package com.android.gallery3d.ingest.data; import android.annotation.TargetApi; import android.mtp.MtpConstants; import android.mtp.MtpDevice; import android.mtp.MtpObjectInfo; import android.os.Build; import java.util.ArrayList; import java.util.Arrays; import java.util.Collections; import java.util.List; import java.util.Map; import java.util.SortedMap; import java.util.Stack; import java.util.TreeMap; /** * Runnable used by the {@link MtpDeviceIndex} to populate its index. * * Implementation note: this is the way the index supports a lot of its operations in * constant time and respecting the need to have bucket names always come before items * in that bucket when accessing the list sequentially, both in ascending and descending * orders. * * Let's say the data we have in the index is the following: * [Bucket A]: [photo 1], [photo 2] * [Bucket B]: [photo 3] * * In this case, the lookup index array would be * [0, 0, 0, 1, 1] * * Now, whether we access the list in ascending or descending order, we know which bucket * to look in (0 corresponds to A and 1 to B), and can return the bucket label as the first * item in a bucket as needed. The individual IndexBUckets have a startIndex and endIndex * that correspond to indices in this lookup index array, allowing us to calculate the * offset of the specific item we want from within a specific bucket. */ @TargetApi(Build.VERSION_CODES.HONEYCOMB_MR1) public class MtpDeviceIndexRunnable implements Runnable { /** * MtpDeviceIndexRunnable factory. */ public static class Factory { public MtpDeviceIndexRunnable createMtpDeviceIndexRunnable(MtpDeviceIndex index) { return new MtpDeviceIndexRunnable(index); } } static class Results { final int[] unifiedLookupIndex; final IngestObjectInfo[] mtpObjects; final DateBucket[] buckets; final DateBucket[] reversedBuckets; public Results( int[] unifiedLookupIndex, IngestObjectInfo[] mtpObjects, DateBucket[] buckets) { this.unifiedLookupIndex = unifiedLookupIndex; this.mtpObjects = mtpObjects; this.buckets = buckets; this.reversedBuckets = new DateBucket[buckets.length]; for (int i = 0; i < buckets.length; i++) { this.reversedBuckets[i] = buckets[buckets.length - 1 - i]; } } } private final MtpDevice mDevice; protected final MtpDeviceIndex mIndex; private final long mIndexGeneration; private static Factory sDefaultFactory = new Factory(); public static Factory getFactory() { return sDefaultFactory; } /** * Exception thrown when a problem occurred during indexing. */ @SuppressWarnings("serial") public class IndexingException extends RuntimeException {} MtpDeviceIndexRunnable(MtpDeviceIndex index) { mIndex = index; mDevice = index.getDevice(); mIndexGeneration = index.getGeneration(); } @Override public void run() { try { indexDevice(); } catch (IndexingException e) { mIndex.onIndexFinish(false /*successful*/); } } private void indexDevice() throws IndexingException { SortedMap> bucketsTemp = new TreeMap>(); int numObjects = addAllObjects(bucketsTemp); mIndex.onSorting(); int numBuckets = bucketsTemp.size(); DateBucket[] buckets = new DateBucket[numBuckets]; IngestObjectInfo[] mtpObjects = new IngestObjectInfo[numObjects]; int[] unifiedLookupIndex = new int[numObjects + numBuckets]; int currentUnifiedIndexEntry = 0; int currentItemsEntry = 0; int nextUnifiedEntry, unifiedStartIndex, numBucketObjects, unifiedEndIndex, itemsStartIndex; int i = 0; for (Map.Entry> bucketTemp : bucketsTemp.entrySet()) { List objects = bucketTemp.getValue(); Collections.sort(objects); numBucketObjects = objects.size(); nextUnifiedEntry = currentUnifiedIndexEntry + numBucketObjects + 1; Arrays.fill(unifiedLookupIndex, currentUnifiedIndexEntry, nextUnifiedEntry, i); unifiedStartIndex = currentUnifiedIndexEntry; unifiedEndIndex = nextUnifiedEntry - 1; currentUnifiedIndexEntry = nextUnifiedEntry; itemsStartIndex = currentItemsEntry; for (int j = 0; j < numBucketObjects; j++) { mtpObjects[currentItemsEntry] = objects.get(j); currentItemsEntry++; } buckets[i] = new DateBucket(bucketTemp.getKey(), unifiedStartIndex, unifiedEndIndex, itemsStartIndex, numBucketObjects); i++; } if (!mIndex.setIndexingResults(mDevice, mIndexGeneration, new Results(unifiedLookupIndex, mtpObjects, buckets))) { throw new IndexingException(); } } private SimpleDate mDateInstance = new SimpleDate(); protected void addObject(IngestObjectInfo objectInfo, SortedMap> bucketsTemp, int numObjects) { mDateInstance.setTimestamp(objectInfo.getDateCreated()); List bucket = bucketsTemp.get(mDateInstance); if (bucket == null) { bucket = new ArrayList(); bucketsTemp.put(mDateInstance, bucket); mDateInstance = new SimpleDate(); // only create new date objects when they are used } bucket.add(objectInfo); mIndex.onObjectIndexed(objectInfo, numObjects); } protected int addAllObjects(SortedMap> bucketsTemp) throws IndexingException { int numObjects = 0; for (int storageId : mDevice.getStorageIds()) { if (!mIndex.isAtGeneration(mDevice, mIndexGeneration)) { throw new IndexingException(); } Stack pendingDirectories = new Stack(); pendingDirectories.add(0xFFFFFFFF); // start at the root of the device while (!pendingDirectories.isEmpty()) { if (!mIndex.isAtGeneration(mDevice, mIndexGeneration)) { throw new IndexingException(); } int dirHandle = pendingDirectories.pop(); for (int objectHandle : mDevice.getObjectHandles(storageId, 0, dirHandle)) { MtpObjectInfo mtpObjectInfo = mDevice.getObjectInfo(objectHandle); if (mtpObjectInfo == null) { throw new IndexingException(); } int format = mtpObjectInfo.getFormat(); if (format == MtpConstants.FORMAT_ASSOCIATION) { pendingDirectories.add(objectHandle); } else if (mIndex.isFormatSupported(format)) { numObjects++; addObject(new IngestObjectInfo(mtpObjectInfo), bucketsTemp, numObjects); } } } } return numObjects; } }