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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.ec2.model;

import java.io.Serializable;
import javax.annotation.Generated;

/**
 * 

* Describes the configuration of Spot Instances in an EC2 Fleet. *

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

* The strategy that determines how to allocate the target Spot Instance capacity across the Spot Instance pools * specified by the EC2 Fleet launch configuration. For more information, see Allocation * strategies for Spot Instances in the Amazon EC2 User Guide. *

*
*
price-capacity-optimized (recommended)
*
*

* EC2 Fleet identifies the pools with the highest capacity availability for the number of instances that are * launching. This means that we will request Spot Instances from the pools that we believe have the lowest chance * of interruption in the near term. EC2 Fleet then requests Spot Instances from the lowest priced of these pools. *

*
*
capacity-optimized
*
*

* EC2 Fleet identifies the pools with the highest capacity availability for the number of instances that are * launching. This means that we will request Spot Instances from the pools that we believe have the lowest chance * of interruption in the near term. To give certain instance types a higher chance of launching first, use * capacity-optimized-prioritized. Set a priority for each instance type by using the * Priority parameter for LaunchTemplateOverrides. You can assign the same priority to * different LaunchTemplateOverrides. EC2 implements the priorities on a best-effort basis, but * optimizes for capacity first. capacity-optimized-prioritized is supported only if your EC2 Fleet * uses a launch template. Note that if the On-Demand AllocationStrategy is set to * prioritized, the same priority is applied when fulfilling On-Demand capacity. *

*
*
diversified
*
*

* EC2 Fleet requests instances from all of the Spot Instance pools that you specify. *

*
*
lowest-price (not recommended)
*
*

* We don't recommend the lowest-price allocation strategy because it has the highest risk of * interruption for your Spot Instances. *

*
*

* EC2 Fleet requests instances from the lowest priced Spot Instance pool that has available capacity. If the lowest * priced pool doesn't have available capacity, the Spot Instances come from the next lowest priced pool that has * available capacity. If a pool runs out of capacity before fulfilling your desired capacity, EC2 Fleet will * continue to fulfill your request by drawing from the next lowest priced pool. To ensure that your desired * capacity is met, you might receive Spot Instances from several pools. Because this strategy only considers * instance price and not capacity availability, it might lead to high interruption rates. *

*
*
*

* Default: lowest-price *

*/ private String allocationStrategy; /** *

* The strategies for managing your workloads on your Spot Instances that will be interrupted. Currently only the * capacity rebalance strategy is available. *

*/ private FleetSpotMaintenanceStrategies maintenanceStrategies; /** *

* The behavior when a Spot Instance is interrupted. *

*

* Default: terminate *

*/ private String instanceInterruptionBehavior; /** *

* The number of Spot pools across which to allocate your target Spot capacity. Supported only when * AllocationStrategy is set to lowest-price. EC2 Fleet selects the cheapest Spot pools * and evenly allocates your target Spot capacity across the number of Spot pools that you specify. *

*

* Note that EC2 Fleet attempts to draw Spot Instances from the number of pools that you specify on a best effort * basis. If a pool runs out of Spot capacity before fulfilling your target capacity, EC2 Fleet will continue to * fulfill your request by drawing from the next cheapest pool. To ensure that your target capacity is met, you * might receive Spot Instances from more than the number of pools that you specified. Similarly, if most of the * pools have no Spot capacity, you might receive your full target capacity from fewer than the number of pools that * you specified. *

*/ private Integer instancePoolsToUseCount; /** *

* Indicates that the fleet uses a single instance type to launch all Spot Instances in the fleet. *

*

* Supported only for fleets of type instant. *

*/ private Boolean singleInstanceType; /** *

* Indicates that the fleet launches all Spot Instances into a single Availability Zone. *

*

* Supported only for fleets of type instant. *

*/ private Boolean singleAvailabilityZone; /** *

* The minimum target capacity for Spot Instances in the fleet. If this minimum capacity isn't reached, no instances * are launched. *

*

* Constraints: Maximum value of 1000. Supported only for fleets of type instant. *

*

* At least one of the following must be specified: SingleAvailabilityZone | * SingleInstanceType *

*/ private Integer minTargetCapacity; /** *

* The maximum amount per hour for Spot Instances that you're willing to pay. We do not recommend using this * parameter because it can lead to increased interruptions. If you do not specify this parameter, you will pay the * current Spot price. *

* *

* If you specify a maximum price, your Spot Instances will be interrupted more frequently than if you do not * specify this parameter. *

*
*

* If your fleet includes T instances that are configured as unlimited, and if their average CPU usage * exceeds the baseline utilization, you will incur a charge for surplus credits. The maxTotalPrice * does not account for surplus credits, and, if you use surplus credits, your final cost might be higher than what * you specified for maxTotalPrice. For more information, see Surplus credits can incur charges in the Amazon EC2 User Guide. *

*
*/ private String maxTotalPrice; /** *

* The strategy that determines how to allocate the target Spot Instance capacity across the Spot Instance pools * specified by the EC2 Fleet launch configuration. For more information, see Allocation * strategies for Spot Instances in the Amazon EC2 User Guide. *

*
*
price-capacity-optimized (recommended)
*
*

* EC2 Fleet identifies the pools with the highest capacity availability for the number of instances that are * launching. This means that we will request Spot Instances from the pools that we believe have the lowest chance * of interruption in the near term. EC2 Fleet then requests Spot Instances from the lowest priced of these pools. *

*
*
capacity-optimized
*
*

* EC2 Fleet identifies the pools with the highest capacity availability for the number of instances that are * launching. This means that we will request Spot Instances from the pools that we believe have the lowest chance * of interruption in the near term. To give certain instance types a higher chance of launching first, use * capacity-optimized-prioritized. Set a priority for each instance type by using the * Priority parameter for LaunchTemplateOverrides. You can assign the same priority to * different LaunchTemplateOverrides. EC2 implements the priorities on a best-effort basis, but * optimizes for capacity first. capacity-optimized-prioritized is supported only if your EC2 Fleet * uses a launch template. Note that if the On-Demand AllocationStrategy is set to * prioritized, the same priority is applied when fulfilling On-Demand capacity. *

*
*
diversified
*
*

* EC2 Fleet requests instances from all of the Spot Instance pools that you specify. *

*
*
lowest-price (not recommended)
*
*

* We don't recommend the lowest-price allocation strategy because it has the highest risk of * interruption for your Spot Instances. *

*
*

* EC2 Fleet requests instances from the lowest priced Spot Instance pool that has available capacity. If the lowest * priced pool doesn't have available capacity, the Spot Instances come from the next lowest priced pool that has * available capacity. If a pool runs out of capacity before fulfilling your desired capacity, EC2 Fleet will * continue to fulfill your request by drawing from the next lowest priced pool. To ensure that your desired * capacity is met, you might receive Spot Instances from several pools. Because this strategy only considers * instance price and not capacity availability, it might lead to high interruption rates. *

*
*
*

* Default: lowest-price *

* * @param allocationStrategy * The strategy that determines how to allocate the target Spot Instance capacity across the Spot Instance * pools specified by the EC2 Fleet launch configuration. For more information, see Allocation * strategies for Spot Instances in the Amazon EC2 User Guide.

*
*
price-capacity-optimized (recommended)
*
*

* EC2 Fleet identifies the pools with the highest capacity availability for the number of instances that are * launching. This means that we will request Spot Instances from the pools that we believe have the lowest * chance of interruption in the near term. EC2 Fleet then requests Spot Instances from the lowest priced of * these pools. *

*
*
capacity-optimized
*
*

* EC2 Fleet identifies the pools with the highest capacity availability for the number of instances that are * launching. This means that we will request Spot Instances from the pools that we believe have the lowest * chance of interruption in the near term. To give certain instance types a higher chance of launching * first, use capacity-optimized-prioritized. Set a priority for each instance type by using the * Priority parameter for LaunchTemplateOverrides. You can assign the same priority * to different LaunchTemplateOverrides. EC2 implements the priorities on a best-effort basis, * but optimizes for capacity first. capacity-optimized-prioritized is supported only if your * EC2 Fleet uses a launch template. Note that if the On-Demand AllocationStrategy is set to * prioritized, the same priority is applied when fulfilling On-Demand capacity. *

*
*
diversified
*
*

* EC2 Fleet requests instances from all of the Spot Instance pools that you specify. *

*
*
lowest-price (not recommended)
*
*

* We don't recommend the lowest-price allocation strategy because it has the highest risk of * interruption for your Spot Instances. *

*
*

* EC2 Fleet requests instances from the lowest priced Spot Instance pool that has available capacity. If the * lowest priced pool doesn't have available capacity, the Spot Instances come from the next lowest priced * pool that has available capacity. If a pool runs out of capacity before fulfilling your desired capacity, * EC2 Fleet will continue to fulfill your request by drawing from the next lowest priced pool. To ensure * that your desired capacity is met, you might receive Spot Instances from several pools. Because this * strategy only considers instance price and not capacity availability, it might lead to high interruption * rates. *

*
*
*

* Default: lowest-price * @see SpotAllocationStrategy */ public void setAllocationStrategy(String allocationStrategy) { this.allocationStrategy = allocationStrategy; } /** *

* The strategy that determines how to allocate the target Spot Instance capacity across the Spot Instance pools * specified by the EC2 Fleet launch configuration. For more information, see Allocation * strategies for Spot Instances in the Amazon EC2 User Guide. *

*
*
price-capacity-optimized (recommended)
*
*

* EC2 Fleet identifies the pools with the highest capacity availability for the number of instances that are * launching. This means that we will request Spot Instances from the pools that we believe have the lowest chance * of interruption in the near term. EC2 Fleet then requests Spot Instances from the lowest priced of these pools. *

*
*
capacity-optimized
*
*

* EC2 Fleet identifies the pools with the highest capacity availability for the number of instances that are * launching. This means that we will request Spot Instances from the pools that we believe have the lowest chance * of interruption in the near term. To give certain instance types a higher chance of launching first, use * capacity-optimized-prioritized. Set a priority for each instance type by using the * Priority parameter for LaunchTemplateOverrides. You can assign the same priority to * different LaunchTemplateOverrides. EC2 implements the priorities on a best-effort basis, but * optimizes for capacity first. capacity-optimized-prioritized is supported only if your EC2 Fleet * uses a launch template. Note that if the On-Demand AllocationStrategy is set to * prioritized, the same priority is applied when fulfilling On-Demand capacity. *

*
*
diversified
*
*

* EC2 Fleet requests instances from all of the Spot Instance pools that you specify. *

*
*
lowest-price (not recommended)
*
*

* We don't recommend the lowest-price allocation strategy because it has the highest risk of * interruption for your Spot Instances. *

*
*

* EC2 Fleet requests instances from the lowest priced Spot Instance pool that has available capacity. If the lowest * priced pool doesn't have available capacity, the Spot Instances come from the next lowest priced pool that has * available capacity. If a pool runs out of capacity before fulfilling your desired capacity, EC2 Fleet will * continue to fulfill your request by drawing from the next lowest priced pool. To ensure that your desired * capacity is met, you might receive Spot Instances from several pools. Because this strategy only considers * instance price and not capacity availability, it might lead to high interruption rates. *

*
*
*

* Default: lowest-price *

* * @return The strategy that determines how to allocate the target Spot Instance capacity across the Spot Instance * pools specified by the EC2 Fleet launch configuration. For more information, see Allocation * strategies for Spot Instances in the Amazon EC2 User Guide.

*
*
price-capacity-optimized (recommended)
*
*

* EC2 Fleet identifies the pools with the highest capacity availability for the number of instances that * are launching. This means that we will request Spot Instances from the pools that we believe have the * lowest chance of interruption in the near term. EC2 Fleet then requests Spot Instances from the lowest * priced of these pools. *

*
*
capacity-optimized
*
*

* EC2 Fleet identifies the pools with the highest capacity availability for the number of instances that * are launching. This means that we will request Spot Instances from the pools that we believe have the * lowest chance of interruption in the near term. To give certain instance types a higher chance of * launching first, use capacity-optimized-prioritized. Set a priority for each instance type * by using the Priority parameter for LaunchTemplateOverrides. You can assign the * same priority to different LaunchTemplateOverrides. EC2 implements the priorities on a * best-effort basis, but optimizes for capacity first. capacity-optimized-prioritized is * supported only if your EC2 Fleet uses a launch template. Note that if the On-Demand * AllocationStrategy is set to prioritized, the same priority is applied when * fulfilling On-Demand capacity. *

*
*
diversified
*
*

* EC2 Fleet requests instances from all of the Spot Instance pools that you specify. *

*
*
lowest-price (not recommended)
*
*

* We don't recommend the lowest-price allocation strategy because it has the highest risk of * interruption for your Spot Instances. *

*
*

* EC2 Fleet requests instances from the lowest priced Spot Instance pool that has available capacity. If * the lowest priced pool doesn't have available capacity, the Spot Instances come from the next lowest * priced pool that has available capacity. If a pool runs out of capacity before fulfilling your desired * capacity, EC2 Fleet will continue to fulfill your request by drawing from the next lowest priced pool. To * ensure that your desired capacity is met, you might receive Spot Instances from several pools. Because * this strategy only considers instance price and not capacity availability, it might lead to high * interruption rates. *

*
*
*

* Default: lowest-price * @see SpotAllocationStrategy */ public String getAllocationStrategy() { return this.allocationStrategy; } /** *

* The strategy that determines how to allocate the target Spot Instance capacity across the Spot Instance pools * specified by the EC2 Fleet launch configuration. For more information, see Allocation * strategies for Spot Instances in the Amazon EC2 User Guide. *

*
*
price-capacity-optimized (recommended)
*
*

* EC2 Fleet identifies the pools with the highest capacity availability for the number of instances that are * launching. This means that we will request Spot Instances from the pools that we believe have the lowest chance * of interruption in the near term. EC2 Fleet then requests Spot Instances from the lowest priced of these pools. *

*
*
capacity-optimized
*
*

* EC2 Fleet identifies the pools with the highest capacity availability for the number of instances that are * launching. This means that we will request Spot Instances from the pools that we believe have the lowest chance * of interruption in the near term. To give certain instance types a higher chance of launching first, use * capacity-optimized-prioritized. Set a priority for each instance type by using the * Priority parameter for LaunchTemplateOverrides. You can assign the same priority to * different LaunchTemplateOverrides. EC2 implements the priorities on a best-effort basis, but * optimizes for capacity first. capacity-optimized-prioritized is supported only if your EC2 Fleet * uses a launch template. Note that if the On-Demand AllocationStrategy is set to * prioritized, the same priority is applied when fulfilling On-Demand capacity. *

*
*
diversified
*
*

* EC2 Fleet requests instances from all of the Spot Instance pools that you specify. *

*
*
lowest-price (not recommended)
*
*

* We don't recommend the lowest-price allocation strategy because it has the highest risk of * interruption for your Spot Instances. *

*
*

* EC2 Fleet requests instances from the lowest priced Spot Instance pool that has available capacity. If the lowest * priced pool doesn't have available capacity, the Spot Instances come from the next lowest priced pool that has * available capacity. If a pool runs out of capacity before fulfilling your desired capacity, EC2 Fleet will * continue to fulfill your request by drawing from the next lowest priced pool. To ensure that your desired * capacity is met, you might receive Spot Instances from several pools. Because this strategy only considers * instance price and not capacity availability, it might lead to high interruption rates. *

*
*
*

* Default: lowest-price *

* * @param allocationStrategy * The strategy that determines how to allocate the target Spot Instance capacity across the Spot Instance * pools specified by the EC2 Fleet launch configuration. For more information, see Allocation * strategies for Spot Instances in the Amazon EC2 User Guide.

*
*
price-capacity-optimized (recommended)
*
*

* EC2 Fleet identifies the pools with the highest capacity availability for the number of instances that are * launching. This means that we will request Spot Instances from the pools that we believe have the lowest * chance of interruption in the near term. EC2 Fleet then requests Spot Instances from the lowest priced of * these pools. *

*
*
capacity-optimized
*
*

* EC2 Fleet identifies the pools with the highest capacity availability for the number of instances that are * launching. This means that we will request Spot Instances from the pools that we believe have the lowest * chance of interruption in the near term. To give certain instance types a higher chance of launching * first, use capacity-optimized-prioritized. Set a priority for each instance type by using the * Priority parameter for LaunchTemplateOverrides. You can assign the same priority * to different LaunchTemplateOverrides. EC2 implements the priorities on a best-effort basis, * but optimizes for capacity first. capacity-optimized-prioritized is supported only if your * EC2 Fleet uses a launch template. Note that if the On-Demand AllocationStrategy is set to * prioritized, the same priority is applied when fulfilling On-Demand capacity. *

*
*
diversified
*
*

* EC2 Fleet requests instances from all of the Spot Instance pools that you specify. *

*
*
lowest-price (not recommended)
*
*

* We don't recommend the lowest-price allocation strategy because it has the highest risk of * interruption for your Spot Instances. *

*
*

* EC2 Fleet requests instances from the lowest priced Spot Instance pool that has available capacity. If the * lowest priced pool doesn't have available capacity, the Spot Instances come from the next lowest priced * pool that has available capacity. If a pool runs out of capacity before fulfilling your desired capacity, * EC2 Fleet will continue to fulfill your request by drawing from the next lowest priced pool. To ensure * that your desired capacity is met, you might receive Spot Instances from several pools. Because this * strategy only considers instance price and not capacity availability, it might lead to high interruption * rates. *

*
*
*

* Default: lowest-price * @return Returns a reference to this object so that method calls can be chained together. * @see SpotAllocationStrategy */ public SpotOptions withAllocationStrategy(String allocationStrategy) { setAllocationStrategy(allocationStrategy); return this; } /** *

* The strategy that determines how to allocate the target Spot Instance capacity across the Spot Instance pools * specified by the EC2 Fleet launch configuration. For more information, see Allocation * strategies for Spot Instances in the Amazon EC2 User Guide. *

*
*
price-capacity-optimized (recommended)
*
*

* EC2 Fleet identifies the pools with the highest capacity availability for the number of instances that are * launching. This means that we will request Spot Instances from the pools that we believe have the lowest chance * of interruption in the near term. EC2 Fleet then requests Spot Instances from the lowest priced of these pools. *

*
*
capacity-optimized
*
*

* EC2 Fleet identifies the pools with the highest capacity availability for the number of instances that are * launching. This means that we will request Spot Instances from the pools that we believe have the lowest chance * of interruption in the near term. To give certain instance types a higher chance of launching first, use * capacity-optimized-prioritized. Set a priority for each instance type by using the * Priority parameter for LaunchTemplateOverrides. You can assign the same priority to * different LaunchTemplateOverrides. EC2 implements the priorities on a best-effort basis, but * optimizes for capacity first. capacity-optimized-prioritized is supported only if your EC2 Fleet * uses a launch template. Note that if the On-Demand AllocationStrategy is set to * prioritized, the same priority is applied when fulfilling On-Demand capacity. *

*
*
diversified
*
*

* EC2 Fleet requests instances from all of the Spot Instance pools that you specify. *

*
*
lowest-price (not recommended)
*
*

* We don't recommend the lowest-price allocation strategy because it has the highest risk of * interruption for your Spot Instances. *

*
*

* EC2 Fleet requests instances from the lowest priced Spot Instance pool that has available capacity. If the lowest * priced pool doesn't have available capacity, the Spot Instances come from the next lowest priced pool that has * available capacity. If a pool runs out of capacity before fulfilling your desired capacity, EC2 Fleet will * continue to fulfill your request by drawing from the next lowest priced pool. To ensure that your desired * capacity is met, you might receive Spot Instances from several pools. Because this strategy only considers * instance price and not capacity availability, it might lead to high interruption rates. *

*
*
*

* Default: lowest-price *

* * @param allocationStrategy * The strategy that determines how to allocate the target Spot Instance capacity across the Spot Instance * pools specified by the EC2 Fleet launch configuration. For more information, see Allocation * strategies for Spot Instances in the Amazon EC2 User Guide.

*
*
price-capacity-optimized (recommended)
*
*

* EC2 Fleet identifies the pools with the highest capacity availability for the number of instances that are * launching. This means that we will request Spot Instances from the pools that we believe have the lowest * chance of interruption in the near term. EC2 Fleet then requests Spot Instances from the lowest priced of * these pools. *

*
*
capacity-optimized
*
*

* EC2 Fleet identifies the pools with the highest capacity availability for the number of instances that are * launching. This means that we will request Spot Instances from the pools that we believe have the lowest * chance of interruption in the near term. To give certain instance types a higher chance of launching * first, use capacity-optimized-prioritized. Set a priority for each instance type by using the * Priority parameter for LaunchTemplateOverrides. You can assign the same priority * to different LaunchTemplateOverrides. EC2 implements the priorities on a best-effort basis, * but optimizes for capacity first. capacity-optimized-prioritized is supported only if your * EC2 Fleet uses a launch template. Note that if the On-Demand AllocationStrategy is set to * prioritized, the same priority is applied when fulfilling On-Demand capacity. *

*
*
diversified
*
*

* EC2 Fleet requests instances from all of the Spot Instance pools that you specify. *

*
*
lowest-price (not recommended)
*
*

* We don't recommend the lowest-price allocation strategy because it has the highest risk of * interruption for your Spot Instances. *

*
*

* EC2 Fleet requests instances from the lowest priced Spot Instance pool that has available capacity. If the * lowest priced pool doesn't have available capacity, the Spot Instances come from the next lowest priced * pool that has available capacity. If a pool runs out of capacity before fulfilling your desired capacity, * EC2 Fleet will continue to fulfill your request by drawing from the next lowest priced pool. To ensure * that your desired capacity is met, you might receive Spot Instances from several pools. Because this * strategy only considers instance price and not capacity availability, it might lead to high interruption * rates. *

*
*
*

* Default: lowest-price * @return Returns a reference to this object so that method calls can be chained together. * @see SpotAllocationStrategy */ public SpotOptions withAllocationStrategy(SpotAllocationStrategy allocationStrategy) { this.allocationStrategy = allocationStrategy.toString(); return this; } /** *

* The strategies for managing your workloads on your Spot Instances that will be interrupted. Currently only the * capacity rebalance strategy is available. *

* * @param maintenanceStrategies * The strategies for managing your workloads on your Spot Instances that will be interrupted. Currently only * the capacity rebalance strategy is available. */ public void setMaintenanceStrategies(FleetSpotMaintenanceStrategies maintenanceStrategies) { this.maintenanceStrategies = maintenanceStrategies; } /** *

* The strategies for managing your workloads on your Spot Instances that will be interrupted. Currently only the * capacity rebalance strategy is available. *

* * @return The strategies for managing your workloads on your Spot Instances that will be interrupted. Currently * only the capacity rebalance strategy is available. */ public FleetSpotMaintenanceStrategies getMaintenanceStrategies() { return this.maintenanceStrategies; } /** *

* The strategies for managing your workloads on your Spot Instances that will be interrupted. Currently only the * capacity rebalance strategy is available. *

* * @param maintenanceStrategies * The strategies for managing your workloads on your Spot Instances that will be interrupted. Currently only * the capacity rebalance strategy is available. * @return Returns a reference to this object so that method calls can be chained together. */ public SpotOptions withMaintenanceStrategies(FleetSpotMaintenanceStrategies maintenanceStrategies) { setMaintenanceStrategies(maintenanceStrategies); return this; } /** *

* The behavior when a Spot Instance is interrupted. *

*

* Default: terminate *

* * @param instanceInterruptionBehavior * The behavior when a Spot Instance is interrupted.

*

* Default: terminate * @see SpotInstanceInterruptionBehavior */ public void setInstanceInterruptionBehavior(String instanceInterruptionBehavior) { this.instanceInterruptionBehavior = instanceInterruptionBehavior; } /** *

* The behavior when a Spot Instance is interrupted. *

*

* Default: terminate *

* * @return The behavior when a Spot Instance is interrupted.

*

* Default: terminate * @see SpotInstanceInterruptionBehavior */ public String getInstanceInterruptionBehavior() { return this.instanceInterruptionBehavior; } /** *

* The behavior when a Spot Instance is interrupted. *

*

* Default: terminate *

* * @param instanceInterruptionBehavior * The behavior when a Spot Instance is interrupted.

*

* Default: terminate * @return Returns a reference to this object so that method calls can be chained together. * @see SpotInstanceInterruptionBehavior */ public SpotOptions withInstanceInterruptionBehavior(String instanceInterruptionBehavior) { setInstanceInterruptionBehavior(instanceInterruptionBehavior); return this; } /** *

* The behavior when a Spot Instance is interrupted. *

*

* Default: terminate *

* * @param instanceInterruptionBehavior * The behavior when a Spot Instance is interrupted.

*

* Default: terminate * @return Returns a reference to this object so that method calls can be chained together. * @see SpotInstanceInterruptionBehavior */ public SpotOptions withInstanceInterruptionBehavior(SpotInstanceInterruptionBehavior instanceInterruptionBehavior) { this.instanceInterruptionBehavior = instanceInterruptionBehavior.toString(); return this; } /** *

* The number of Spot pools across which to allocate your target Spot capacity. Supported only when * AllocationStrategy is set to lowest-price. EC2 Fleet selects the cheapest Spot pools * and evenly allocates your target Spot capacity across the number of Spot pools that you specify. *

*

* Note that EC2 Fleet attempts to draw Spot Instances from the number of pools that you specify on a best effort * basis. If a pool runs out of Spot capacity before fulfilling your target capacity, EC2 Fleet will continue to * fulfill your request by drawing from the next cheapest pool. To ensure that your target capacity is met, you * might receive Spot Instances from more than the number of pools that you specified. Similarly, if most of the * pools have no Spot capacity, you might receive your full target capacity from fewer than the number of pools that * you specified. *

* * @param instancePoolsToUseCount * The number of Spot pools across which to allocate your target Spot capacity. Supported only when * AllocationStrategy is set to lowest-price. EC2 Fleet selects the cheapest Spot * pools and evenly allocates your target Spot capacity across the number of Spot pools that you specify.

*

* Note that EC2 Fleet attempts to draw Spot Instances from the number of pools that you specify on a best * effort basis. If a pool runs out of Spot capacity before fulfilling your target capacity, EC2 Fleet will * continue to fulfill your request by drawing from the next cheapest pool. To ensure that your target * capacity is met, you might receive Spot Instances from more than the number of pools that you specified. * Similarly, if most of the pools have no Spot capacity, you might receive your full target capacity from * fewer than the number of pools that you specified. */ public void setInstancePoolsToUseCount(Integer instancePoolsToUseCount) { this.instancePoolsToUseCount = instancePoolsToUseCount; } /** *

* The number of Spot pools across which to allocate your target Spot capacity. Supported only when * AllocationStrategy is set to lowest-price. EC2 Fleet selects the cheapest Spot pools * and evenly allocates your target Spot capacity across the number of Spot pools that you specify. *

*

* Note that EC2 Fleet attempts to draw Spot Instances from the number of pools that you specify on a best effort * basis. If a pool runs out of Spot capacity before fulfilling your target capacity, EC2 Fleet will continue to * fulfill your request by drawing from the next cheapest pool. To ensure that your target capacity is met, you * might receive Spot Instances from more than the number of pools that you specified. Similarly, if most of the * pools have no Spot capacity, you might receive your full target capacity from fewer than the number of pools that * you specified. *

* * @return The number of Spot pools across which to allocate your target Spot capacity. Supported only when * AllocationStrategy is set to lowest-price. EC2 Fleet selects the cheapest Spot * pools and evenly allocates your target Spot capacity across the number of Spot pools that you * specify.

*

* Note that EC2 Fleet attempts to draw Spot Instances from the number of pools that you specify on a best * effort basis. If a pool runs out of Spot capacity before fulfilling your target capacity, EC2 Fleet will * continue to fulfill your request by drawing from the next cheapest pool. To ensure that your target * capacity is met, you might receive Spot Instances from more than the number of pools that you specified. * Similarly, if most of the pools have no Spot capacity, you might receive your full target capacity from * fewer than the number of pools that you specified. */ public Integer getInstancePoolsToUseCount() { return this.instancePoolsToUseCount; } /** *

* The number of Spot pools across which to allocate your target Spot capacity. Supported only when * AllocationStrategy is set to lowest-price. EC2 Fleet selects the cheapest Spot pools * and evenly allocates your target Spot capacity across the number of Spot pools that you specify. *

*

* Note that EC2 Fleet attempts to draw Spot Instances from the number of pools that you specify on a best effort * basis. If a pool runs out of Spot capacity before fulfilling your target capacity, EC2 Fleet will continue to * fulfill your request by drawing from the next cheapest pool. To ensure that your target capacity is met, you * might receive Spot Instances from more than the number of pools that you specified. Similarly, if most of the * pools have no Spot capacity, you might receive your full target capacity from fewer than the number of pools that * you specified. *

* * @param instancePoolsToUseCount * The number of Spot pools across which to allocate your target Spot capacity. Supported only when * AllocationStrategy is set to lowest-price. EC2 Fleet selects the cheapest Spot * pools and evenly allocates your target Spot capacity across the number of Spot pools that you specify.

*

* Note that EC2 Fleet attempts to draw Spot Instances from the number of pools that you specify on a best * effort basis. If a pool runs out of Spot capacity before fulfilling your target capacity, EC2 Fleet will * continue to fulfill your request by drawing from the next cheapest pool. To ensure that your target * capacity is met, you might receive Spot Instances from more than the number of pools that you specified. * Similarly, if most of the pools have no Spot capacity, you might receive your full target capacity from * fewer than the number of pools that you specified. * @return Returns a reference to this object so that method calls can be chained together. */ public SpotOptions withInstancePoolsToUseCount(Integer instancePoolsToUseCount) { setInstancePoolsToUseCount(instancePoolsToUseCount); return this; } /** *

* Indicates that the fleet uses a single instance type to launch all Spot Instances in the fleet. *

*

* Supported only for fleets of type instant. *

* * @param singleInstanceType * Indicates that the fleet uses a single instance type to launch all Spot Instances in the fleet.

*

* Supported only for fleets of type instant. */ public void setSingleInstanceType(Boolean singleInstanceType) { this.singleInstanceType = singleInstanceType; } /** *

* Indicates that the fleet uses a single instance type to launch all Spot Instances in the fleet. *

*

* Supported only for fleets of type instant. *

* * @return Indicates that the fleet uses a single instance type to launch all Spot Instances in the fleet.

*

* Supported only for fleets of type instant. */ public Boolean getSingleInstanceType() { return this.singleInstanceType; } /** *

* Indicates that the fleet uses a single instance type to launch all Spot Instances in the fleet. *

*

* Supported only for fleets of type instant. *

* * @param singleInstanceType * Indicates that the fleet uses a single instance type to launch all Spot Instances in the fleet.

*

* Supported only for fleets of type instant. * @return Returns a reference to this object so that method calls can be chained together. */ public SpotOptions withSingleInstanceType(Boolean singleInstanceType) { setSingleInstanceType(singleInstanceType); return this; } /** *

* Indicates that the fleet uses a single instance type to launch all Spot Instances in the fleet. *

*

* Supported only for fleets of type instant. *

* * @return Indicates that the fleet uses a single instance type to launch all Spot Instances in the fleet.

*

* Supported only for fleets of type instant. */ public Boolean isSingleInstanceType() { return this.singleInstanceType; } /** *

* Indicates that the fleet launches all Spot Instances into a single Availability Zone. *

*

* Supported only for fleets of type instant. *

* * @param singleAvailabilityZone * Indicates that the fleet launches all Spot Instances into a single Availability Zone.

*

* Supported only for fleets of type instant. */ public void setSingleAvailabilityZone(Boolean singleAvailabilityZone) { this.singleAvailabilityZone = singleAvailabilityZone; } /** *

* Indicates that the fleet launches all Spot Instances into a single Availability Zone. *

*

* Supported only for fleets of type instant. *

* * @return Indicates that the fleet launches all Spot Instances into a single Availability Zone.

*

* Supported only for fleets of type instant. */ public Boolean getSingleAvailabilityZone() { return this.singleAvailabilityZone; } /** *

* Indicates that the fleet launches all Spot Instances into a single Availability Zone. *

*

* Supported only for fleets of type instant. *

* * @param singleAvailabilityZone * Indicates that the fleet launches all Spot Instances into a single Availability Zone.

*

* Supported only for fleets of type instant. * @return Returns a reference to this object so that method calls can be chained together. */ public SpotOptions withSingleAvailabilityZone(Boolean singleAvailabilityZone) { setSingleAvailabilityZone(singleAvailabilityZone); return this; } /** *

* Indicates that the fleet launches all Spot Instances into a single Availability Zone. *

*

* Supported only for fleets of type instant. *

* * @return Indicates that the fleet launches all Spot Instances into a single Availability Zone.

*

* Supported only for fleets of type instant. */ public Boolean isSingleAvailabilityZone() { return this.singleAvailabilityZone; } /** *

* The minimum target capacity for Spot Instances in the fleet. If this minimum capacity isn't reached, no instances * are launched. *

*

* Constraints: Maximum value of 1000. Supported only for fleets of type instant. *

*

* At least one of the following must be specified: SingleAvailabilityZone | * SingleInstanceType *

* * @param minTargetCapacity * The minimum target capacity for Spot Instances in the fleet. If this minimum capacity isn't reached, no * instances are launched.

*

* Constraints: Maximum value of 1000. Supported only for fleets of type instant. *

*

* At least one of the following must be specified: SingleAvailabilityZone | * SingleInstanceType */ public void setMinTargetCapacity(Integer minTargetCapacity) { this.minTargetCapacity = minTargetCapacity; } /** *

* The minimum target capacity for Spot Instances in the fleet. If this minimum capacity isn't reached, no instances * are launched. *

*

* Constraints: Maximum value of 1000. Supported only for fleets of type instant. *

*

* At least one of the following must be specified: SingleAvailabilityZone | * SingleInstanceType *

* * @return The minimum target capacity for Spot Instances in the fleet. If this minimum capacity isn't reached, no * instances are launched.

*

* Constraints: Maximum value of 1000. Supported only for fleets of type instant. *

*

* At least one of the following must be specified: SingleAvailabilityZone | * SingleInstanceType */ public Integer getMinTargetCapacity() { return this.minTargetCapacity; } /** *

* The minimum target capacity for Spot Instances in the fleet. If this minimum capacity isn't reached, no instances * are launched. *

*

* Constraints: Maximum value of 1000. Supported only for fleets of type instant. *

*

* At least one of the following must be specified: SingleAvailabilityZone | * SingleInstanceType *

* * @param minTargetCapacity * The minimum target capacity for Spot Instances in the fleet. If this minimum capacity isn't reached, no * instances are launched.

*

* Constraints: Maximum value of 1000. Supported only for fleets of type instant. *

*

* At least one of the following must be specified: SingleAvailabilityZone | * SingleInstanceType * @return Returns a reference to this object so that method calls can be chained together. */ public SpotOptions withMinTargetCapacity(Integer minTargetCapacity) { setMinTargetCapacity(minTargetCapacity); return this; } /** *

* The maximum amount per hour for Spot Instances that you're willing to pay. We do not recommend using this * parameter because it can lead to increased interruptions. If you do not specify this parameter, you will pay the * current Spot price. *

* *

* If you specify a maximum price, your Spot Instances will be interrupted more frequently than if you do not * specify this parameter. *

*
*

* If your fleet includes T instances that are configured as unlimited, and if their average CPU usage * exceeds the baseline utilization, you will incur a charge for surplus credits. The maxTotalPrice * does not account for surplus credits, and, if you use surplus credits, your final cost might be higher than what * you specified for maxTotalPrice. For more information, see Surplus credits can incur charges in the Amazon EC2 User Guide. *

*
* * @param maxTotalPrice * The maximum amount per hour for Spot Instances that you're willing to pay. We do not recommend using this * parameter because it can lead to increased interruptions. If you do not specify this parameter, you will * pay the current Spot price.

*

* If you specify a maximum price, your Spot Instances will be interrupted more frequently than if you do not * specify this parameter. *

*
*

* If your fleet includes T instances that are configured as unlimited, and if their average CPU * usage exceeds the baseline utilization, you will incur a charge for surplus credits. The * maxTotalPrice does not account for surplus credits, and, if you use surplus credits, your * final cost might be higher than what you specified for maxTotalPrice. For more information, * see Surplus credits can incur charges in the Amazon EC2 User Guide. *

*/ public void setMaxTotalPrice(String maxTotalPrice) { this.maxTotalPrice = maxTotalPrice; } /** *

* The maximum amount per hour for Spot Instances that you're willing to pay. We do not recommend using this * parameter because it can lead to increased interruptions. If you do not specify this parameter, you will pay the * current Spot price. *

* *

* If you specify a maximum price, your Spot Instances will be interrupted more frequently than if you do not * specify this parameter. *

*
*

* If your fleet includes T instances that are configured as unlimited, and if their average CPU usage * exceeds the baseline utilization, you will incur a charge for surplus credits. The maxTotalPrice * does not account for surplus credits, and, if you use surplus credits, your final cost might be higher than what * you specified for maxTotalPrice. For more information, see Surplus credits can incur charges in the Amazon EC2 User Guide. *

*
* * @return The maximum amount per hour for Spot Instances that you're willing to pay. We do not recommend using this * parameter because it can lead to increased interruptions. If you do not specify this parameter, you will * pay the current Spot price.

*

* If you specify a maximum price, your Spot Instances will be interrupted more frequently than if you do * not specify this parameter. *

*
*

* If your fleet includes T instances that are configured as unlimited, and if their average * CPU usage exceeds the baseline utilization, you will incur a charge for surplus credits. The * maxTotalPrice does not account for surplus credits, and, if you use surplus credits, your * final cost might be higher than what you specified for maxTotalPrice. For more information, * see Surplus credits can incur charges in the Amazon EC2 User Guide. *

*/ public String getMaxTotalPrice() { return this.maxTotalPrice; } /** *

* The maximum amount per hour for Spot Instances that you're willing to pay. We do not recommend using this * parameter because it can lead to increased interruptions. If you do not specify this parameter, you will pay the * current Spot price. *

* *

* If you specify a maximum price, your Spot Instances will be interrupted more frequently than if you do not * specify this parameter. *

*
*

* If your fleet includes T instances that are configured as unlimited, and if their average CPU usage * exceeds the baseline utilization, you will incur a charge for surplus credits. The maxTotalPrice * does not account for surplus credits, and, if you use surplus credits, your final cost might be higher than what * you specified for maxTotalPrice. For more information, see Surplus credits can incur charges in the Amazon EC2 User Guide. *

*
* * @param maxTotalPrice * The maximum amount per hour for Spot Instances that you're willing to pay. We do not recommend using this * parameter because it can lead to increased interruptions. If you do not specify this parameter, you will * pay the current Spot price.

*

* If you specify a maximum price, your Spot Instances will be interrupted more frequently than if you do not * specify this parameter. *

*
*

* If your fleet includes T instances that are configured as unlimited, and if their average CPU * usage exceeds the baseline utilization, you will incur a charge for surplus credits. The * maxTotalPrice does not account for surplus credits, and, if you use surplus credits, your * final cost might be higher than what you specified for maxTotalPrice. For more information, * see Surplus credits can incur charges in the Amazon EC2 User Guide. *

* @return Returns a reference to this object so that method calls can be chained together. */ public SpotOptions withMaxTotalPrice(String maxTotalPrice) { setMaxTotalPrice(maxTotalPrice); 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 (getAllocationStrategy() != null) sb.append("AllocationStrategy: ").append(getAllocationStrategy()).append(","); if (getMaintenanceStrategies() != null) sb.append("MaintenanceStrategies: ").append(getMaintenanceStrategies()).append(","); if (getInstanceInterruptionBehavior() != null) sb.append("InstanceInterruptionBehavior: ").append(getInstanceInterruptionBehavior()).append(","); if (getInstancePoolsToUseCount() != null) sb.append("InstancePoolsToUseCount: ").append(getInstancePoolsToUseCount()).append(","); if (getSingleInstanceType() != null) sb.append("SingleInstanceType: ").append(getSingleInstanceType()).append(","); if (getSingleAvailabilityZone() != null) sb.append("SingleAvailabilityZone: ").append(getSingleAvailabilityZone()).append(","); if (getMinTargetCapacity() != null) sb.append("MinTargetCapacity: ").append(getMinTargetCapacity()).append(","); if (getMaxTotalPrice() != null) sb.append("MaxTotalPrice: ").append(getMaxTotalPrice()); sb.append("}"); return sb.toString(); } @Override public boolean equals(Object obj) { if (this == obj) return true; if (obj == null) return false; if (obj instanceof SpotOptions == false) return false; SpotOptions other = (SpotOptions) obj; if (other.getAllocationStrategy() == null ^ this.getAllocationStrategy() == null) return false; if (other.getAllocationStrategy() != null && other.getAllocationStrategy().equals(this.getAllocationStrategy()) == false) return false; if (other.getMaintenanceStrategies() == null ^ this.getMaintenanceStrategies() == null) return false; if (other.getMaintenanceStrategies() != null && other.getMaintenanceStrategies().equals(this.getMaintenanceStrategies()) == false) return false; if (other.getInstanceInterruptionBehavior() == null ^ this.getInstanceInterruptionBehavior() == null) return false; if (other.getInstanceInterruptionBehavior() != null && other.getInstanceInterruptionBehavior().equals(this.getInstanceInterruptionBehavior()) == false) return false; if (other.getInstancePoolsToUseCount() == null ^ this.getInstancePoolsToUseCount() == null) return false; if (other.getInstancePoolsToUseCount() != null && other.getInstancePoolsToUseCount().equals(this.getInstancePoolsToUseCount()) == false) return false; if (other.getSingleInstanceType() == null ^ this.getSingleInstanceType() == null) return false; if (other.getSingleInstanceType() != null && other.getSingleInstanceType().equals(this.getSingleInstanceType()) == false) return false; if (other.getSingleAvailabilityZone() == null ^ this.getSingleAvailabilityZone() == null) return false; if (other.getSingleAvailabilityZone() != null && other.getSingleAvailabilityZone().equals(this.getSingleAvailabilityZone()) == false) return false; if (other.getMinTargetCapacity() == null ^ this.getMinTargetCapacity() == null) return false; if (other.getMinTargetCapacity() != null && other.getMinTargetCapacity().equals(this.getMinTargetCapacity()) == false) return false; if (other.getMaxTotalPrice() == null ^ this.getMaxTotalPrice() == null) return false; if (other.getMaxTotalPrice() != null && other.getMaxTotalPrice().equals(this.getMaxTotalPrice()) == false) return false; return true; } @Override public int hashCode() { final int prime = 31; int hashCode = 1; hashCode = prime * hashCode + ((getAllocationStrategy() == null) ? 0 : getAllocationStrategy().hashCode()); hashCode = prime * hashCode + ((getMaintenanceStrategies() == null) ? 0 : getMaintenanceStrategies().hashCode()); hashCode = prime * hashCode + ((getInstanceInterruptionBehavior() == null) ? 0 : getInstanceInterruptionBehavior().hashCode()); hashCode = prime * hashCode + ((getInstancePoolsToUseCount() == null) ? 0 : getInstancePoolsToUseCount().hashCode()); hashCode = prime * hashCode + ((getSingleInstanceType() == null) ? 0 : getSingleInstanceType().hashCode()); hashCode = prime * hashCode + ((getSingleAvailabilityZone() == null) ? 0 : getSingleAvailabilityZone().hashCode()); hashCode = prime * hashCode + ((getMinTargetCapacity() == null) ? 0 : getMinTargetCapacity().hashCode()); hashCode = prime * hashCode + ((getMaxTotalPrice() == null) ? 0 : getMaxTotalPrice().hashCode()); return hashCode; } @Override public SpotOptions clone() { try { return (SpotOptions) super.clone(); } catch (CloneNotSupportedException e) { throw new IllegalStateException("Got a CloneNotSupportedException from Object.clone() " + "even though we're Cloneable!", e); } } }




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