Struct aws_sdk_dynamodb::types::builders::AutoScalingTargetTrackingScalingPolicyConfigurationDescriptionBuilder

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#[non_exhaustive]
pub struct AutoScalingTargetTrackingScalingPolicyConfigurationDescriptionBuilder { /* private fields */ }
Expand description

A builder for AutoScalingTargetTrackingScalingPolicyConfigurationDescription.

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impl AutoScalingTargetTrackingScalingPolicyConfigurationDescriptionBuilder

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pub fn disable_scale_in(self, input: bool) -> Self

Indicates whether scale in by the target tracking policy is disabled. If the value is true, scale in is disabled and the target tracking policy won't remove capacity from the scalable resource. Otherwise, scale in is enabled and the target tracking policy can remove capacity from the scalable resource. The default value is false.

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pub fn set_disable_scale_in(self, input: Option<bool>) -> Self

Indicates whether scale in by the target tracking policy is disabled. If the value is true, scale in is disabled and the target tracking policy won't remove capacity from the scalable resource. Otherwise, scale in is enabled and the target tracking policy can remove capacity from the scalable resource. The default value is false.

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pub fn get_disable_scale_in(&self) -> &Option<bool>

Indicates whether scale in by the target tracking policy is disabled. If the value is true, scale in is disabled and the target tracking policy won't remove capacity from the scalable resource. Otherwise, scale in is enabled and the target tracking policy can remove capacity from the scalable resource. The default value is false.

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pub fn scale_in_cooldown(self, input: i32) -> Self

The amount of time, in seconds, after a scale in activity completes before another scale in activity can start. The cooldown period is used to block subsequent scale in requests until it has expired. You should scale in conservatively to protect your application's availability. However, if another alarm triggers a scale out policy during the cooldown period after a scale-in, application auto scaling scales out your scalable target immediately.

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pub fn set_scale_in_cooldown(self, input: Option<i32>) -> Self

The amount of time, in seconds, after a scale in activity completes before another scale in activity can start. The cooldown period is used to block subsequent scale in requests until it has expired. You should scale in conservatively to protect your application's availability. However, if another alarm triggers a scale out policy during the cooldown period after a scale-in, application auto scaling scales out your scalable target immediately.

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pub fn get_scale_in_cooldown(&self) -> &Option<i32>

The amount of time, in seconds, after a scale in activity completes before another scale in activity can start. The cooldown period is used to block subsequent scale in requests until it has expired. You should scale in conservatively to protect your application's availability. However, if another alarm triggers a scale out policy during the cooldown period after a scale-in, application auto scaling scales out your scalable target immediately.

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pub fn scale_out_cooldown(self, input: i32) -> Self

The amount of time, in seconds, after a scale out activity completes before another scale out activity can start. While the cooldown period is in effect, the capacity that has been added by the previous scale out event that initiated the cooldown is calculated as part of the desired capacity for the next scale out. You should continuously (but not excessively) scale out.

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pub fn set_scale_out_cooldown(self, input: Option<i32>) -> Self

The amount of time, in seconds, after a scale out activity completes before another scale out activity can start. While the cooldown period is in effect, the capacity that has been added by the previous scale out event that initiated the cooldown is calculated as part of the desired capacity for the next scale out. You should continuously (but not excessively) scale out.

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pub fn get_scale_out_cooldown(&self) -> &Option<i32>

The amount of time, in seconds, after a scale out activity completes before another scale out activity can start. While the cooldown period is in effect, the capacity that has been added by the previous scale out event that initiated the cooldown is calculated as part of the desired capacity for the next scale out. You should continuously (but not excessively) scale out.

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pub fn target_value(self, input: f64) -> Self

The target value for the metric. The range is 8.515920e-109 to 1.174271e+108 (Base 10) or 2e-360 to 2e360 (Base 2).

This field is required.
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pub fn set_target_value(self, input: Option<f64>) -> Self

The target value for the metric. The range is 8.515920e-109 to 1.174271e+108 (Base 10) or 2e-360 to 2e360 (Base 2).

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pub fn get_target_value(&self) -> &Option<f64>

The target value for the metric. The range is 8.515920e-109 to 1.174271e+108 (Base 10) or 2e-360 to 2e360 (Base 2).

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pub fn build( self ) -> Result<AutoScalingTargetTrackingScalingPolicyConfigurationDescription, BuildError>

Consumes the builder and constructs a AutoScalingTargetTrackingScalingPolicyConfigurationDescription. This method will fail if any of the following fields are not set:

Trait Implementations§

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impl Clone for AutoScalingTargetTrackingScalingPolicyConfigurationDescriptionBuilder

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fn clone( &self ) -> AutoScalingTargetTrackingScalingPolicyConfigurationDescriptionBuilder

Returns a copy of the value. Read more
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fn clone_from(&mut self, source: &Self)

Performs copy-assignment from source. Read more
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impl Debug for AutoScalingTargetTrackingScalingPolicyConfigurationDescriptionBuilder

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fn fmt(&self, f: &mut Formatter<'_>) -> Result

Formats the value using the given formatter. Read more
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impl Default for AutoScalingTargetTrackingScalingPolicyConfigurationDescriptionBuilder

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fn default( ) -> AutoScalingTargetTrackingScalingPolicyConfigurationDescriptionBuilder

Returns the “default value” for a type. Read more
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impl PartialEq for AutoScalingTargetTrackingScalingPolicyConfigurationDescriptionBuilder

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fn eq( &self, other: &AutoScalingTargetTrackingScalingPolicyConfigurationDescriptionBuilder ) -> bool

This method tests for self and other values to be equal, and is used by ==.
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fn ne(&self, other: &Rhs) -> bool

This method tests for !=. The default implementation is almost always sufficient, and should not be overridden without very good reason.
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impl StructuralPartialEq for AutoScalingTargetTrackingScalingPolicyConfigurationDescriptionBuilder

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