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/*
 * Copyright 2019-2024 Amazon.com, Inc. or its affiliates. All Rights Reserved.
 * 
 * Licensed under the Apache License, Version 2.0 (the "License"). You may not use this file except in compliance with
 * the License. A copy of the License is located at
 * 
 * http://aws.amazon.com/apache2.0
 * 
 * or in the "license" file accompanying this file. This file is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR
 * CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions
 * and limitations under the License.
 */
package com.amazonaws.services.dynamodbv2.model;

import java.io.Serializable;
import javax.annotation.Generated;
import com.amazonaws.protocol.StructuredPojo;
import com.amazonaws.protocol.ProtocolMarshaller;

/**
 * 

* Represents the properties of a target tracking scaling policy. *

* * @see AWS API Documentation */ @Generated("com.amazonaws:aws-java-sdk-code-generator") public class AutoScalingTargetTrackingScalingPolicyConfigurationDescription implements Serializable, Cloneable, StructuredPojo { /** *

* 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. *

*/ private Boolean disableScaleIn; /** *

* 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. *

*/ private Integer scaleInCooldown; /** *

* 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. *

*/ private Integer scaleOutCooldown; /** *

* 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). *

*/ private Double targetValue; /** *

* 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. *

* * @param disableScaleIn * 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. */ public void setDisableScaleIn(Boolean disableScaleIn) { this.disableScaleIn = disableScaleIn; } /** *

* 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. *

* * @return 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. */ public Boolean getDisableScaleIn() { return this.disableScaleIn; } /** *

* 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. *

* * @param disableScaleIn * 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. * @return Returns a reference to this object so that method calls can be chained together. */ public AutoScalingTargetTrackingScalingPolicyConfigurationDescription withDisableScaleIn(Boolean disableScaleIn) { setDisableScaleIn(disableScaleIn); return this; } /** *

* 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. *

* * @return 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. */ public Boolean isDisableScaleIn() { return this.disableScaleIn; } /** *

* 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. *

* * @param scaleInCooldown * 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. */ public void setScaleInCooldown(Integer scaleInCooldown) { this.scaleInCooldown = scaleInCooldown; } /** *

* 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. *

* * @return 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. */ public Integer getScaleInCooldown() { return this.scaleInCooldown; } /** *

* 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. *

* * @param scaleInCooldown * 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. * @return Returns a reference to this object so that method calls can be chained together. */ public AutoScalingTargetTrackingScalingPolicyConfigurationDescription withScaleInCooldown(Integer scaleInCooldown) { setScaleInCooldown(scaleInCooldown); return this; } /** *

* 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. *

* * @param scaleOutCooldown * 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. */ public void setScaleOutCooldown(Integer scaleOutCooldown) { this.scaleOutCooldown = scaleOutCooldown; } /** *

* 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. *

* * @return 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. */ public Integer getScaleOutCooldown() { return this.scaleOutCooldown; } /** *

* 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. *

* * @param scaleOutCooldown * 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. * @return Returns a reference to this object so that method calls can be chained together. */ public AutoScalingTargetTrackingScalingPolicyConfigurationDescription withScaleOutCooldown(Integer scaleOutCooldown) { setScaleOutCooldown(scaleOutCooldown); return this; } /** *

* 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). *

* * @param targetValue * 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). */ public void setTargetValue(Double targetValue) { this.targetValue = targetValue; } /** *

* 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). *

* * @return 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). */ public Double getTargetValue() { return this.targetValue; } /** *

* 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). *

* * @param targetValue * 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). * @return Returns a reference to this object so that method calls can be chained together. */ public AutoScalingTargetTrackingScalingPolicyConfigurationDescription withTargetValue(Double targetValue) { setTargetValue(targetValue); return this; } /** * Returns a string representation of this object. This is useful for testing and debugging. Sensitive data will be * redacted from this string using a placeholder value. * * @return A string representation of this object. * * @see java.lang.Object#toString() */ @Override public String toString() { StringBuilder sb = new StringBuilder(); sb.append("{"); if (getDisableScaleIn() != null) sb.append("DisableScaleIn: ").append(getDisableScaleIn()).append(","); if (getScaleInCooldown() != null) sb.append("ScaleInCooldown: ").append(getScaleInCooldown()).append(","); if (getScaleOutCooldown() != null) sb.append("ScaleOutCooldown: ").append(getScaleOutCooldown()).append(","); if (getTargetValue() != null) sb.append("TargetValue: ").append(getTargetValue()); sb.append("}"); return sb.toString(); } @Override public boolean equals(Object obj) { if (this == obj) return true; if (obj == null) return false; if (obj instanceof AutoScalingTargetTrackingScalingPolicyConfigurationDescription == false) return false; AutoScalingTargetTrackingScalingPolicyConfigurationDescription other = (AutoScalingTargetTrackingScalingPolicyConfigurationDescription) obj; if (other.getDisableScaleIn() == null ^ this.getDisableScaleIn() == null) return false; if (other.getDisableScaleIn() != null && other.getDisableScaleIn().equals(this.getDisableScaleIn()) == false) return false; if (other.getScaleInCooldown() == null ^ this.getScaleInCooldown() == null) return false; if (other.getScaleInCooldown() != null && other.getScaleInCooldown().equals(this.getScaleInCooldown()) == false) return false; if (other.getScaleOutCooldown() == null ^ this.getScaleOutCooldown() == null) return false; if (other.getScaleOutCooldown() != null && other.getScaleOutCooldown().equals(this.getScaleOutCooldown()) == false) return false; if (other.getTargetValue() == null ^ this.getTargetValue() == null) return false; if (other.getTargetValue() != null && other.getTargetValue().equals(this.getTargetValue()) == false) return false; return true; } @Override public int hashCode() { final int prime = 31; int hashCode = 1; hashCode = prime * hashCode + ((getDisableScaleIn() == null) ? 0 : getDisableScaleIn().hashCode()); hashCode = prime * hashCode + ((getScaleInCooldown() == null) ? 0 : getScaleInCooldown().hashCode()); hashCode = prime * hashCode + ((getScaleOutCooldown() == null) ? 0 : getScaleOutCooldown().hashCode()); hashCode = prime * hashCode + ((getTargetValue() == null) ? 0 : getTargetValue().hashCode()); return hashCode; } @Override public AutoScalingTargetTrackingScalingPolicyConfigurationDescription clone() { try { return (AutoScalingTargetTrackingScalingPolicyConfigurationDescription) super.clone(); } catch (CloneNotSupportedException e) { throw new IllegalStateException("Got a CloneNotSupportedException from Object.clone() " + "even though we're Cloneable!", e); } } @com.amazonaws.annotation.SdkInternalApi @Override public void marshall(ProtocolMarshaller protocolMarshaller) { com.amazonaws.services.dynamodbv2.model.transform.AutoScalingTargetTrackingScalingPolicyConfigurationDescriptionMarshaller.getInstance().marshall(this, protocolMarshaller); } }




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