320 lines
16 KiB
TypeScript
Executable file
320 lines
16 KiB
TypeScript
Executable file
import RecordedValuesIterator from "./RecordedValuesIterator";
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import PercentileIterator from "./PercentileIterator";
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import Histogram, { HistogramSummary } from "./Histogram";
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export declare abstract class JsHistogram implements Histogram {
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static identityBuilder: number;
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identity: number;
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autoResize: boolean;
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highestTrackableValue: number;
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lowestDiscernibleValue: number;
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numberOfSignificantValueDigits: number;
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bucketCount: number;
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/**
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* Power-of-two length of linearly scaled array slots in the counts array. Long enough to hold the first sequence of
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* entries that must be distinguished by a single unit (determined by configured precision).
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*/
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subBucketCount: number;
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countsArrayLength: number;
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wordSizeInBytes: number;
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startTimeStampMsec: number;
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endTimeStampMsec: number;
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tag: string;
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percentileIterator: PercentileIterator;
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recordedValuesIterator: RecordedValuesIterator;
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/**
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* Number of leading zeros in the largest value that can fit in bucket 0.
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*/
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leadingZeroCountBase: number;
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subBucketHalfCountMagnitude: number;
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/**
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* Largest k such that 2^k <= lowestDiscernibleValue
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*/
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unitMagnitude: number;
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subBucketHalfCount: number;
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lowestDiscernibleValueRounded: number;
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/**
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* Biggest value that can fit in bucket 0
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*/
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subBucketMask: number;
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/**
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* Lowest unitMagnitude bits are set
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*/
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unitMagnitudeMask: number;
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maxValue: number;
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minNonZeroValue: number;
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_totalCount: number;
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incrementTotalCount(): void;
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addToTotalCount(value: number): void;
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setTotalCount(value: number): void;
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/**
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* Get the total count of all recorded values in the histogram
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* @return the total count of all recorded values in the histogram
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*/
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get totalCount(): number;
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abstract getCountAtIndex(index: number): number;
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abstract incrementCountAtIndex(index: number): void;
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abstract addToCountAtIndex(index: number, value: number): void;
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abstract setCountAtIndex(index: number, value: number): void;
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abstract clearCounts(): void;
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protected abstract _getEstimatedFootprintInBytes(): number;
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abstract resize(newHighestTrackableValue: number): void;
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private updatedMaxValue;
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private updateMinNonZeroValue;
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constructor(lowestDiscernibleValue: number, highestTrackableValue: number, numberOfSignificantValueDigits: number);
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init(lowestDiscernibleValue: number, highestTrackableValue: number, numberOfSignificantValueDigits: number): void;
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/**
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* The buckets (each of which has subBucketCount sub-buckets, here assumed to be 2048 as an example) overlap:
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*
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* <pre>
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* The 0'th bucket covers from 0...2047 in multiples of 1, using all 2048 sub-buckets
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* The 1'th bucket covers from 2048..4097 in multiples of 2, using only the top 1024 sub-buckets
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* The 2'th bucket covers from 4096..8191 in multiple of 4, using only the top 1024 sub-buckets
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* ...
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* </pre>
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*
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* Bucket 0 is "special" here. It is the only one that has 2048 entries. All the rest have 1024 entries (because
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* their bottom half overlaps with and is already covered by the all of the previous buckets put together). In other
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* words, the k'th bucket could represent 0 * 2^k to 2048 * 2^k in 2048 buckets with 2^k precision, but the midpoint
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* of 1024 * 2^k = 2048 * 2^(k-1) = the k-1'th bucket's end, so we would use the previous bucket for those lower
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* values as it has better precision.
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*/
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establishSize(newHighestTrackableValue: number): void;
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determineArrayLengthNeeded(highestTrackableValue: number): number;
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/**
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* If we have N such that subBucketCount * 2^N > max value, we need storage for N+1 buckets, each with enough
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* slots to hold the top half of the subBucketCount (the lower half is covered by previous buckets), and the +1
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* being used for the lower half of the 0'th bucket. Or, equivalently, we need 1 more bucket to capture the max
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* value if we consider the sub-bucket length to be halved.
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*/
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getLengthForNumberOfBuckets(numberOfBuckets: number): number;
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getBucketsNeededToCoverValue(value: number): number;
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/**
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* Record a value in the histogram
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*
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* @param value The value to be recorded
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* @throws may throw Error if value is exceeds highestTrackableValue
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*/
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recordValue(value: number): void;
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recordSingleValue(value: number): void;
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handleRecordException(count: number, value: number): void;
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countsArrayIndex(value: number): number;
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private computeCountsArrayIndex;
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/**
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* @return the lowest (and therefore highest precision) bucket index that can represent the value
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*/
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getBucketIndex(value: number): number;
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getSubBucketIndex(value: number, bucketIndex: number): number;
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updateMinAndMax(value: number): void;
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/**
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* Get the value at a given percentile.
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* When the given percentile is > 0.0, the value returned is the value that the given
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* percentage of the overall recorded value entries in the histogram are either smaller than
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* or equivalent to. When the given percentile is 0.0, the value returned is the value that all value
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* entries in the histogram are either larger than or equivalent to.
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* <p>
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* Note that two values are "equivalent" in this statement if
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* {@link org.HdrHistogram.JsHistogram#valuesAreEquivalent} would return true.
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*
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* @param percentile The percentile for which to return the associated value
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* @return The value that the given percentage of the overall recorded value entries in the
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* histogram are either smaller than or equivalent to. When the percentile is 0.0, returns the
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* value that all value entries in the histogram are either larger than or equivalent to.
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*/
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getValueAtPercentile(percentile: number): number;
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valueFromIndexes(bucketIndex: number, subBucketIndex: number): number;
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valueFromIndex(index: number): number;
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/**
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* Get the lowest value that is equivalent to the given value within the histogram's resolution.
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* Where "equivalent" means that value samples recorded for any two
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* equivalent values are counted in a common total count.
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*
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* @param value The given value
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* @return The lowest value that is equivalent to the given value within the histogram's resolution.
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*/
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lowestEquivalentValue(value: number): number;
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/**
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* Get the highest value that is equivalent to the given value within the histogram's resolution.
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* Where "equivalent" means that value samples recorded for any two
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* equivalent values are counted in a common total count.
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*
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* @param value The given value
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* @return The highest value that is equivalent to the given value within the histogram's resolution.
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*/
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highestEquivalentValue(value: number): number;
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/**
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* Get the next value that is not equivalent to the given value within the histogram's resolution.
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* Where "equivalent" means that value samples recorded for any two
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* equivalent values are counted in a common total count.
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*
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* @param value The given value
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* @return The next value that is not equivalent to the given value within the histogram's resolution.
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*/
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nextNonEquivalentValue(value: number): number;
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/**
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* Get the size (in value units) of the range of values that are equivalent to the given value within the
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* histogram's resolution. Where "equivalent" means that value samples recorded for any two
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* equivalent values are counted in a common total count.
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*
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* @param value The given value
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* @return The size of the range of values equivalent to the given value.
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*/
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sizeOfEquivalentValueRange(value: number): number;
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/**
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* Get a value that lies in the middle (rounded up) of the range of values equivalent the given value.
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* Where "equivalent" means that value samples recorded for any two
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* equivalent values are counted in a common total count.
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*
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* @param value The given value
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* @return The value lies in the middle (rounded up) of the range of values equivalent the given value.
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*/
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medianEquivalentValue(value: number): number;
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/**
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* Get the computed mean value of all recorded values in the histogram
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*
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* @return the mean value (in value units) of the histogram data
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*/
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get mean(): number;
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private getStdDeviation;
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/**
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* Get the computed standard deviation of all recorded values in the histogram
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*
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* @return the standard deviation (in value units) of the histogram data
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*/
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get stdDeviation(): number;
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/**
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* Produce textual representation of the value distribution of histogram data by percentile. The distribution is
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* output with exponentially increasing resolution, with each exponentially decreasing half-distance containing
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* <i>dumpTicksPerHalf</i> percentile reporting tick points.
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*
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* @param printStream Stream into which the distribution will be output
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* <p>
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* @param percentileTicksPerHalfDistance The number of reporting points per exponentially decreasing half-distance
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* <p>
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* @param outputValueUnitScalingRatio The scaling factor by which to divide histogram recorded values units in
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* output
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* @param useCsvFormat Output in CSV format if true. Otherwise use plain text form.
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*/
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outputPercentileDistribution(percentileTicksPerHalfDistance?: number, outputValueUnitScalingRatio?: number, useCsvFormat?: boolean): string;
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get summary(): HistogramSummary;
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toJSON(): HistogramSummary;
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inspect(): string;
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/**
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* Provide a (conservatively high) estimate of the Histogram's total footprint in bytes
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*
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* @return a (conservatively high) estimate of the Histogram's total footprint in bytes
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*/
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get estimatedFootprintInBytes(): number;
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recordSingleValueWithExpectedInterval(value: number, expectedIntervalBetweenValueSamples: number): void;
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private recordCountAtValue;
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/**
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* Record a value in the histogram (adding to the value's current count)
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*
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* @param value The value to be recorded
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* @param count The number of occurrences of this value to record
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* @throws ArrayIndexOutOfBoundsException (may throw) if value is exceeds highestTrackableValue
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*/
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recordValueWithCount(value: number, count: number): void;
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/**
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* Record a value in the histogram.
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* <p>
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* To compensate for the loss of sampled values when a recorded value is larger than the expected
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* interval between value samples, Histogram will auto-generate an additional series of decreasingly-smaller
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* (down to the expectedIntervalBetweenValueSamples) value records.
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* <p>
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* Note: This is a at-recording correction method, as opposed to the post-recording correction method provided
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* by {@link #copyCorrectedForCoordinatedOmission(long)}.
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* The two methods are mutually exclusive, and only one of the two should be be used on a given data set to correct
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* for the same coordinated omission issue.
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* <p>
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* See notes in the description of the Histogram calls for an illustration of why this corrective behavior is
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* important.
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*
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* @param value The value to record
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* @param expectedIntervalBetweenValueSamples If expectedIntervalBetweenValueSamples is larger than 0, add
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* auto-generated value records as appropriate if value is larger
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* than expectedIntervalBetweenValueSamples
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* @throws ArrayIndexOutOfBoundsException (may throw) if value is exceeds highestTrackableValue
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*/
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recordValueWithExpectedInterval(value: number, expectedIntervalBetweenValueSamples: number): void;
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private recordValueWithCountAndExpectedInterval;
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/**
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* Add the contents of another histogram to this one, while correcting the incoming data for coordinated omission.
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* <p>
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* To compensate for the loss of sampled values when a recorded value is larger than the expected
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* interval between value samples, the values added will include an auto-generated additional series of
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* decreasingly-smaller (down to the expectedIntervalBetweenValueSamples) value records for each count found
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* in the current histogram that is larger than the expectedIntervalBetweenValueSamples.
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*
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* Note: This is a post-recording correction method, as opposed to the at-recording correction method provided
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* by {@link #recordValueWithExpectedInterval(long, long) recordValueWithExpectedInterval}. The two
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* methods are mutually exclusive, and only one of the two should be be used on a given data set to correct
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* for the same coordinated omission issue.
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* by
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* <p>
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* See notes in the description of the Histogram calls for an illustration of why this corrective behavior is
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* important.
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*
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* @param otherHistogram The other histogram. highestTrackableValue and largestValueWithSingleUnitResolution must match.
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* @param expectedIntervalBetweenValueSamples If expectedIntervalBetweenValueSamples is larger than 0, add
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* auto-generated value records as appropriate if value is larger
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* than expectedIntervalBetweenValueSamples
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* @throws ArrayIndexOutOfBoundsException (may throw) if values exceed highestTrackableValue
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*/
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addWhileCorrectingForCoordinatedOmission(otherHistogram: JsHistogram, expectedIntervalBetweenValueSamples: number): void;
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/**
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* Get a copy of this histogram, corrected for coordinated omission.
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* <p>
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* To compensate for the loss of sampled values when a recorded value is larger than the expected
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* interval between value samples, the new histogram will include an auto-generated additional series of
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* decreasingly-smaller (down to the expectedIntervalBetweenValueSamples) value records for each count found
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* in the current histogram that is larger than the expectedIntervalBetweenValueSamples.
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*
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* Note: This is a post-correction method, as opposed to the at-recording correction method provided
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* by {@link #recordValueWithExpectedInterval(long, long) recordValueWithExpectedInterval}. The two
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* methods are mutually exclusive, and only one of the two should be be used on a given data set to correct
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* for the same coordinated omission issue.
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* by
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* <p>
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* See notes in the description of the Histogram calls for an illustration of why this corrective behavior is
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* important.
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*
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* @param expectedIntervalBetweenValueSamples If expectedIntervalBetweenValueSamples is larger than 0, add
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* auto-generated value records as appropriate if value is larger
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* than expectedIntervalBetweenValueSamples
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* @return a copy of this histogram, corrected for coordinated omission.
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*/
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abstract copyCorrectedForCoordinatedOmission(expectedIntervalBetweenValueSamples: number): JsHistogram;
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/**
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* Add the contents of another histogram to this one.
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* <p>
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* As part of adding the contents, the start/end timestamp range of this histogram will be
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* extended to include the start/end timestamp range of the other histogram.
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*
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* @param otherHistogram The other histogram.
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* @throws (may throw) if values in fromHistogram's are
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* higher than highestTrackableValue.
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*/
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add(otherHistogram: JsHistogram): void;
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/**
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* Get the count of recorded values at a specific value (to within the histogram resolution at the value level).
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*
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* @param value The value for which to provide the recorded count
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* @return The total count of values recorded in the histogram within the value range that is
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* {@literal >=} lowestEquivalentValue(<i>value</i>) and {@literal <=} highestEquivalentValue(<i>value</i>)
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*/
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private getCountAtValue;
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/**
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* Subtract the contents of another histogram from this one.
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* <p>
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* The start/end timestamps of this histogram will remain unchanged.
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*
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* @param otherHistogram The other histogram.
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* @throws ArrayIndexOutOfBoundsException (may throw) if values in otherHistogram's are higher than highestTrackableValue.
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*
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*/
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subtract(otherHistogram: JsHistogram): void;
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establishInternalTackingValues(lengthToCover?: number): void;
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reset(): void;
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destroy(): void;
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}
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export { JsHistogram as default };
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