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/*
 * Copyright The OpenTelemetry Authors
 * SPDX-License-Identifier: Apache-2.0
 */

package io.opentelemetry.sdk.metrics.internal.aggregator;

/**
 * A circle-buffer-backed exponential counter.
 *
 * 

The first recorded value becomes the 'baseIndex'. Going backwards leads to start/stop index * *

This expand start/End index as it sees values. * *

This class is NOT thread-safe. It is expected to be behind a synchronized incrementer. */ final class AdaptingCircularBufferCounter { private static final int NULL_INDEX = Integer.MIN_VALUE; private int endIndex = NULL_INDEX; private int startIndex = NULL_INDEX; private int baseIndex = NULL_INDEX; private final AdaptingIntegerArray backing; /** Constructs a circular buffer that will hold at most {@code maxSize} buckets. */ AdaptingCircularBufferCounter(int maxSize) { this.backing = new AdaptingIntegerArray(maxSize); } /** (Deep)-Copies the values from another exponential counter. */ AdaptingCircularBufferCounter(AdaptingCircularBufferCounter toCopy) { this.backing = toCopy.backing.copy(); this.startIndex = toCopy.getIndexStart(); this.endIndex = toCopy.getIndexEnd(); this.baseIndex = toCopy.baseIndex; } /** * The first index with a recording. May be negative. * *

Note: the returned value is not meaningful when isEmpty returns true. * * @return the first index with a recording. */ int getIndexStart() { return startIndex; } /** * The last index with a recording. May be negative. * *

Note: the returned value is not meaningful when isEmpty returns true. * * @return The last index with a recording. */ int getIndexEnd() { return endIndex; } /** * Persist new data at index, incrementing by delta amount. * * @param index The index of where to perform the incrementation. * @param delta How much to increment the index by. * @return success status. */ boolean increment(int index, long delta) { if (baseIndex == NULL_INDEX) { startIndex = index; endIndex = index; baseIndex = index; backing.increment(0, delta); return true; } if (index > endIndex) { // Move end, check max size if ((long) index - startIndex + 1 > backing.length()) { return false; } endIndex = index; } else if (index < startIndex) { // Move end, check max size if ((long) endIndex - index + 1 > backing.length()) { return false; } startIndex = index; } int realIdx = toBufferIndex(index); backing.increment(realIdx, delta); return true; } /** * Get the number of recordings for the given index. * * @return the number of recordings for the index, or 0 if the index is out of bounds. */ long get(int index) { if (index < startIndex || index > endIndex) { return 0; } return backing.get(toBufferIndex(index)); } /** * Boolean denoting if the backing structure has recordings or not. * * @return true if no recordings, false if at least one recording. */ boolean isEmpty() { return baseIndex == NULL_INDEX; } /** Returns the maximum number of buckets allowed in this counter. */ int getMaxSize() { return backing.length(); } /** Resets all bucket counts to zero and resets index start/end tracking. */ void clear() { this.backing.clear(); this.baseIndex = NULL_INDEX; this.endIndex = NULL_INDEX; this.startIndex = NULL_INDEX; } private int toBufferIndex(int index) { // Figure out the index relative to the start of the circular buffer. int result = index - baseIndex; if (result >= backing.length()) { result -= backing.length(); } else if (result < 0) { result += backing.length(); } return result; } @Override public String toString() { StringBuilder result = new StringBuilder("{"); for (int i = startIndex; i <= endIndex && startIndex != NULL_INDEX; i++) { if (i != startIndex) { result.append(','); } result.append(i).append('=').append(get(i)); } return result.append("}").toString(); } }





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