* Use this structure to specify the distribution of On-Demand Instances and Spot Instances and the allocation * strategies used to fulfill On-Demand and Spot capacities for a mixed instances policy. *
* * @see AWS * API Documentation */ @Generated("com.amazonaws:aws-java-sdk-code-generator") public class InstancesDistribution implements Serializable, Cloneable { /** ** The allocation strategy to apply to your On-Demand Instances when they are launched. Possible instance types are * determined by the launch template overrides that you specify. *
** The following lists the valid values: *
** Uses price to determine which instance types are the highest priority, launching the lowest priced instance types * within an Availability Zone first. This is the default value for Auto Scaling groups that specify * InstanceRequirements. *
** You set the order of instance types for the launch template overrides from highest to lowest priority (from first * to last in the list). Amazon EC2 Auto Scaling launches your highest priority instance types first. If all your * On-Demand capacity cannot be fulfilled using your highest priority instance type, then Amazon EC2 Auto Scaling * launches the remaining capacity using the second priority instance type, and so on. This is the default value for * Auto Scaling groups that don't specify InstanceRequirements and cannot be used for groups that do. *
** The minimum amount of the Auto Scaling group's capacity that must be fulfilled by On-Demand Instances. This base * portion is launched first as your group scales. *
** This number has the same unit of measurement as the group's desired capacity. If you change the default unit of * measurement (number of instances) by specifying weighted capacity values in your launch template overrides list, * or by changing the default desired capacity type setting of the group, you must specify this number using the * same unit of measurement. *
** Default: 0 *
*/ private Integer onDemandBaseCapacity; /** *
* Controls the percentages of On-Demand Instances and Spot Instances for your additional capacity beyond
* OnDemandBaseCapacity. Expressed as a number (for example, 20 specifies 20% On-Demand Instances, 80%
* Spot Instances). If set to 100, only On-Demand Instances are used.
*
* Default: 100 *
*/ private Integer onDemandPercentageAboveBaseCapacity; /** ** The allocation strategy to apply to your Spot Instances when they are launched. Possible instance types are * determined by the launch template overrides that you specify. *
** The following lists the valid values: *
*
* Requests Spot Instances using pools that are optimally chosen based on the available Spot capacity. This strategy
* has the lowest risk of interruption. To give certain instance types a higher chance of launching first, use
* capacity-optimized-prioritized.
*
* You set the order of instance types for the launch template overrides from highest to lowest priority (from first
* to last in the list). Amazon EC2 Auto Scaling honors the instance type priorities on a best effort basis but
* optimizes for capacity first. Note that if the On-Demand allocation strategy is set to prioritized,
* the same priority is applied when fulfilling On-Demand capacity. This is not a valid value for Auto Scaling
* groups that specify InstanceRequirements.
*
* Requests Spot Instances using the lowest priced pools within an Availability Zone, across the number of Spot
* pools that you specify for the SpotInstancePools property. To ensure that your desired capacity is
* met, you might receive Spot Instances from several pools. This is the default value, but it might lead to high
* interruption rates because this strategy only considers instance price and not available capacity.
*
* The price and capacity optimized allocation strategy looks at both price and capacity to select the Spot Instance * pools that are the least likely to be interrupted and have the lowest possible price. *
*
* The number of Spot Instance pools across which to allocate your Spot Instances. The Spot pools are determined
* from the different instance types in the overrides. Valid only when the SpotAllocationStrategy is
* lowest-price. Value must be in the range of 1–20.
*
* Default: 2 *
*/ private Integer spotInstancePools; /** ** The maximum price per unit hour that you are willing to pay for a Spot Instance. If your maximum price is lower * than the Spot price for the instance types that you selected, your Spot Instances are not launched. We do not * recommend specifying a maximum price because it can lead to increased interruptions. When Spot Instances launch, * you pay the current Spot price. To remove a maximum price that you previously set, include the property but * specify an empty string ("") for the value. *
** If you specify a maximum price, your instances will be interrupted more frequently than if you do not specify * one. *
** Valid Range: Minimum value of 0.001 *
*/ private String spotMaxPrice; /** ** The allocation strategy to apply to your On-Demand Instances when they are launched. Possible instance types are * determined by the launch template overrides that you specify. *
** The following lists the valid values: *
** Uses price to determine which instance types are the highest priority, launching the lowest priced instance types * within an Availability Zone first. This is the default value for Auto Scaling groups that specify * InstanceRequirements. *
** You set the order of instance types for the launch template overrides from highest to lowest priority (from first * to last in the list). Amazon EC2 Auto Scaling launches your highest priority instance types first. If all your * On-Demand capacity cannot be fulfilled using your highest priority instance type, then Amazon EC2 Auto Scaling * launches the remaining capacity using the second priority instance type, and so on. This is the default value for * Auto Scaling groups that don't specify InstanceRequirements and cannot be used for groups that do. *
** The following lists the valid values: *
** Uses price to determine which instance types are the highest priority, launching the lowest priced * instance types within an Availability Zone first. This is the default value for Auto Scaling groups that * specify InstanceRequirements. *
** You set the order of instance types for the launch template overrides from highest to lowest priority * (from first to last in the list). Amazon EC2 Auto Scaling launches your highest priority instance types * first. If all your On-Demand capacity cannot be fulfilled using your highest priority instance type, then * Amazon EC2 Auto Scaling launches the remaining capacity using the second priority instance type, and so * on. This is the default value for Auto Scaling groups that don't specify InstanceRequirements and * cannot be used for groups that do. *
** The allocation strategy to apply to your On-Demand Instances when they are launched. Possible instance types are * determined by the launch template overrides that you specify. *
** The following lists the valid values: *
** Uses price to determine which instance types are the highest priority, launching the lowest priced instance types * within an Availability Zone first. This is the default value for Auto Scaling groups that specify * InstanceRequirements. *
** You set the order of instance types for the launch template overrides from highest to lowest priority (from first * to last in the list). Amazon EC2 Auto Scaling launches your highest priority instance types first. If all your * On-Demand capacity cannot be fulfilled using your highest priority instance type, then Amazon EC2 Auto Scaling * launches the remaining capacity using the second priority instance type, and so on. This is the default value for * Auto Scaling groups that don't specify InstanceRequirements and cannot be used for groups that do. *
** The following lists the valid values: *
** Uses price to determine which instance types are the highest priority, launching the lowest priced * instance types within an Availability Zone first. This is the default value for Auto Scaling groups that * specify InstanceRequirements. *
** You set the order of instance types for the launch template overrides from highest to lowest priority * (from first to last in the list). Amazon EC2 Auto Scaling launches your highest priority instance types * first. If all your On-Demand capacity cannot be fulfilled using your highest priority instance type, then * Amazon EC2 Auto Scaling launches the remaining capacity using the second priority instance type, and so * on. This is the default value for Auto Scaling groups that don't specify InstanceRequirements and * cannot be used for groups that do. *
** The allocation strategy to apply to your On-Demand Instances when they are launched. Possible instance types are * determined by the launch template overrides that you specify. *
** The following lists the valid values: *
** Uses price to determine which instance types are the highest priority, launching the lowest priced instance types * within an Availability Zone first. This is the default value for Auto Scaling groups that specify * InstanceRequirements. *
** You set the order of instance types for the launch template overrides from highest to lowest priority (from first * to last in the list). Amazon EC2 Auto Scaling launches your highest priority instance types first. If all your * On-Demand capacity cannot be fulfilled using your highest priority instance type, then Amazon EC2 Auto Scaling * launches the remaining capacity using the second priority instance type, and so on. This is the default value for * Auto Scaling groups that don't specify InstanceRequirements and cannot be used for groups that do. *
** The following lists the valid values: *
** Uses price to determine which instance types are the highest priority, launching the lowest priced * instance types within an Availability Zone first. This is the default value for Auto Scaling groups that * specify InstanceRequirements. *
** You set the order of instance types for the launch template overrides from highest to lowest priority * (from first to last in the list). Amazon EC2 Auto Scaling launches your highest priority instance types * first. If all your On-Demand capacity cannot be fulfilled using your highest priority instance type, then * Amazon EC2 Auto Scaling launches the remaining capacity using the second priority instance type, and so * on. This is the default value for Auto Scaling groups that don't specify InstanceRequirements and * cannot be used for groups that do. *
** The minimum amount of the Auto Scaling group's capacity that must be fulfilled by On-Demand Instances. This base * portion is launched first as your group scales. *
** This number has the same unit of measurement as the group's desired capacity. If you change the default unit of * measurement (number of instances) by specifying weighted capacity values in your launch template overrides list, * or by changing the default desired capacity type setting of the group, you must specify this number using the * same unit of measurement. *
** Default: 0 *
* * @param onDemandBaseCapacity * The minimum amount of the Auto Scaling group's capacity that must be fulfilled by On-Demand Instances. * This base portion is launched first as your group scales. ** This number has the same unit of measurement as the group's desired capacity. If you change the default * unit of measurement (number of instances) by specifying weighted capacity values in your launch template * overrides list, or by changing the default desired capacity type setting of the group, you must specify * this number using the same unit of measurement. *
** Default: 0 */ public void setOnDemandBaseCapacity(Integer onDemandBaseCapacity) { this.onDemandBaseCapacity = onDemandBaseCapacity; } /** *
* The minimum amount of the Auto Scaling group's capacity that must be fulfilled by On-Demand Instances. This base * portion is launched first as your group scales. *
** This number has the same unit of measurement as the group's desired capacity. If you change the default unit of * measurement (number of instances) by specifying weighted capacity values in your launch template overrides list, * or by changing the default desired capacity type setting of the group, you must specify this number using the * same unit of measurement. *
** Default: 0 *
* * @return The minimum amount of the Auto Scaling group's capacity that must be fulfilled by On-Demand Instances. * This base portion is launched first as your group scales. ** This number has the same unit of measurement as the group's desired capacity. If you change the default * unit of measurement (number of instances) by specifying weighted capacity values in your launch template * overrides list, or by changing the default desired capacity type setting of the group, you must specify * this number using the same unit of measurement. *
** Default: 0 */ public Integer getOnDemandBaseCapacity() { return this.onDemandBaseCapacity; } /** *
* The minimum amount of the Auto Scaling group's capacity that must be fulfilled by On-Demand Instances. This base * portion is launched first as your group scales. *
** This number has the same unit of measurement as the group's desired capacity. If you change the default unit of * measurement (number of instances) by specifying weighted capacity values in your launch template overrides list, * or by changing the default desired capacity type setting of the group, you must specify this number using the * same unit of measurement. *
** Default: 0 *
* * @param onDemandBaseCapacity * The minimum amount of the Auto Scaling group's capacity that must be fulfilled by On-Demand Instances. * This base portion is launched first as your group scales. ** This number has the same unit of measurement as the group's desired capacity. If you change the default * unit of measurement (number of instances) by specifying weighted capacity values in your launch template * overrides list, or by changing the default desired capacity type setting of the group, you must specify * this number using the same unit of measurement. *
** Default: 0 * @return Returns a reference to this object so that method calls can be chained together. */ public InstancesDistribution withOnDemandBaseCapacity(Integer onDemandBaseCapacity) { setOnDemandBaseCapacity(onDemandBaseCapacity); return this; } /** *
* Controls the percentages of On-Demand Instances and Spot Instances for your additional capacity beyond
* OnDemandBaseCapacity. Expressed as a number (for example, 20 specifies 20% On-Demand Instances, 80%
* Spot Instances). If set to 100, only On-Demand Instances are used.
*
* Default: 100 *
* * @param onDemandPercentageAboveBaseCapacity * Controls the percentages of On-Demand Instances and Spot Instances for your additional capacity beyond *OnDemandBaseCapacity. Expressed as a number (for example, 20 specifies 20% On-Demand
* Instances, 80% Spot Instances). If set to 100, only On-Demand Instances are used.
* * Default: 100 */ public void setOnDemandPercentageAboveBaseCapacity(Integer onDemandPercentageAboveBaseCapacity) { this.onDemandPercentageAboveBaseCapacity = onDemandPercentageAboveBaseCapacity; } /** *
* Controls the percentages of On-Demand Instances and Spot Instances for your additional capacity beyond
* OnDemandBaseCapacity. Expressed as a number (for example, 20 specifies 20% On-Demand Instances, 80%
* Spot Instances). If set to 100, only On-Demand Instances are used.
*
* Default: 100 *
* * @return Controls the percentages of On-Demand Instances and Spot Instances for your additional capacity beyond *OnDemandBaseCapacity. Expressed as a number (for example, 20 specifies 20% On-Demand
* Instances, 80% Spot Instances). If set to 100, only On-Demand Instances are used.
* * Default: 100 */ public Integer getOnDemandPercentageAboveBaseCapacity() { return this.onDemandPercentageAboveBaseCapacity; } /** *
* Controls the percentages of On-Demand Instances and Spot Instances for your additional capacity beyond
* OnDemandBaseCapacity. Expressed as a number (for example, 20 specifies 20% On-Demand Instances, 80%
* Spot Instances). If set to 100, only On-Demand Instances are used.
*
* Default: 100 *
* * @param onDemandPercentageAboveBaseCapacity * Controls the percentages of On-Demand Instances and Spot Instances for your additional capacity beyond *OnDemandBaseCapacity. Expressed as a number (for example, 20 specifies 20% On-Demand
* Instances, 80% Spot Instances). If set to 100, only On-Demand Instances are used.
* * Default: 100 * @return Returns a reference to this object so that method calls can be chained together. */ public InstancesDistribution withOnDemandPercentageAboveBaseCapacity(Integer onDemandPercentageAboveBaseCapacity) { setOnDemandPercentageAboveBaseCapacity(onDemandPercentageAboveBaseCapacity); return this; } /** *
* The allocation strategy to apply to your Spot Instances when they are launched. Possible instance types are * determined by the launch template overrides that you specify. *
** The following lists the valid values: *
*
* Requests Spot Instances using pools that are optimally chosen based on the available Spot capacity. This strategy
* has the lowest risk of interruption. To give certain instance types a higher chance of launching first, use
* capacity-optimized-prioritized.
*
* You set the order of instance types for the launch template overrides from highest to lowest priority (from first
* to last in the list). Amazon EC2 Auto Scaling honors the instance type priorities on a best effort basis but
* optimizes for capacity first. Note that if the On-Demand allocation strategy is set to prioritized,
* the same priority is applied when fulfilling On-Demand capacity. This is not a valid value for Auto Scaling
* groups that specify InstanceRequirements.
*
* Requests Spot Instances using the lowest priced pools within an Availability Zone, across the number of Spot
* pools that you specify for the SpotInstancePools property. To ensure that your desired capacity is
* met, you might receive Spot Instances from several pools. This is the default value, but it might lead to high
* interruption rates because this strategy only considers instance price and not available capacity.
*
* The price and capacity optimized allocation strategy looks at both price and capacity to select the Spot Instance * pools that are the least likely to be interrupted and have the lowest possible price. *
** The following lists the valid values: *
*
* Requests Spot Instances using pools that are optimally chosen based on the available Spot capacity. This
* strategy has the lowest risk of interruption. To give certain instance types a higher chance of launching
* first, use capacity-optimized-prioritized.
*
* You set the order of instance types for the launch template overrides from highest to lowest priority
* (from first to last in the list). Amazon EC2 Auto Scaling honors the instance type priorities on a best
* effort basis but optimizes for capacity first. Note that if the On-Demand allocation strategy is set to
* prioritized, the same priority is applied when fulfilling On-Demand capacity. This is not a
* valid value for Auto Scaling groups that specify InstanceRequirements.
*
* Requests Spot Instances using the lowest priced pools within an Availability Zone, across the number of
* Spot pools that you specify for the SpotInstancePools property. To ensure that your desired
* capacity is met, you might receive Spot Instances from several pools. This is the default value, but it
* might lead to high interruption rates because this strategy only considers instance price and not
* available capacity.
*
* The price and capacity optimized allocation strategy looks at both price and capacity to select the Spot * Instance pools that are the least likely to be interrupted and have the lowest possible price. *
** The allocation strategy to apply to your Spot Instances when they are launched. Possible instance types are * determined by the launch template overrides that you specify. *
** The following lists the valid values: *
*
* Requests Spot Instances using pools that are optimally chosen based on the available Spot capacity. This strategy
* has the lowest risk of interruption. To give certain instance types a higher chance of launching first, use
* capacity-optimized-prioritized.
*
* You set the order of instance types for the launch template overrides from highest to lowest priority (from first
* to last in the list). Amazon EC2 Auto Scaling honors the instance type priorities on a best effort basis but
* optimizes for capacity first. Note that if the On-Demand allocation strategy is set to prioritized,
* the same priority is applied when fulfilling On-Demand capacity. This is not a valid value for Auto Scaling
* groups that specify InstanceRequirements.
*
* Requests Spot Instances using the lowest priced pools within an Availability Zone, across the number of Spot
* pools that you specify for the SpotInstancePools property. To ensure that your desired capacity is
* met, you might receive Spot Instances from several pools. This is the default value, but it might lead to high
* interruption rates because this strategy only considers instance price and not available capacity.
*
* The price and capacity optimized allocation strategy looks at both price and capacity to select the Spot Instance * pools that are the least likely to be interrupted and have the lowest possible price. *
** The following lists the valid values: *
*
* Requests Spot Instances using pools that are optimally chosen based on the available Spot capacity. This
* strategy has the lowest risk of interruption. To give certain instance types a higher chance of launching
* first, use capacity-optimized-prioritized.
*
* You set the order of instance types for the launch template overrides from highest to lowest priority
* (from first to last in the list). Amazon EC2 Auto Scaling honors the instance type priorities on a best
* effort basis but optimizes for capacity first. Note that if the On-Demand allocation strategy is set to
* prioritized, the same priority is applied when fulfilling On-Demand capacity. This is not a
* valid value for Auto Scaling groups that specify InstanceRequirements.
*
* Requests Spot Instances using the lowest priced pools within an Availability Zone, across the number of
* Spot pools that you specify for the SpotInstancePools property. To ensure that your desired
* capacity is met, you might receive Spot Instances from several pools. This is the default value, but it
* might lead to high interruption rates because this strategy only considers instance price and not
* available capacity.
*
* The price and capacity optimized allocation strategy looks at both price and capacity to select the Spot * Instance pools that are the least likely to be interrupted and have the lowest possible price. *
** The allocation strategy to apply to your Spot Instances when they are launched. Possible instance types are * determined by the launch template overrides that you specify. *
** The following lists the valid values: *
*
* Requests Spot Instances using pools that are optimally chosen based on the available Spot capacity. This strategy
* has the lowest risk of interruption. To give certain instance types a higher chance of launching first, use
* capacity-optimized-prioritized.
*
* You set the order of instance types for the launch template overrides from highest to lowest priority (from first
* to last in the list). Amazon EC2 Auto Scaling honors the instance type priorities on a best effort basis but
* optimizes for capacity first. Note that if the On-Demand allocation strategy is set to prioritized,
* the same priority is applied when fulfilling On-Demand capacity. This is not a valid value for Auto Scaling
* groups that specify InstanceRequirements.
*
* Requests Spot Instances using the lowest priced pools within an Availability Zone, across the number of Spot
* pools that you specify for the SpotInstancePools property. To ensure that your desired capacity is
* met, you might receive Spot Instances from several pools. This is the default value, but it might lead to high
* interruption rates because this strategy only considers instance price and not available capacity.
*
* The price and capacity optimized allocation strategy looks at both price and capacity to select the Spot Instance * pools that are the least likely to be interrupted and have the lowest possible price. *
** The following lists the valid values: *
*
* Requests Spot Instances using pools that are optimally chosen based on the available Spot capacity. This
* strategy has the lowest risk of interruption. To give certain instance types a higher chance of launching
* first, use capacity-optimized-prioritized.
*
* You set the order of instance types for the launch template overrides from highest to lowest priority
* (from first to last in the list). Amazon EC2 Auto Scaling honors the instance type priorities on a best
* effort basis but optimizes for capacity first. Note that if the On-Demand allocation strategy is set to
* prioritized, the same priority is applied when fulfilling On-Demand capacity. This is not a
* valid value for Auto Scaling groups that specify InstanceRequirements.
*
* Requests Spot Instances using the lowest priced pools within an Availability Zone, across the number of
* Spot pools that you specify for the SpotInstancePools property. To ensure that your desired
* capacity is met, you might receive Spot Instances from several pools. This is the default value, but it
* might lead to high interruption rates because this strategy only considers instance price and not
* available capacity.
*
* The price and capacity optimized allocation strategy looks at both price and capacity to select the Spot * Instance pools that are the least likely to be interrupted and have the lowest possible price. *
*
* The number of Spot Instance pools across which to allocate your Spot Instances. The Spot pools are determined
* from the different instance types in the overrides. Valid only when the SpotAllocationStrategy is
* lowest-price. Value must be in the range of 1–20.
*
* Default: 2 *
* * @param spotInstancePools * The number of Spot Instance pools across which to allocate your Spot Instances. The Spot pools are * determined from the different instance types in the overrides. Valid only when the *SpotAllocationStrategy is lowest-price. Value must be in the range of 1–20.
* * Default: 2 */ public void setSpotInstancePools(Integer spotInstancePools) { this.spotInstancePools = spotInstancePools; } /** *
* The number of Spot Instance pools across which to allocate your Spot Instances. The Spot pools are determined
* from the different instance types in the overrides. Valid only when the SpotAllocationStrategy is
* lowest-price. Value must be in the range of 1–20.
*
* Default: 2 *
* * @return The number of Spot Instance pools across which to allocate your Spot Instances. The Spot pools are * determined from the different instance types in the overrides. Valid only when the *SpotAllocationStrategy is lowest-price. Value must be in the range of 1–20.
* * Default: 2 */ public Integer getSpotInstancePools() { return this.spotInstancePools; } /** *
* The number of Spot Instance pools across which to allocate your Spot Instances. The Spot pools are determined
* from the different instance types in the overrides. Valid only when the SpotAllocationStrategy is
* lowest-price. Value must be in the range of 1–20.
*
* Default: 2 *
* * @param spotInstancePools * The number of Spot Instance pools across which to allocate your Spot Instances. The Spot pools are * determined from the different instance types in the overrides. Valid only when the *SpotAllocationStrategy is lowest-price. Value must be in the range of 1–20.
* * Default: 2 * @return Returns a reference to this object so that method calls can be chained together. */ public InstancesDistribution withSpotInstancePools(Integer spotInstancePools) { setSpotInstancePools(spotInstancePools); return this; } /** *
* The maximum price per unit hour that you are willing to pay for a Spot Instance. If your maximum price is lower * than the Spot price for the instance types that you selected, your Spot Instances are not launched. We do not * recommend specifying a maximum price because it can lead to increased interruptions. When Spot Instances launch, * you pay the current Spot price. To remove a maximum price that you previously set, include the property but * specify an empty string ("") for the value. *
** If you specify a maximum price, your instances will be interrupted more frequently than if you do not specify * one. *
** Valid Range: Minimum value of 0.001 *
* * @param spotMaxPrice * The maximum price per unit hour that you are willing to pay for a Spot Instance. If your maximum price is * lower than the Spot price for the instance types that you selected, your Spot Instances are not launched. * We do not recommend specifying a maximum price because it can lead to increased interruptions. When Spot * Instances launch, you pay the current Spot price. To remove a maximum price that you previously set, * include the property but specify an empty string ("") for the value.* If you specify a maximum price, your instances will be interrupted more frequently than if you do not * specify one. *
** Valid Range: Minimum value of 0.001 */ public void setSpotMaxPrice(String spotMaxPrice) { this.spotMaxPrice = spotMaxPrice; } /** *
* The maximum price per unit hour that you are willing to pay for a Spot Instance. If your maximum price is lower * than the Spot price for the instance types that you selected, your Spot Instances are not launched. We do not * recommend specifying a maximum price because it can lead to increased interruptions. When Spot Instances launch, * you pay the current Spot price. To remove a maximum price that you previously set, include the property but * specify an empty string ("") for the value. *
** If you specify a maximum price, your instances will be interrupted more frequently than if you do not specify * one. *
** Valid Range: Minimum value of 0.001 *
* * @return The maximum price per unit hour that you are willing to pay for a Spot Instance. If your maximum price is * lower than the Spot price for the instance types that you selected, your Spot Instances are not launched. * We do not recommend specifying a maximum price because it can lead to increased interruptions. When Spot * Instances launch, you pay the current Spot price. To remove a maximum price that you previously set, * include the property but specify an empty string ("") for the value.* If you specify a maximum price, your instances will be interrupted more frequently than if you do not * specify one. *
** Valid Range: Minimum value of 0.001 */ public String getSpotMaxPrice() { return this.spotMaxPrice; } /** *
* The maximum price per unit hour that you are willing to pay for a Spot Instance. If your maximum price is lower * than the Spot price for the instance types that you selected, your Spot Instances are not launched. We do not * recommend specifying a maximum price because it can lead to increased interruptions. When Spot Instances launch, * you pay the current Spot price. To remove a maximum price that you previously set, include the property but * specify an empty string ("") for the value. *
** If you specify a maximum price, your instances will be interrupted more frequently than if you do not specify * one. *
** Valid Range: Minimum value of 0.001 *
* * @param spotMaxPrice * The maximum price per unit hour that you are willing to pay for a Spot Instance. If your maximum price is * lower than the Spot price for the instance types that you selected, your Spot Instances are not launched. * We do not recommend specifying a maximum price because it can lead to increased interruptions. When Spot * Instances launch, you pay the current Spot price. To remove a maximum price that you previously set, * include the property but specify an empty string ("") for the value.* If you specify a maximum price, your instances will be interrupted more frequently than if you do not * specify one. *
** Valid Range: Minimum value of 0.001 * @return Returns a reference to this object so that method calls can be chained together. */ public InstancesDistribution withSpotMaxPrice(String spotMaxPrice) { setSpotMaxPrice(spotMaxPrice); 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 (getOnDemandAllocationStrategy() != null) sb.append("OnDemandAllocationStrategy: ").append(getOnDemandAllocationStrategy()).append(","); if (getOnDemandBaseCapacity() != null) sb.append("OnDemandBaseCapacity: ").append(getOnDemandBaseCapacity()).append(","); if (getOnDemandPercentageAboveBaseCapacity() != null) sb.append("OnDemandPercentageAboveBaseCapacity: ").append(getOnDemandPercentageAboveBaseCapacity()).append(","); if (getSpotAllocationStrategy() != null) sb.append("SpotAllocationStrategy: ").append(getSpotAllocationStrategy()).append(","); if (getSpotInstancePools() != null) sb.append("SpotInstancePools: ").append(getSpotInstancePools()).append(","); if (getSpotMaxPrice() != null) sb.append("SpotMaxPrice: ").append(getSpotMaxPrice()); sb.append("}"); return sb.toString(); } @Override public boolean equals(Object obj) { if (this == obj) return true; if (obj == null) return false; if (obj instanceof InstancesDistribution == false) return false; InstancesDistribution other = (InstancesDistribution) obj; if (other.getOnDemandAllocationStrategy() == null ^ this.getOnDemandAllocationStrategy() == null) return false; if (other.getOnDemandAllocationStrategy() != null && other.getOnDemandAllocationStrategy().equals(this.getOnDemandAllocationStrategy()) == false) return false; if (other.getOnDemandBaseCapacity() == null ^ this.getOnDemandBaseCapacity() == null) return false; if (other.getOnDemandBaseCapacity() != null && other.getOnDemandBaseCapacity().equals(this.getOnDemandBaseCapacity()) == false) return false; if (other.getOnDemandPercentageAboveBaseCapacity() == null ^ this.getOnDemandPercentageAboveBaseCapacity() == null) return false; if (other.getOnDemandPercentageAboveBaseCapacity() != null && other.getOnDemandPercentageAboveBaseCapacity().equals(this.getOnDemandPercentageAboveBaseCapacity()) == false) return false; if (other.getSpotAllocationStrategy() == null ^ this.getSpotAllocationStrategy() == null) return false; if (other.getSpotAllocationStrategy() != null && other.getSpotAllocationStrategy().equals(this.getSpotAllocationStrategy()) == false) return false; if (other.getSpotInstancePools() == null ^ this.getSpotInstancePools() == null) return false; if (other.getSpotInstancePools() != null && other.getSpotInstancePools().equals(this.getSpotInstancePools()) == false) return false; if (other.getSpotMaxPrice() == null ^ this.getSpotMaxPrice() == null) return false; if (other.getSpotMaxPrice() != null && other.getSpotMaxPrice().equals(this.getSpotMaxPrice()) == false) return false; return true; } @Override public int hashCode() { final int prime = 31; int hashCode = 1; hashCode = prime * hashCode + ((getOnDemandAllocationStrategy() == null) ? 0 : getOnDemandAllocationStrategy().hashCode()); hashCode = prime * hashCode + ((getOnDemandBaseCapacity() == null) ? 0 : getOnDemandBaseCapacity().hashCode()); hashCode = prime * hashCode + ((getOnDemandPercentageAboveBaseCapacity() == null) ? 0 : getOnDemandPercentageAboveBaseCapacity().hashCode()); hashCode = prime * hashCode + ((getSpotAllocationStrategy() == null) ? 0 : getSpotAllocationStrategy().hashCode()); hashCode = prime * hashCode + ((getSpotInstancePools() == null) ? 0 : getSpotInstancePools().hashCode()); hashCode = prime * hashCode + ((getSpotMaxPrice() == null) ? 0 : getSpotMaxPrice().hashCode()); return hashCode; } @Override public InstancesDistribution clone() { try { return (InstancesDistribution) super.clone(); } catch (CloneNotSupportedException e) { throw new IllegalStateException("Got a CloneNotSupportedException from Object.clone() " + "even though we're Cloneable!", e); } } }