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// Code generated by software.amazon.smithy.rust.codegen.smithy-rs. DO NOT EDIT.
pub use crate::operation::list_monitors::_list_monitors_input::ListMonitorsInputBuilder;
pub use crate::operation::list_monitors::_list_monitors_output::ListMonitorsOutputBuilder;
impl crate::operation::list_monitors::builders::ListMonitorsInputBuilder {
/// Sends a request with this input using the given client.
pub async fn send_with(
self,
client: &crate::Client,
) -> ::std::result::Result<
crate::operation::list_monitors::ListMonitorsOutput,
::aws_smithy_runtime_api::client::result::SdkError<
crate::operation::list_monitors::ListMonitorsError,
::aws_smithy_runtime_api::client::orchestrator::HttpResponse,
>,
> {
let mut fluent_builder = client.list_monitors();
fluent_builder.inner = self;
fluent_builder.send().await
}
}
/// Fluent builder constructing a request to `ListMonitors`.
///
/// <p>Returns a list of monitors created with the <code>CreateMonitor</code> operation and <code>CreateAutoPredictor</code> operation. For each monitor resource, this operation returns of a summary of its properties, including its Amazon Resource Name (ARN). You can retrieve a complete set of properties of a monitor resource by specify the monitor's ARN in the <code>DescribeMonitor</code> operation.</p>
#[derive(::std::clone::Clone, ::std::fmt::Debug)]
pub struct ListMonitorsFluentBuilder {
handle: ::std::sync::Arc<crate::client::Handle>,
inner: crate::operation::list_monitors::builders::ListMonitorsInputBuilder,
config_override: ::std::option::Option<crate::config::Builder>,
}
impl
crate::client::customize::internal::CustomizableSend<
crate::operation::list_monitors::ListMonitorsOutput,
crate::operation::list_monitors::ListMonitorsError,
> for ListMonitorsFluentBuilder
{
fn send(
self,
config_override: crate::config::Builder,
) -> crate::client::customize::internal::BoxFuture<
crate::client::customize::internal::SendResult<
crate::operation::list_monitors::ListMonitorsOutput,
crate::operation::list_monitors::ListMonitorsError,
>,
> {
::std::boxed::Box::pin(async move { self.config_override(config_override).send().await })
}
}
impl ListMonitorsFluentBuilder {
/// Creates a new `ListMonitorsFluentBuilder`.
pub(crate) fn new(handle: ::std::sync::Arc<crate::client::Handle>) -> Self {
Self {
handle,
inner: ::std::default::Default::default(),
config_override: ::std::option::Option::None,
}
}
/// Access the ListMonitors as a reference.
pub fn as_input(&self) -> &crate::operation::list_monitors::builders::ListMonitorsInputBuilder {
&self.inner
}
/// Sends the request and returns the response.
///
/// If an error occurs, an `SdkError` will be returned with additional details that
/// can be matched against.
///
/// By default, any retryable failures will be retried twice. Retry behavior
/// is configurable with the [RetryConfig](aws_smithy_types::retry::RetryConfig), which can be
/// set when configuring the client.
pub async fn send(
self,
) -> ::std::result::Result<
crate::operation::list_monitors::ListMonitorsOutput,
::aws_smithy_runtime_api::client::result::SdkError<
crate::operation::list_monitors::ListMonitorsError,
::aws_smithy_runtime_api::client::orchestrator::HttpResponse,
>,
> {
let input = self
.inner
.build()
.map_err(::aws_smithy_runtime_api::client::result::SdkError::construction_failure)?;
let runtime_plugins = crate::operation::list_monitors::ListMonitors::operation_runtime_plugins(
self.handle.runtime_plugins.clone(),
&self.handle.conf,
self.config_override,
);
crate::operation::list_monitors::ListMonitors::orchestrate(&runtime_plugins, input).await
}
/// Consumes this builder, creating a customizable operation that can be modified before being sent.
pub fn customize(
self,
) -> crate::client::customize::CustomizableOperation<
crate::operation::list_monitors::ListMonitorsOutput,
crate::operation::list_monitors::ListMonitorsError,
Self,
> {
crate::client::customize::CustomizableOperation::new(self)
}
pub(crate) fn config_override(mut self, config_override: impl ::std::convert::Into<crate::config::Builder>) -> Self {
self.set_config_override(::std::option::Option::Some(config_override.into()));
self
}
pub(crate) fn set_config_override(&mut self, config_override: ::std::option::Option<crate::config::Builder>) -> &mut Self {
self.config_override = config_override;
self
}
/// Create a paginator for this request
///
/// Paginators are used by calling [`send().await`](crate::operation::list_monitors::paginator::ListMonitorsPaginator::send) which returns a [`PaginationStream`](aws_smithy_async::future::pagination_stream::PaginationStream).
pub fn into_paginator(self) -> crate::operation::list_monitors::paginator::ListMonitorsPaginator {
crate::operation::list_monitors::paginator::ListMonitorsPaginator::new(self.handle, self.inner)
}
/// <p>If the result of the previous request was truncated, the response includes a <code>NextToken</code>. To retrieve the next set of results, use the token in the next request. Tokens expire after 24 hours.</p>
pub fn next_token(mut self, input: impl ::std::convert::Into<::std::string::String>) -> Self {
self.inner = self.inner.next_token(input.into());
self
}
/// <p>If the result of the previous request was truncated, the response includes a <code>NextToken</code>. To retrieve the next set of results, use the token in the next request. Tokens expire after 24 hours.</p>
pub fn set_next_token(mut self, input: ::std::option::Option<::std::string::String>) -> Self {
self.inner = self.inner.set_next_token(input);
self
}
/// <p>If the result of the previous request was truncated, the response includes a <code>NextToken</code>. To retrieve the next set of results, use the token in the next request. Tokens expire after 24 hours.</p>
pub fn get_next_token(&self) -> &::std::option::Option<::std::string::String> {
self.inner.get_next_token()
}
/// <p>The maximum number of monitors to include in the response.</p>
pub fn max_results(mut self, input: i32) -> Self {
self.inner = self.inner.max_results(input);
self
}
/// <p>The maximum number of monitors to include in the response.</p>
pub fn set_max_results(mut self, input: ::std::option::Option<i32>) -> Self {
self.inner = self.inner.set_max_results(input);
self
}
/// <p>The maximum number of monitors to include in the response.</p>
pub fn get_max_results(&self) -> &::std::option::Option<i32> {
self.inner.get_max_results()
}
///
/// Appends an item to `Filters`.
///
/// To override the contents of this collection use [`set_filters`](Self::set_filters).
///
/// <p>An array of filters. For each filter, provide a condition and a match statement. The condition is either <code>IS</code> or <code>IS_NOT</code>, which specifies whether to include or exclude the resources that match the statement from the list. The match statement consists of a key and a value.</p>
/// <p><b>Filter properties</b></p>
/// <ul>
/// <li>
/// <p><code>Condition</code> - The condition to apply. Valid values are <code>IS</code> and <code>IS_NOT</code>.</p></li>
/// <li>
/// <p><code>Key</code> - The name of the parameter to filter on. The only valid value is <code>Status</code>.</p></li>
/// <li>
/// <p><code>Value</code> - The value to match.</p></li>
/// </ul>
/// <p>For example, to list all monitors who's status is ACTIVE, you would specify:</p>
/// <p><code>"Filters": \[ { "Condition": "IS", "Key": "Status", "Value": "ACTIVE" } \]</code></p>
pub fn filters(mut self, input: crate::types::Filter) -> Self {
self.inner = self.inner.filters(input);
self
}
/// <p>An array of filters. For each filter, provide a condition and a match statement. The condition is either <code>IS</code> or <code>IS_NOT</code>, which specifies whether to include or exclude the resources that match the statement from the list. The match statement consists of a key and a value.</p>
/// <p><b>Filter properties</b></p>
/// <ul>
/// <li>
/// <p><code>Condition</code> - The condition to apply. Valid values are <code>IS</code> and <code>IS_NOT</code>.</p></li>
/// <li>
/// <p><code>Key</code> - The name of the parameter to filter on. The only valid value is <code>Status</code>.</p></li>
/// <li>
/// <p><code>Value</code> - The value to match.</p></li>
/// </ul>
/// <p>For example, to list all monitors who's status is ACTIVE, you would specify:</p>
/// <p><code>"Filters": \[ { "Condition": "IS", "Key": "Status", "Value": "ACTIVE" } \]</code></p>
pub fn set_filters(mut self, input: ::std::option::Option<::std::vec::Vec<crate::types::Filter>>) -> Self {
self.inner = self.inner.set_filters(input);
self
}
/// <p>An array of filters. For each filter, provide a condition and a match statement. The condition is either <code>IS</code> or <code>IS_NOT</code>, which specifies whether to include or exclude the resources that match the statement from the list. The match statement consists of a key and a value.</p>
/// <p><b>Filter properties</b></p>
/// <ul>
/// <li>
/// <p><code>Condition</code> - The condition to apply. Valid values are <code>IS</code> and <code>IS_NOT</code>.</p></li>
/// <li>
/// <p><code>Key</code> - The name of the parameter to filter on. The only valid value is <code>Status</code>.</p></li>
/// <li>
/// <p><code>Value</code> - The value to match.</p></li>
/// </ul>
/// <p>For example, to list all monitors who's status is ACTIVE, you would specify:</p>
/// <p><code>"Filters": \[ { "Condition": "IS", "Key": "Status", "Value": "ACTIVE" } \]</code></p>
pub fn get_filters(&self) -> &::std::option::Option<::std::vec::Vec<crate::types::Filter>> {
self.inner.get_filters()
}
}