Spell check result.
class SpellingCorrection {
/// Indicates if the query was corrected by the spell checker.
core.bool corrected;
/// Correction output consisting of the corrected keyword string.
core.String correctedText;
SpellingCorrection();
SpellingCorrection.fromJson(core.Map _json) {
if (_json.containsKey('corrected')) {
corrected = _json['corrected'] as core.bool;
}
if (_json.containsKey('correctedText')) {
correctedText = _json['correctedText'] as core.String;
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (corrected != null) {
_json['corrected'] = corrected;
}
if (correctedText != null) {
_json['correctedText'] = correctedText;
}
return _json;
}
}
/// The `Status` type defines a logical error model that is suitable for
/// different programming environments, including REST APIs and RPC APIs. It is
/// used by [gRPC](https://github.com/grpc). Each `Status` message contains
/// three pieces of data: error code, error message, and error details. You can
/// find out more about this error model and how to work with it in the [API
/// Design Guide](https://cloud.google.com/apis/design/errors).
class Status {
/// The status code, which should be an enum value of google.rpc.Code.
core.int code;
/// A list of messages that carry the error details. There is a common set of
/// message types for APIs to use.
///
/// The values for Object must be JSON objects. It can consist of `num`,
/// `String`, `bool` and `null` as well as `Map` and `List` values.
core.List<core.Map<core.String, core.Object>> details;
/// A developer-facing error message, which should be in English. Any
/// user-facing error message should be localized and sent in the
/// google.rpc.Status.details field, or localized by the client.
core.String message;
Status();
Status.fromJson(core.Map _json) {
if (_json.containsKey('code')) {
code = _json['code'] as core.int;
}
if (_json.containsKey('details')) {
details = (_json['details'] as core.List)
.map<core.Map<core.String, core.Object>>((value) =>
(value as core.Map).cast<core.String, core.Object>().map(
(key, item) => core.MapEntry(
key,
item as core.Object,
),
))
.toList();
}
if (_json.containsKey('message')) {
message = _json['message'] as core.String;
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (code != null) {
_json['code'] = code;
}
if (details != null) {
_json['details'] = details;
}
if (message != null) {
_json['message'] = message;
}
return _json;
}
}
/// Represents a time of day. The date and time zone are either not significant
/// or are specified elsewhere. An API may choose to allow leap seconds. Related
/// types are google.type.Date and `google.protobuf.Timestamp`.
class TimeOfDay {
/// Hours of day in 24 hour format. Should be from 0 to 23. An API may choose
/// to allow the value "24:00:00" for scenarios like business closing time.
core.int hours;
/// Minutes of hour of day. Must be from 0 to 59.
core.int minutes;
/// Fractions of seconds in nanoseconds. Must be from 0 to 999,999,999.
core.int nanos;
/// Seconds of minutes of the time. Must normally be from 0 to 59. An API may
/// allow the value 60 if it allows leap-seconds.
core.int seconds;
TimeOfDay();
TimeOfDay.fromJson(core.Map _json) {
if (_json.containsKey('hours')) {
hours = _json['hours'] as core.int;
}
if (_json.containsKey('minutes')) {
minutes = _json['minutes'] as core.int;
}
if (_json.containsKey('nanos')) {
nanos = _json['nanos'] as core.int;
}
if (_json.containsKey('seconds')) {
seconds = _json['seconds'] as core.int;
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (hours != null) {
_json['hours'] = hours;
}
if (minutes != null) {
_json['minutes'] = minutes;
}
if (nanos != null) {
_json['nanos'] = nanos;
}
if (seconds != null) {
_json['seconds'] = seconds;
}
return _json;
}
}
/// Message representing a period of time between two timestamps.
class TimestampRange {
/// End of the period.
core.String endTime;
/// Begin of the period.
core.String startTime;
TimestampRange();
TimestampRange.fromJson(core.Map _json) {
if (_json.containsKey('endTime')) {
endTime = _json['endTime'] as core.String;
}
if (_json.containsKey('startTime')) {
startTime = _json['startTime'] as core.String;
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (endTime != null) {
_json['endTime'] = endTime;
}
if (startTime != null) {
_json['startTime'] = startTime;
}
return _json;
}
}
/// Input only. Request for updating a specified company.
class UpdateCompanyRequest {
/// Required. The company resource to replace the current resource in the
/// system.
Company company;
/// Optional but strongly recommended for the best service experience. If
/// update_mask is provided, only the specified fields in company are updated.
/// Otherwise all the fields are updated. A field mask to specify the company
/// fields to be updated. Only top level fields of Company are supported.
core.String updateMask;
UpdateCompanyRequest();
UpdateCompanyRequest.fromJson(core.Map _json) {
if (_json.containsKey('company')) {
company = Company.fromJson(
_json['company'] as core.Map<core.String, core.dynamic>);
}
if (_json.containsKey('updateMask')) {
updateMask = _json['updateMask'] as core.String;
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (company != null) {
_json['company'] = company.toJson();
}
if (updateMask != null) {
_json['updateMask'] = updateMask;
}
return _json;
}
}
/// Input only. Update job request.
class UpdateJobRequest {
/// Required. The Job to be updated.
Job job;
/// Optional but strongly recommended to be provided for the best service
/// experience. If update_mask is provided, only the specified fields in job
/// are updated. Otherwise all the fields are updated. A field mask to
/// restrict the fields that are updated. Only top level fields of Job are
/// supported.
core.String updateMask;
UpdateJobRequest();
UpdateJobRequest.fromJson(core.Map _json) {
if (_json.containsKey('job')) {
job = Job.fromJson(_json['job'] as core.Map<core.String, core.dynamic>);
}
if (_json.containsKey('updateMask')) {
updateMask = _json['updateMask'] as core.String;
}
}
core.Map<core.String, core.Object> toJson() {
final _json = <core.String, core.Object>{};
if (job != null) {
_json['job'] = job.toJson();
}
if (updateMask != null) {
_json['updateMask'] = updateMask;
}
return _json;
}
}