mirror of
https://github.com/OMGeeky/google-apis-rs.git
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256 lines
10 KiB
Rust
256 lines
10 KiB
Rust
// DO NOT EDIT !
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// This file was generated automatically from 'src/mako/api/lib.rs.mako'
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// DO NOT EDIT !
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//! This documentation was generated from *cloudsearch* crate version *0.1.6+20150416*, where *20150416* is the exact revision of the *cloudsearch:v1* schema built by the [mako](http://www.makotemplates.org/) code generator *v0.1.6*.
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//! The original source code is [on github](https://github.com/Byron/google-apis-rs/tree/master/gen/cloudsearch1).
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//! # Features
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//!
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//! It seems there is nothing you can do here ... .
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//!
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//!
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//!
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//!
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//!
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//! Not what you are looking for ? Find all other Google APIs in their Rust [documentation index](../index.html).
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//!
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//! # Structure of this Library
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//!
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//! The API is structured into the following primary items:
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//!
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//! * **[Hub](struct.Cloudsearch.html)**
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//! * a central object to maintain state and allow accessing all *Activities*
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//! * creates [*Method Builders*](trait.MethodsBuilder.html) which in turn
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//! allow access to individual [*Call Builders*](trait.CallBuilder.html)
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//! * **[Resources](trait.Resource.html)**
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//! * primary types that you can apply *Activities* to
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//! * a collection of properties and *Parts*
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//! * **[Parts](trait.Part.html)**
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//! * a collection of properties
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//! * never directly used in *Activities*
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//! * **[Activities](trait.CallBuilder.html)**
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//! * operations to apply to *Resources*
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//!
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//! All *structures* are marked with applicable traits to further categorize them and ease browsing.
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//!
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//! Generally speaking, you can invoke *Activities* like this:
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//!
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//! ```Rust,ignore
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//! let r = hub.resource().activity(...).doit()
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//! ```
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//!
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//!
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//! The `resource()` and `activity(...)` calls create [builders][builder-pattern]. The second one dealing with `Activities`
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//! supports various methods to configure the impending operation (not shown here). It is made such that all required arguments have to be
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//! specified right away (i.e. `(...)`), whereas all optional ones can be [build up][builder-pattern] as desired.
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//! The `doit()` method performs the actual communication with the server and returns the respective result.
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//!
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//! # Usage
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//!
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//! ## Setting up your Project
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//!
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//! To use this library, you would put the following lines into your `Cargo.toml` file:
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//!
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//! ```toml
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//! [dependencies]
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//! google-cloudsearch1 = "*"
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//! ```
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//!
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//! ## A complete example
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//!
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//! ```test_harness,no_run
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//! extern crate hyper;
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//! extern crate yup_oauth2 as oauth2;
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//! extern crate google_cloudsearch1 as cloudsearch1;
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//!
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//! # #[test] fn egal() {
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//! use std::default::Default;
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//! use oauth2::{Authenticator, DefaultAuthenticatorDelegate, ApplicationSecret, MemoryStorage};
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//! use cloudsearch1::Cloudsearch;
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//!
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//! // Get an ApplicationSecret instance by some means. It contains the `client_id` and
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//! // `client_secret`, among other things.
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//! let secret: ApplicationSecret = Default::default();
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//! // Instantiate the authenticator. It will choose a suitable authentication flow for you,
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//! // unless you replace `None` with the desired Flow.
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//! // Provide your own `AuthenticatorDelegate` to adjust the way it operates and get feedback about
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//! // what's going on. You probably want to bring in your own `TokenStorage` to persist tokens and
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//! // retrieve them from storage.
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//! let auth = Authenticator::new(&secret, DefaultAuthenticatorDelegate,
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//! hyper::Client::new(),
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//! <MemoryStorage as Default>::default(), None);
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//! let mut hub = Cloudsearch::new(hyper::Client::new(), auth);
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//! # }
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//! ```
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//!
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//! ## Handling Errors
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//!
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//! All errors produced by the system are provided either as [Result](enum.Result.html) enumeration as return value of
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//! the doit() methods, or handed as possibly intermediate results to either the
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//! [Hub Delegate](trait.Delegate.html), or the [Authenticator Delegate](../yup-oauth2/trait.AuthenticatorDelegate.html).
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//!
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//! When delegates handle errors or intermediate values, they may have a chance to instruct the system to retry. This
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//! makes the system potentially resilient to all kinds of errors.
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//!
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//! ## Uploads and Downloads
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//! If a method supports downloads, the response body, which is part of the [Result](enum.Result.html), should be
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//! read by you to obtain the media.
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//! If such a method also supports a [Response Result](trait.ResponseResult.html), it will return that by default.
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//! You can see it as meta-data for the actual media. To trigger a media download, you will have to set up the builder by making
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//! this call: `.param("alt", "media")`.
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//!
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//! Methods supporting uploads can do so using up to 2 different protocols:
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//! *simple* and *resumable*. The distinctiveness of each is represented by customized
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//! `doit(...)` methods, which are then named `upload(...)` and `upload_resumable(...)` respectively.
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//!
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//! ## Customization and Callbacks
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//!
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//! You may alter the way an `doit()` method is called by providing a [delegate](trait.Delegate.html) to the
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//! [Method Builder](trait.CallBuilder.html) before making the final `doit()` call.
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//! Respective methods will be called to provide progress information, as well as determine whether the system should
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//! retry on failure.
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//!
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//! The [delegate trait](trait.Delegate.html) is default-implemented, allowing you to customize it with minimal effort.
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//!
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//! ## Optional Parts in Server-Requests
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//!
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//! All structures provided by this library are made to be [enocodable](trait.RequestValue.html) and
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//! [decodable](trait.ResponseResult.html) via *json*. Optionals are used to indicate that partial requests are responses
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//! are valid.
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//! Most optionals are are considered [Parts](trait.Part.html) which are identifiable by name, which will be sent to
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//! the server to indicate either the set parts of the request or the desired parts in the response.
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//!
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//! ## Builder Arguments
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//!
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//! Using [method builders](trait.CallBuilder.html), you are able to prepare an action call by repeatedly calling it's methods.
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//! These will always take a single argument, for which the following statements are true.
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//!
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//! * [PODs][wiki-pod] are handed by copy
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//! * strings are passed as `&str`
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//! * [request values](trait.RequestValue.html) are borrowed
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//!
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//! Arguments will always be copied or cloned into the builder, to make them independent of their original life times.
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//!
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//! [wiki-pod]: http://en.wikipedia.org/wiki/Plain_old_data_structure
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//! [builder-pattern]: http://en.wikipedia.org/wiki/Builder_pattern
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//! [google-go-api]: https://github.com/google/google-api-go-client
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//!
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//!
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#![feature(std_misc)]
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// Unused attributes happen thanks to defined, but unused structures
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// We don't warn about this, as depending on the API, some data structures or facilities are never used.
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// Instead of pre-determining this, we just disable the lint. It's manually tuned to not have any
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// unused imports in fully featured APIs. Same with unused_mut ... .
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#![allow(unused_imports, unused_mut, dead_code)]
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// Required for serde annotations
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#![feature(custom_derive, custom_attribute, plugin, slice_patterns)]
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#![plugin(serde_macros)]
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#[macro_use]
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extern crate hyper;
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extern crate serde;
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extern crate yup_oauth2 as oauth2;
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extern crate mime;
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extern crate url;
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mod cmn;
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use std::collections::HashMap;
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use std::cell::RefCell;
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use std::borrow::BorrowMut;
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use std::default::Default;
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use std::collections::BTreeMap;
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use serde::json;
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use std::io;
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use std::fs;
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use std::thread::sleep_ms;
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pub use cmn::{MultiPartReader, ToParts, MethodInfo, Result, Error, CallBuilder, Hub, ReadSeek, Part, ResponseResult, RequestValue, NestedType, Delegate, DefaultDelegate, MethodsBuilder, Resource, ErrorResponse};
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// ##############
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// UTILITIES ###
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// ############
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// ########
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// HUB ###
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// ######
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/// Central instance to access all Cloudsearch related resource activities
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///
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/// # Examples
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///
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/// Instantiate a new hub
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///
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/// ```test_harness,no_run
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/// extern crate hyper;
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/// extern crate yup_oauth2 as oauth2;
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/// extern crate google_cloudsearch1 as cloudsearch1;
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///
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/// # #[test] fn egal() {
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/// use std::default::Default;
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/// use oauth2::{Authenticator, DefaultAuthenticatorDelegate, ApplicationSecret, MemoryStorage};
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/// use cloudsearch1::Cloudsearch;
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///
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/// // Get an ApplicationSecret instance by some means. It contains the `client_id` and
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/// // `client_secret`, among other things.
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/// let secret: ApplicationSecret = Default::default();
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/// // Instantiate the authenticator. It will choose a suitable authentication flow for you,
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/// // unless you replace `None` with the desired Flow.
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/// // Provide your own `AuthenticatorDelegate` to adjust the way it operates and get feedback about
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/// // what's going on. You probably want to bring in your own `TokenStorage` to persist tokens and
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/// // retrieve them from storage.
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/// let auth = Authenticator::new(&secret, DefaultAuthenticatorDelegate,
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/// hyper::Client::new(),
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/// <MemoryStorage as Default>::default(), None);
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/// let mut hub = Cloudsearch::new(hyper::Client::new(), auth);
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/// # }
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/// ```
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///
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pub struct Cloudsearch<C, A> {
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client: RefCell<C>,
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auth: RefCell<A>,
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_user_agent: String,
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}
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impl<'a, C, A> Hub for Cloudsearch<C, A> {}
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impl<'a, C, A> Cloudsearch<C, A>
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where C: BorrowMut<hyper::Client>, A: oauth2::GetToken {
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pub fn new(client: C, authenticator: A) -> Cloudsearch<C, A> {
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Cloudsearch {
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client: RefCell::new(client),
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auth: RefCell::new(authenticator),
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_user_agent: "google-api-rust-client/0.1.6".to_string(),
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}
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}
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/// Set the user-agent header field to use in all requests to the server.
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/// It defaults to `google-api-rust-client/0.1.6`.
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///
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/// Returns the previously set user-agent.
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pub fn user_agent(&mut self, agent_name: String) -> String {
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let prev = self._user_agent.clone();
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self._user_agent = agent_name;
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prev
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}
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}
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// ###################
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// MethodBuilders ###
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// #################
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// ###################
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// CallBuilders ###
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// #################
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