* Contains the parameters for UpdateComputeEnvironment.
*
* The name or full Amazon Resource Name (ARN) of the compute environment to update. *
*/ private String computeEnvironment; /** *
* The state of the compute environment. Compute environments in the ENABLED state can accept jobs from
* a queue and scale in or out automatically based on the workload demand of its associated queues.
*
* If the state is ENABLED, then the Batch scheduler can attempt to place jobs from an associated job
* queue on the compute resources within the environment. If the compute environment is managed, then it can scale
* its instances out or in automatically, based on the job queue demand.
*
* If the state is DISABLED, then the Batch scheduler doesn't attempt to place jobs within the
* environment. Jobs in a STARTING or RUNNING state continue to progress normally. Managed
* compute environments in the DISABLED state don't scale out.
*
* Compute environments in a DISABLED state may continue to incur billing charges. To prevent
* additional charges, turn off and then delete the compute environment. For more information, see State in the Batch User Guide.
*
* When an instance is idle, the instance scales down to the minvCpus value. However, the instance size
* doesn't change. For example, consider a c5.8xlarge instance with a minvCpus value of
* 4 and a desiredvCpus value of 36. This instance doesn't scale down to a
* c5.large instance.
*
* The maximum number of vCPUs expected to be used for an unmanaged compute environment. Don't specify this * parameter for a managed compute environment. This parameter is only used for fair share scheduling to reserve * vCPU capacity for new share identifiers. If this parameter isn't provided for a fair share job queue, no vCPU * capacity is reserved. *
*/ private Integer unmanagedvCpus; /** ** Details of the compute resources managed by the compute environment. Required for a managed compute environment. * For more information, see Compute Environments in * the Batch User Guide. *
*/ private ComputeResourceUpdate computeResources; /** ** The full Amazon Resource Name (ARN) of the IAM role that allows Batch to make calls to other Amazon Web Services * services on your behalf. For more information, see Batch service IAM role in the * Batch User Guide. *
** If the compute environment has a service-linked role, it can't be changed to use a regular IAM role. Likewise, if * the compute environment has a regular IAM role, it can't be changed to use a service-linked role. To update the * parameters for the compute environment that require an infrastructure update to change, the * AWSServiceRoleForBatch service-linked role must be used. For more information, see Updating compute * environments in the Batch User Guide. *
*
* If your specified role has a path other than /, then you must either specify the full role ARN
* (recommended) or prefix the role name with the path.
*
* Depending on how you created your Batch service role, its ARN might contain the service-role path
* prefix. When you only specify the name of the service role, Batch assumes that your ARN doesn't use the
* service-role path prefix. Because of this, we recommend that you specify the full ARN of your
* service role when you create compute environments.
*
* Specifies the updated infrastructure update policy for the compute environment. For more information about * infrastructure updates, see Updating compute * environments in the Batch User Guide. *
*/ private UpdatePolicy updatePolicy; /** ** The name or full Amazon Resource Name (ARN) of the compute environment to update. *
* * @param computeEnvironment * The name or full Amazon Resource Name (ARN) of the compute environment to update. */ public void setComputeEnvironment(String computeEnvironment) { this.computeEnvironment = computeEnvironment; } /** ** The name or full Amazon Resource Name (ARN) of the compute environment to update. *
* * @return The name or full Amazon Resource Name (ARN) of the compute environment to update. */ public String getComputeEnvironment() { return this.computeEnvironment; } /** ** The name or full Amazon Resource Name (ARN) of the compute environment to update. *
* * @param computeEnvironment * The name or full Amazon Resource Name (ARN) of the compute environment to update. * @return Returns a reference to this object so that method calls can be chained together. */ public UpdateComputeEnvironmentRequest withComputeEnvironment(String computeEnvironment) { setComputeEnvironment(computeEnvironment); return this; } /** *
* The state of the compute environment. Compute environments in the ENABLED state can accept jobs from
* a queue and scale in or out automatically based on the workload demand of its associated queues.
*
* If the state is ENABLED, then the Batch scheduler can attempt to place jobs from an associated job
* queue on the compute resources within the environment. If the compute environment is managed, then it can scale
* its instances out or in automatically, based on the job queue demand.
*
* If the state is DISABLED, then the Batch scheduler doesn't attempt to place jobs within the
* environment. Jobs in a STARTING or RUNNING state continue to progress normally. Managed
* compute environments in the DISABLED state don't scale out.
*
* Compute environments in a DISABLED state may continue to incur billing charges. To prevent
* additional charges, turn off and then delete the compute environment. For more information, see State in the Batch User Guide.
*
* When an instance is idle, the instance scales down to the minvCpus value. However, the instance size
* doesn't change. For example, consider a c5.8xlarge instance with a minvCpus value of
* 4 and a desiredvCpus value of 36. This instance doesn't scale down to a
* c5.large instance.
*
ENABLED state can accept
* jobs from a queue and scale in or out automatically based on the workload demand of its associated
* queues.
*
* If the state is ENABLED, then the Batch scheduler can attempt to place jobs from an
* associated job queue on the compute resources within the environment. If the compute environment is
* managed, then it can scale its instances out or in automatically, based on the job queue demand.
*
* If the state is DISABLED, then the Batch scheduler doesn't attempt to place jobs within the
* environment. Jobs in a STARTING or RUNNING state continue to progress normally.
* Managed compute environments in the DISABLED state don't scale out.
*
* Compute environments in a DISABLED state may continue to incur billing charges. To prevent
* additional charges, turn off and then delete the compute environment. For more information, see State in the Batch User Guide.
*
* When an instance is idle, the instance scales down to the minvCpus value. However, the
* instance size doesn't change. For example, consider a c5.8xlarge instance with a
* minvCpus value of 4 and a desiredvCpus value of 36.
* This instance doesn't scale down to a c5.large instance.
* @see CEState
*/
public void setState(String state) {
this.state = state;
}
/**
*
* The state of the compute environment. Compute environments in the ENABLED state can accept jobs from
* a queue and scale in or out automatically based on the workload demand of its associated queues.
*
* If the state is ENABLED, then the Batch scheduler can attempt to place jobs from an associated job
* queue on the compute resources within the environment. If the compute environment is managed, then it can scale
* its instances out or in automatically, based on the job queue demand.
*
* If the state is DISABLED, then the Batch scheduler doesn't attempt to place jobs within the
* environment. Jobs in a STARTING or RUNNING state continue to progress normally. Managed
* compute environments in the DISABLED state don't scale out.
*
* Compute environments in a DISABLED state may continue to incur billing charges. To prevent
* additional charges, turn off and then delete the compute environment. For more information, see State in the Batch User Guide.
*
* When an instance is idle, the instance scales down to the minvCpus value. However, the instance size
* doesn't change. For example, consider a c5.8xlarge instance with a minvCpus value of
* 4 and a desiredvCpus value of 36. This instance doesn't scale down to a
* c5.large instance.
*
ENABLED state can accept
* jobs from a queue and scale in or out automatically based on the workload demand of its associated
* queues.
*
* If the state is ENABLED, then the Batch scheduler can attempt to place jobs from an
* associated job queue on the compute resources within the environment. If the compute environment is
* managed, then it can scale its instances out or in automatically, based on the job queue demand.
*
* If the state is DISABLED, then the Batch scheduler doesn't attempt to place jobs within the
* environment. Jobs in a STARTING or RUNNING state continue to progress normally.
* Managed compute environments in the DISABLED state don't scale out.
*
* Compute environments in a DISABLED state may continue to incur billing charges. To prevent
* additional charges, turn off and then delete the compute environment. For more information, see State in the Batch User Guide.
*
* When an instance is idle, the instance scales down to the minvCpus value. However, the
* instance size doesn't change. For example, consider a c5.8xlarge instance with a
* minvCpus value of 4 and a desiredvCpus value of 36.
* This instance doesn't scale down to a c5.large instance.
* @see CEState
*/
public String getState() {
return this.state;
}
/**
*
* The state of the compute environment. Compute environments in the ENABLED state can accept jobs from
* a queue and scale in or out automatically based on the workload demand of its associated queues.
*
* If the state is ENABLED, then the Batch scheduler can attempt to place jobs from an associated job
* queue on the compute resources within the environment. If the compute environment is managed, then it can scale
* its instances out or in automatically, based on the job queue demand.
*
* If the state is DISABLED, then the Batch scheduler doesn't attempt to place jobs within the
* environment. Jobs in a STARTING or RUNNING state continue to progress normally. Managed
* compute environments in the DISABLED state don't scale out.
*
* Compute environments in a DISABLED state may continue to incur billing charges. To prevent
* additional charges, turn off and then delete the compute environment. For more information, see State in the Batch User Guide.
*
* When an instance is idle, the instance scales down to the minvCpus value. However, the instance size
* doesn't change. For example, consider a c5.8xlarge instance with a minvCpus value of
* 4 and a desiredvCpus value of 36. This instance doesn't scale down to a
* c5.large instance.
*
ENABLED state can accept
* jobs from a queue and scale in or out automatically based on the workload demand of its associated
* queues.
*
* If the state is ENABLED, then the Batch scheduler can attempt to place jobs from an
* associated job queue on the compute resources within the environment. If the compute environment is
* managed, then it can scale its instances out or in automatically, based on the job queue demand.
*
* If the state is DISABLED, then the Batch scheduler doesn't attempt to place jobs within the
* environment. Jobs in a STARTING or RUNNING state continue to progress normally.
* Managed compute environments in the DISABLED state don't scale out.
*
* Compute environments in a DISABLED state may continue to incur billing charges. To prevent
* additional charges, turn off and then delete the compute environment. For more information, see State in the Batch User Guide.
*
* When an instance is idle, the instance scales down to the minvCpus value. However, the
* instance size doesn't change. For example, consider a c5.8xlarge instance with a
* minvCpus value of 4 and a desiredvCpus value of 36.
* This instance doesn't scale down to a c5.large instance.
* @return Returns a reference to this object so that method calls can be chained together.
* @see CEState
*/
public UpdateComputeEnvironmentRequest withState(String state) {
setState(state);
return this;
}
/**
*
* The state of the compute environment. Compute environments in the ENABLED state can accept jobs from
* a queue and scale in or out automatically based on the workload demand of its associated queues.
*
* If the state is ENABLED, then the Batch scheduler can attempt to place jobs from an associated job
* queue on the compute resources within the environment. If the compute environment is managed, then it can scale
* its instances out or in automatically, based on the job queue demand.
*
* If the state is DISABLED, then the Batch scheduler doesn't attempt to place jobs within the
* environment. Jobs in a STARTING or RUNNING state continue to progress normally. Managed
* compute environments in the DISABLED state don't scale out.
*
* Compute environments in a DISABLED state may continue to incur billing charges. To prevent
* additional charges, turn off and then delete the compute environment. For more information, see State in the Batch User Guide.
*
* When an instance is idle, the instance scales down to the minvCpus value. However, the instance size
* doesn't change. For example, consider a c5.8xlarge instance with a minvCpus value of
* 4 and a desiredvCpus value of 36. This instance doesn't scale down to a
* c5.large instance.
*
ENABLED state can accept
* jobs from a queue and scale in or out automatically based on the workload demand of its associated
* queues.
*
* If the state is ENABLED, then the Batch scheduler can attempt to place jobs from an
* associated job queue on the compute resources within the environment. If the compute environment is
* managed, then it can scale its instances out or in automatically, based on the job queue demand.
*
* If the state is DISABLED, then the Batch scheduler doesn't attempt to place jobs within the
* environment. Jobs in a STARTING or RUNNING state continue to progress normally.
* Managed compute environments in the DISABLED state don't scale out.
*
* Compute environments in a DISABLED state may continue to incur billing charges. To prevent
* additional charges, turn off and then delete the compute environment. For more information, see State in the Batch User Guide.
*
* When an instance is idle, the instance scales down to the minvCpus value. However, the
* instance size doesn't change. For example, consider a c5.8xlarge instance with a
* minvCpus value of 4 and a desiredvCpus value of 36.
* This instance doesn't scale down to a c5.large instance.
* @see CEState
*/
public void setState(CEState state) {
withState(state);
}
/**
*
* The state of the compute environment. Compute environments in the ENABLED state can accept jobs from
* a queue and scale in or out automatically based on the workload demand of its associated queues.
*
* If the state is ENABLED, then the Batch scheduler can attempt to place jobs from an associated job
* queue on the compute resources within the environment. If the compute environment is managed, then it can scale
* its instances out or in automatically, based on the job queue demand.
*
* If the state is DISABLED, then the Batch scheduler doesn't attempt to place jobs within the
* environment. Jobs in a STARTING or RUNNING state continue to progress normally. Managed
* compute environments in the DISABLED state don't scale out.
*
* Compute environments in a DISABLED state may continue to incur billing charges. To prevent
* additional charges, turn off and then delete the compute environment. For more information, see State in the Batch User Guide.
*
* When an instance is idle, the instance scales down to the minvCpus value. However, the instance size
* doesn't change. For example, consider a c5.8xlarge instance with a minvCpus value of
* 4 and a desiredvCpus value of 36. This instance doesn't scale down to a
* c5.large instance.
*
ENABLED state can accept
* jobs from a queue and scale in or out automatically based on the workload demand of its associated
* queues.
*
* If the state is ENABLED, then the Batch scheduler can attempt to place jobs from an
* associated job queue on the compute resources within the environment. If the compute environment is
* managed, then it can scale its instances out or in automatically, based on the job queue demand.
*
* If the state is DISABLED, then the Batch scheduler doesn't attempt to place jobs within the
* environment. Jobs in a STARTING or RUNNING state continue to progress normally.
* Managed compute environments in the DISABLED state don't scale out.
*
* Compute environments in a DISABLED state may continue to incur billing charges. To prevent
* additional charges, turn off and then delete the compute environment. For more information, see State in the Batch User Guide.
*
* When an instance is idle, the instance scales down to the minvCpus value. However, the
* instance size doesn't change. For example, consider a c5.8xlarge instance with a
* minvCpus value of 4 and a desiredvCpus value of 36.
* This instance doesn't scale down to a c5.large instance.
* @return Returns a reference to this object so that method calls can be chained together.
* @see CEState
*/
public UpdateComputeEnvironmentRequest withState(CEState state) {
this.state = state.toString();
return this;
}
/**
*
* The maximum number of vCPUs expected to be used for an unmanaged compute environment. Don't specify this * parameter for a managed compute environment. This parameter is only used for fair share scheduling to reserve * vCPU capacity for new share identifiers. If this parameter isn't provided for a fair share job queue, no vCPU * capacity is reserved. *
* * @param unmanagedvCpus * The maximum number of vCPUs expected to be used for an unmanaged compute environment. Don't specify this * parameter for a managed compute environment. This parameter is only used for fair share scheduling to * reserve vCPU capacity for new share identifiers. If this parameter isn't provided for a fair share job * queue, no vCPU capacity is reserved. */ public void setUnmanagedvCpus(Integer unmanagedvCpus) { this.unmanagedvCpus = unmanagedvCpus; } /** ** The maximum number of vCPUs expected to be used for an unmanaged compute environment. Don't specify this * parameter for a managed compute environment. This parameter is only used for fair share scheduling to reserve * vCPU capacity for new share identifiers. If this parameter isn't provided for a fair share job queue, no vCPU * capacity is reserved. *
* * @return The maximum number of vCPUs expected to be used for an unmanaged compute environment. Don't specify this * parameter for a managed compute environment. This parameter is only used for fair share scheduling to * reserve vCPU capacity for new share identifiers. If this parameter isn't provided for a fair share job * queue, no vCPU capacity is reserved. */ public Integer getUnmanagedvCpus() { return this.unmanagedvCpus; } /** ** The maximum number of vCPUs expected to be used for an unmanaged compute environment. Don't specify this * parameter for a managed compute environment. This parameter is only used for fair share scheduling to reserve * vCPU capacity for new share identifiers. If this parameter isn't provided for a fair share job queue, no vCPU * capacity is reserved. *
* * @param unmanagedvCpus * The maximum number of vCPUs expected to be used for an unmanaged compute environment. Don't specify this * parameter for a managed compute environment. This parameter is only used for fair share scheduling to * reserve vCPU capacity for new share identifiers. If this parameter isn't provided for a fair share job * queue, no vCPU capacity is reserved. * @return Returns a reference to this object so that method calls can be chained together. */ public UpdateComputeEnvironmentRequest withUnmanagedvCpus(Integer unmanagedvCpus) { setUnmanagedvCpus(unmanagedvCpus); return this; } /** ** Details of the compute resources managed by the compute environment. Required for a managed compute environment. * For more information, see Compute Environments in * the Batch User Guide. *
* * @param computeResources * Details of the compute resources managed by the compute environment. Required for a managed compute * environment. For more information, see Compute * Environments in the Batch User Guide. */ public void setComputeResources(ComputeResourceUpdate computeResources) { this.computeResources = computeResources; } /** ** Details of the compute resources managed by the compute environment. Required for a managed compute environment. * For more information, see Compute Environments in * the Batch User Guide. *
* * @return Details of the compute resources managed by the compute environment. Required for a managed compute * environment. For more information, see Compute * Environments in the Batch User Guide. */ public ComputeResourceUpdate getComputeResources() { return this.computeResources; } /** ** Details of the compute resources managed by the compute environment. Required for a managed compute environment. * For more information, see Compute Environments in * the Batch User Guide. *
* * @param computeResources * Details of the compute resources managed by the compute environment. Required for a managed compute * environment. For more information, see Compute * Environments in the Batch User Guide. * @return Returns a reference to this object so that method calls can be chained together. */ public UpdateComputeEnvironmentRequest withComputeResources(ComputeResourceUpdate computeResources) { setComputeResources(computeResources); return this; } /** ** The full Amazon Resource Name (ARN) of the IAM role that allows Batch to make calls to other Amazon Web Services * services on your behalf. For more information, see Batch service IAM role in the * Batch User Guide. *
** If the compute environment has a service-linked role, it can't be changed to use a regular IAM role. Likewise, if * the compute environment has a regular IAM role, it can't be changed to use a service-linked role. To update the * parameters for the compute environment that require an infrastructure update to change, the * AWSServiceRoleForBatch service-linked role must be used. For more information, see Updating compute * environments in the Batch User Guide. *
*
* If your specified role has a path other than /, then you must either specify the full role ARN
* (recommended) or prefix the role name with the path.
*
* Depending on how you created your Batch service role, its ARN might contain the service-role path
* prefix. When you only specify the name of the service role, Batch assumes that your ARN doesn't use the
* service-role path prefix. Because of this, we recommend that you specify the full ARN of your
* service role when you create compute environments.
*
* If the compute environment has a service-linked role, it can't be changed to use a regular IAM role. * Likewise, if the compute environment has a regular IAM role, it can't be changed to use a service-linked * role. To update the parameters for the compute environment that require an infrastructure update to * change, the AWSServiceRoleForBatch service-linked role must be used. For more information, see Updating * compute environments in the Batch User Guide. *
*
* If your specified role has a path other than /, then you must either specify the full role
* ARN (recommended) or prefix the role name with the path.
*
* Depending on how you created your Batch service role, its ARN might contain the service-role
* path prefix. When you only specify the name of the service role, Batch assumes that your ARN doesn't use
* the service-role path prefix. Because of this, we recommend that you specify the full ARN of
* your service role when you create compute environments.
*
* The full Amazon Resource Name (ARN) of the IAM role that allows Batch to make calls to other Amazon Web Services * services on your behalf. For more information, see Batch service IAM role in the * Batch User Guide. *
** If the compute environment has a service-linked role, it can't be changed to use a regular IAM role. Likewise, if * the compute environment has a regular IAM role, it can't be changed to use a service-linked role. To update the * parameters for the compute environment that require an infrastructure update to change, the * AWSServiceRoleForBatch service-linked role must be used. For more information, see Updating compute * environments in the Batch User Guide. *
*
* If your specified role has a path other than /, then you must either specify the full role ARN
* (recommended) or prefix the role name with the path.
*
* Depending on how you created your Batch service role, its ARN might contain the service-role path
* prefix. When you only specify the name of the service role, Batch assumes that your ARN doesn't use the
* service-role path prefix. Because of this, we recommend that you specify the full ARN of your
* service role when you create compute environments.
*
* If the compute environment has a service-linked role, it can't be changed to use a regular IAM role. * Likewise, if the compute environment has a regular IAM role, it can't be changed to use a service-linked * role. To update the parameters for the compute environment that require an infrastructure update to * change, the AWSServiceRoleForBatch service-linked role must be used. For more information, see Updating * compute environments in the Batch User Guide. *
*
* If your specified role has a path other than /, then you must either specify the full role
* ARN (recommended) or prefix the role name with the path.
*
* Depending on how you created your Batch service role, its ARN might contain the service-role
* path prefix. When you only specify the name of the service role, Batch assumes that your ARN doesn't use
* the service-role path prefix. Because of this, we recommend that you specify the full ARN of
* your service role when you create compute environments.
*
* The full Amazon Resource Name (ARN) of the IAM role that allows Batch to make calls to other Amazon Web Services * services on your behalf. For more information, see Batch service IAM role in the * Batch User Guide. *
** If the compute environment has a service-linked role, it can't be changed to use a regular IAM role. Likewise, if * the compute environment has a regular IAM role, it can't be changed to use a service-linked role. To update the * parameters for the compute environment that require an infrastructure update to change, the * AWSServiceRoleForBatch service-linked role must be used. For more information, see Updating compute * environments in the Batch User Guide. *
*
* If your specified role has a path other than /, then you must either specify the full role ARN
* (recommended) or prefix the role name with the path.
*
* Depending on how you created your Batch service role, its ARN might contain the service-role path
* prefix. When you only specify the name of the service role, Batch assumes that your ARN doesn't use the
* service-role path prefix. Because of this, we recommend that you specify the full ARN of your
* service role when you create compute environments.
*
* If the compute environment has a service-linked role, it can't be changed to use a regular IAM role. * Likewise, if the compute environment has a regular IAM role, it can't be changed to use a service-linked * role. To update the parameters for the compute environment that require an infrastructure update to * change, the AWSServiceRoleForBatch service-linked role must be used. For more information, see Updating * compute environments in the Batch User Guide. *
*
* If your specified role has a path other than /, then you must either specify the full role
* ARN (recommended) or prefix the role name with the path.
*
* Depending on how you created your Batch service role, its ARN might contain the service-role
* path prefix. When you only specify the name of the service role, Batch assumes that your ARN doesn't use
* the service-role path prefix. Because of this, we recommend that you specify the full ARN of
* your service role when you create compute environments.
*
* Specifies the updated infrastructure update policy for the compute environment. For more information about * infrastructure updates, see Updating compute * environments in the Batch User Guide. *
* * @param updatePolicy * Specifies the updated infrastructure update policy for the compute environment. For more information about * infrastructure updates, see Updating * compute environments in the Batch User Guide. */ public void setUpdatePolicy(UpdatePolicy updatePolicy) { this.updatePolicy = updatePolicy; } /** ** Specifies the updated infrastructure update policy for the compute environment. For more information about * infrastructure updates, see Updating compute * environments in the Batch User Guide. *
* * @return Specifies the updated infrastructure update policy for the compute environment. For more information * about infrastructure updates, see Updating * compute environments in the Batch User Guide. */ public UpdatePolicy getUpdatePolicy() { return this.updatePolicy; } /** ** Specifies the updated infrastructure update policy for the compute environment. For more information about * infrastructure updates, see Updating compute * environments in the Batch User Guide. *
* * @param updatePolicy * Specifies the updated infrastructure update policy for the compute environment. For more information about * infrastructure updates, see Updating * compute environments in the Batch User Guide. * @return Returns a reference to this object so that method calls can be chained together. */ public UpdateComputeEnvironmentRequest withUpdatePolicy(UpdatePolicy updatePolicy) { setUpdatePolicy(updatePolicy); 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 (getComputeEnvironment() != null) sb.append("ComputeEnvironment: ").append(getComputeEnvironment()).append(","); if (getState() != null) sb.append("State: ").append(getState()).append(","); if (getUnmanagedvCpus() != null) sb.append("UnmanagedvCpus: ").append(getUnmanagedvCpus()).append(","); if (getComputeResources() != null) sb.append("ComputeResources: ").append(getComputeResources()).append(","); if (getServiceRole() != null) sb.append("ServiceRole: ").append(getServiceRole()).append(","); if (getUpdatePolicy() != null) sb.append("UpdatePolicy: ").append(getUpdatePolicy()); sb.append("}"); return sb.toString(); } @Override public boolean equals(Object obj) { if (this == obj) return true; if (obj == null) return false; if (obj instanceof UpdateComputeEnvironmentRequest == false) return false; UpdateComputeEnvironmentRequest other = (UpdateComputeEnvironmentRequest) obj; if (other.getComputeEnvironment() == null ^ this.getComputeEnvironment() == null) return false; if (other.getComputeEnvironment() != null && other.getComputeEnvironment().equals(this.getComputeEnvironment()) == false) return false; if (other.getState() == null ^ this.getState() == null) return false; if (other.getState() != null && other.getState().equals(this.getState()) == false) return false; if (other.getUnmanagedvCpus() == null ^ this.getUnmanagedvCpus() == null) return false; if (other.getUnmanagedvCpus() != null && other.getUnmanagedvCpus().equals(this.getUnmanagedvCpus()) == false) return false; if (other.getComputeResources() == null ^ this.getComputeResources() == null) return false; if (other.getComputeResources() != null && other.getComputeResources().equals(this.getComputeResources()) == false) return false; if (other.getServiceRole() == null ^ this.getServiceRole() == null) return false; if (other.getServiceRole() != null && other.getServiceRole().equals(this.getServiceRole()) == false) return false; if (other.getUpdatePolicy() == null ^ this.getUpdatePolicy() == null) return false; if (other.getUpdatePolicy() != null && other.getUpdatePolicy().equals(this.getUpdatePolicy()) == false) return false; return true; } @Override public int hashCode() { final int prime = 31; int hashCode = 1; hashCode = prime * hashCode + ((getComputeEnvironment() == null) ? 0 : getComputeEnvironment().hashCode()); hashCode = prime * hashCode + ((getState() == null) ? 0 : getState().hashCode()); hashCode = prime * hashCode + ((getUnmanagedvCpus() == null) ? 0 : getUnmanagedvCpus().hashCode()); hashCode = prime * hashCode + ((getComputeResources() == null) ? 0 : getComputeResources().hashCode()); hashCode = prime * hashCode + ((getServiceRole() == null) ? 0 : getServiceRole().hashCode()); hashCode = prime * hashCode + ((getUpdatePolicy() == null) ? 0 : getUpdatePolicy().hashCode()); return hashCode; } @Override public UpdateComputeEnvironmentRequest clone() { return (UpdateComputeEnvironmentRequest) super.clone(); } }