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com.amazonaws.services.cloudwatch.model.Datapoint Maven / Gradle / Ivy

/*
 * Copyright 2010-2013 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.cloudwatch.model;
import java.io.Serializable;

/**
 * 

* The Datapoint data type encapsulates the statistical data that Amazon CloudWatch computes from metric data. *

*/ public class Datapoint implements Serializable { /** * The time stamp used for the datapoint. */ private java.util.Date timestamp; /** * The number of metric values that contributed to the aggregate value of * this datapoint. */ private Double sampleCount; /** * The average of metric values that correspond to the datapoint. */ private Double average; /** * The sum of metric values used for the datapoint. */ private Double sum; /** * The minimum metric value used for the datapoint. */ private Double minimum; /** * The maximum of the metric value used for the datapoint. */ private Double maximum; /** * The standard unit used for the datapoint. *

* Constraints:
* Allowed Values: Seconds, Microseconds, Milliseconds, Bytes, Kilobytes, Megabytes, Gigabytes, Terabytes, Bits, Kilobits, Megabits, Gigabits, Terabits, Percent, Count, Bytes/Second, Kilobytes/Second, Megabytes/Second, Gigabytes/Second, Terabytes/Second, Bits/Second, Kilobits/Second, Megabits/Second, Gigabits/Second, Terabits/Second, Count/Second, None */ private String unit; /** * The time stamp used for the datapoint. * * @return The time stamp used for the datapoint. */ public java.util.Date getTimestamp() { return timestamp; } /** * The time stamp used for the datapoint. * * @param timestamp The time stamp used for the datapoint. */ public void setTimestamp(java.util.Date timestamp) { this.timestamp = timestamp; } /** * The time stamp used for the datapoint. *

* Returns a reference to this object so that method calls can be chained together. * * @param timestamp The time stamp used for the datapoint. * * @return A reference to this updated object so that method calls can be chained * together. */ public Datapoint withTimestamp(java.util.Date timestamp) { this.timestamp = timestamp; return this; } /** * The number of metric values that contributed to the aggregate value of * this datapoint. * * @return The number of metric values that contributed to the aggregate value of * this datapoint. */ public Double getSampleCount() { return sampleCount; } /** * The number of metric values that contributed to the aggregate value of * this datapoint. * * @param sampleCount The number of metric values that contributed to the aggregate value of * this datapoint. */ public void setSampleCount(Double sampleCount) { this.sampleCount = sampleCount; } /** * The number of metric values that contributed to the aggregate value of * this datapoint. *

* Returns a reference to this object so that method calls can be chained together. * * @param sampleCount The number of metric values that contributed to the aggregate value of * this datapoint. * * @return A reference to this updated object so that method calls can be chained * together. */ public Datapoint withSampleCount(Double sampleCount) { this.sampleCount = sampleCount; return this; } /** * The average of metric values that correspond to the datapoint. * * @return The average of metric values that correspond to the datapoint. */ public Double getAverage() { return average; } /** * The average of metric values that correspond to the datapoint. * * @param average The average of metric values that correspond to the datapoint. */ public void setAverage(Double average) { this.average = average; } /** * The average of metric values that correspond to the datapoint. *

* Returns a reference to this object so that method calls can be chained together. * * @param average The average of metric values that correspond to the datapoint. * * @return A reference to this updated object so that method calls can be chained * together. */ public Datapoint withAverage(Double average) { this.average = average; return this; } /** * The sum of metric values used for the datapoint. * * @return The sum of metric values used for the datapoint. */ public Double getSum() { return sum; } /** * The sum of metric values used for the datapoint. * * @param sum The sum of metric values used for the datapoint. */ public void setSum(Double sum) { this.sum = sum; } /** * The sum of metric values used for the datapoint. *

* Returns a reference to this object so that method calls can be chained together. * * @param sum The sum of metric values used for the datapoint. * * @return A reference to this updated object so that method calls can be chained * together. */ public Datapoint withSum(Double sum) { this.sum = sum; return this; } /** * The minimum metric value used for the datapoint. * * @return The minimum metric value used for the datapoint. */ public Double getMinimum() { return minimum; } /** * The minimum metric value used for the datapoint. * * @param minimum The minimum metric value used for the datapoint. */ public void setMinimum(Double minimum) { this.minimum = minimum; } /** * The minimum metric value used for the datapoint. *

* Returns a reference to this object so that method calls can be chained together. * * @param minimum The minimum metric value used for the datapoint. * * @return A reference to this updated object so that method calls can be chained * together. */ public Datapoint withMinimum(Double minimum) { this.minimum = minimum; return this; } /** * The maximum of the metric value used for the datapoint. * * @return The maximum of the metric value used for the datapoint. */ public Double getMaximum() { return maximum; } /** * The maximum of the metric value used for the datapoint. * * @param maximum The maximum of the metric value used for the datapoint. */ public void setMaximum(Double maximum) { this.maximum = maximum; } /** * The maximum of the metric value used for the datapoint. *

* Returns a reference to this object so that method calls can be chained together. * * @param maximum The maximum of the metric value used for the datapoint. * * @return A reference to this updated object so that method calls can be chained * together. */ public Datapoint withMaximum(Double maximum) { this.maximum = maximum; return this; } /** * The standard unit used for the datapoint. *

* Constraints:
* Allowed Values: Seconds, Microseconds, Milliseconds, Bytes, Kilobytes, Megabytes, Gigabytes, Terabytes, Bits, Kilobits, Megabits, Gigabits, Terabits, Percent, Count, Bytes/Second, Kilobytes/Second, Megabytes/Second, Gigabytes/Second, Terabytes/Second, Bits/Second, Kilobits/Second, Megabits/Second, Gigabits/Second, Terabits/Second, Count/Second, None * * @return The standard unit used for the datapoint. * * @see StandardUnit */ public String getUnit() { return unit; } /** * The standard unit used for the datapoint. *

* Constraints:
* Allowed Values: Seconds, Microseconds, Milliseconds, Bytes, Kilobytes, Megabytes, Gigabytes, Terabytes, Bits, Kilobits, Megabits, Gigabits, Terabits, Percent, Count, Bytes/Second, Kilobytes/Second, Megabytes/Second, Gigabytes/Second, Terabytes/Second, Bits/Second, Kilobits/Second, Megabits/Second, Gigabits/Second, Terabits/Second, Count/Second, None * * @param unit The standard unit used for the datapoint. * * @see StandardUnit */ public void setUnit(String unit) { this.unit = unit; } /** * The standard unit used for the datapoint. *

* Returns a reference to this object so that method calls can be chained together. *

* Constraints:
* Allowed Values: Seconds, Microseconds, Milliseconds, Bytes, Kilobytes, Megabytes, Gigabytes, Terabytes, Bits, Kilobits, Megabits, Gigabits, Terabits, Percent, Count, Bytes/Second, Kilobytes/Second, Megabytes/Second, Gigabytes/Second, Terabytes/Second, Bits/Second, Kilobits/Second, Megabits/Second, Gigabits/Second, Terabits/Second, Count/Second, None * * @param unit The standard unit used for the datapoint. * * @return A reference to this updated object so that method calls can be chained * together. * * @see StandardUnit */ public Datapoint withUnit(String unit) { this.unit = unit; return this; } /** * The standard unit used for the datapoint. *

* Constraints:
* Allowed Values: Seconds, Microseconds, Milliseconds, Bytes, Kilobytes, Megabytes, Gigabytes, Terabytes, Bits, Kilobits, Megabits, Gigabits, Terabits, Percent, Count, Bytes/Second, Kilobytes/Second, Megabytes/Second, Gigabytes/Second, Terabytes/Second, Bits/Second, Kilobits/Second, Megabits/Second, Gigabits/Second, Terabits/Second, Count/Second, None * * @param unit The standard unit used for the datapoint. * * @see StandardUnit */ public void setUnit(StandardUnit unit) { this.unit = unit.toString(); } /** * The standard unit used for the datapoint. *

* Returns a reference to this object so that method calls can be chained together. *

* Constraints:
* Allowed Values: Seconds, Microseconds, Milliseconds, Bytes, Kilobytes, Megabytes, Gigabytes, Terabytes, Bits, Kilobits, Megabits, Gigabits, Terabits, Percent, Count, Bytes/Second, Kilobytes/Second, Megabytes/Second, Gigabytes/Second, Terabytes/Second, Bits/Second, Kilobits/Second, Megabits/Second, Gigabits/Second, Terabits/Second, Count/Second, None * * @param unit The standard unit used for the datapoint. * * @return A reference to this updated object so that method calls can be chained * together. * * @see StandardUnit */ public Datapoint withUnit(StandardUnit unit) { this.unit = unit.toString(); return this; } /** * Returns a string representation of this object; useful for testing and * debugging. * * @return A string representation of this object. * * @see java.lang.Object#toString() */ @Override public String toString() { StringBuilder sb = new StringBuilder(); sb.append("{"); if (getTimestamp() != null) sb.append("Timestamp: " + getTimestamp() + ","); if (getSampleCount() != null) sb.append("SampleCount: " + getSampleCount() + ","); if (getAverage() != null) sb.append("Average: " + getAverage() + ","); if (getSum() != null) sb.append("Sum: " + getSum() + ","); if (getMinimum() != null) sb.append("Minimum: " + getMinimum() + ","); if (getMaximum() != null) sb.append("Maximum: " + getMaximum() + ","); if (getUnit() != null) sb.append("Unit: " + getUnit() ); sb.append("}"); return sb.toString(); } @Override public int hashCode() { final int prime = 31; int hashCode = 1; hashCode = prime * hashCode + ((getTimestamp() == null) ? 0 : getTimestamp().hashCode()); hashCode = prime * hashCode + ((getSampleCount() == null) ? 0 : getSampleCount().hashCode()); hashCode = prime * hashCode + ((getAverage() == null) ? 0 : getAverage().hashCode()); hashCode = prime * hashCode + ((getSum() == null) ? 0 : getSum().hashCode()); hashCode = prime * hashCode + ((getMinimum() == null) ? 0 : getMinimum().hashCode()); hashCode = prime * hashCode + ((getMaximum() == null) ? 0 : getMaximum().hashCode()); hashCode = prime * hashCode + ((getUnit() == null) ? 0 : getUnit().hashCode()); return hashCode; } @Override public boolean equals(Object obj) { if (this == obj) return true; if (obj == null) return false; if (obj instanceof Datapoint == false) return false; Datapoint other = (Datapoint)obj; if (other.getTimestamp() == null ^ this.getTimestamp() == null) return false; if (other.getTimestamp() != null && other.getTimestamp().equals(this.getTimestamp()) == false) return false; if (other.getSampleCount() == null ^ this.getSampleCount() == null) return false; if (other.getSampleCount() != null && other.getSampleCount().equals(this.getSampleCount()) == false) return false; if (other.getAverage() == null ^ this.getAverage() == null) return false; if (other.getAverage() != null && other.getAverage().equals(this.getAverage()) == false) return false; if (other.getSum() == null ^ this.getSum() == null) return false; if (other.getSum() != null && other.getSum().equals(this.getSum()) == false) return false; if (other.getMinimum() == null ^ this.getMinimum() == null) return false; if (other.getMinimum() != null && other.getMinimum().equals(this.getMinimum()) == false) return false; if (other.getMaximum() == null ^ this.getMaximum() == null) return false; if (other.getMaximum() != null && other.getMaximum().equals(this.getMaximum()) == false) return false; if (other.getUnit() == null ^ this.getUnit() == null) return false; if (other.getUnit() != null && other.getUnit().equals(this.getUnit()) == false) return false; return true; } }





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