src/com/android/contacts/model/RawContactDelta.java - platform/packages/apps/Contacts - Git at Google

 /*
  * Copyright (C) 2009 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License 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.android.contacts.model;

 import android.content.ContentProviderOperation;
 import android.content.ContentProviderOperation.Builder;
 import android.content.ContentValues;
 import android.content.Context;
 import android.net.Uri;
 import android.os.Parcel;
 import android.os.Parcelable;
 import android.provider.BaseColumns;
 import android.provider.ContactsContract.Data;
 import android.provider.ContactsContract.Profile;
 import android.provider.ContactsContract.RawContacts;
 import android.util.Log;

 import com.android.contacts.common.model.AccountTypeManager;
 import com.android.contacts.common.model.ValuesDelta;
 import com.android.contacts.common.model.account.AccountType;
 import com.android.contacts.common.test.NeededForTesting;
 import com.google.common.collect.Lists;
 import com.google.common.collect.Maps;

 import java.util.ArrayList;
 import java.util.HashMap;

 /**
  * Contains a {@link RawContact} and records any modifications separately so the
  * original {@link RawContact} can be swapped out with a newer version and the
  * changes still cleanly applied.
  * <p>
  * One benefit of this approach is that we can build changes entirely on an
  * empty {@link RawContact}, which then becomes an insert {@link RawContacts} case.
  * <p>
  * When applying modifications over an {@link RawContact}, we try finding the
  * original {@link Data#_ID} rows where the modifications took place. If those
  * rows are missing from the new {@link RawContact}, we know the original data must
  * be deleted, but to preserve the user modifications we treat as an insert.
  */
 public class RawContactDelta implements Parcelable {
     // TODO: optimize by using contentvalues pool, since we allocate so many of them

     private static final String TAG = "EntityDelta";
     private static final boolean LOGV = false;

     /**
      * Direct values from {@link Entity#getEntityValues()}.
      */
     private ValuesDelta mValues;

     /**
      * URI used for contacts queries, by default it is set to query raw contacts.
      * It can be set to query the profile's raw contact(s).
      */
     private Uri mContactsQueryUri = RawContacts.CONTENT_URI;

     /**
      * Internal map of children values from {@link Entity#getSubValues()}, which
      * we store here sorted into {@link Data#MIMETYPE} bins.
      */
     private final HashMap<String, ArrayList<ValuesDelta>> mEntries = Maps.newHashMap();

     public RawContactDelta() {
     }

     public RawContactDelta(ValuesDelta values) {
         mValues = values;
     }

     /**
      * Build an {@link RawContactDelta} using the given {@link RawContact} as a
      * starting point; the "before" snapshot.
      */
     public static RawContactDelta fromBefore(RawContact before) {
         final RawContactDelta rawContactDelta = new RawContactDelta();
         rawContactDelta.mValues = ValuesDelta.fromBefore(before.getValues());
         rawContactDelta.mValues.setIdColumn(RawContacts._ID);
         for (final ContentValues values : before.getContentValues()) {
             rawContactDelta.addEntry(ValuesDelta.fromBefore(values));
         }
         return rawContactDelta;
     }

     /**
      * Merge the "after" values from the given {@link RawContactDelta} onto the
      * "before" state represented by this {@link RawContactDelta}, discarding any
      * existing "after" states. This is typically used when re-parenting changes
      * onto an updated {@link Entity}.
      */
     public static RawContactDelta mergeAfter(RawContactDelta local, RawContactDelta remote) {
         // Bail early if trying to merge delete with missing local
         final ValuesDelta remoteValues = remote.mValues;
         if (local == null && (remoteValues.isDelete() || remoteValues.isTransient())) return null;

         // Create local version if none exists yet
         if (local == null) local = new RawContactDelta();

         if (LOGV) {
             final Long localVersion = (local.mValues == null) ? null : local.mValues
                     .getAsLong(RawContacts.VERSION);
             final Long remoteVersion = remote.mValues.getAsLong(RawContacts.VERSION);
             Log.d(TAG, "Re-parenting from original version " + remoteVersion + " to "
                     + localVersion);
         }

         // Create values if needed, and merge "after" changes
         local.mValues = ValuesDelta.mergeAfter(local.mValues, remote.mValues);

         // Find matching local entry for each remote values, or create
         for (ArrayList<ValuesDelta> mimeEntries : remote.mEntries.values()) {
             for (ValuesDelta remoteEntry : mimeEntries) {
                 final Long childId = remoteEntry.getId();

                 // Find or create local match and merge
                 final ValuesDelta localEntry = local.getEntry(childId);
                 final ValuesDelta merged = ValuesDelta.mergeAfter(localEntry, remoteEntry);

                 if (localEntry == null && merged != null) {
                     // No local entry before, so insert
                     local.addEntry(merged);
                 }
             }
         }

         return local;
     }

     public ValuesDelta getValues() {
         return mValues;
     }

     public boolean isContactInsert() {
         return mValues.isInsert();
     }

     /**
      * Get the {@link ValuesDelta} child marked as {@link Data#IS_PRIMARY},
      * which may return null when no entry exists.
      */
     public ValuesDelta getPrimaryEntry(String mimeType) {
         final ArrayList<ValuesDelta> mimeEntries = getMimeEntries(mimeType, false);
         if (mimeEntries == null) return null;

         for (ValuesDelta entry : mimeEntries) {
             if (entry.isPrimary()) {
                 return entry;
             }
         }

         // When no direct primary, return something
         return mimeEntries.size() > 0 ? mimeEntries.get(0) : null;
     }

     /**
      * calls {@link #getSuperPrimaryEntry(String, boolean)} with true
      * @see #getSuperPrimaryEntry(String, boolean)
      */
     public ValuesDelta getSuperPrimaryEntry(String mimeType) {
         return getSuperPrimaryEntry(mimeType, true);
     }

     /**
      * Returns the super-primary entry for the given mime type
      * @param forceSelection if true, will try to return some value even if a super-primary
      *     doesn't exist (may be a primary, or just a random item
      * @return
      */
     @NeededForTesting
     public ValuesDelta getSuperPrimaryEntry(String mimeType, boolean forceSelection) {
         final ArrayList<ValuesDelta> mimeEntries = getMimeEntries(mimeType, false);
         if (mimeEntries == null) return null;

         ValuesDelta primary = null;
         for (ValuesDelta entry : mimeEntries) {
             if (entry.isSuperPrimary()) {
                 return entry;
             } else if (entry.isPrimary()) {
                 primary = entry;
             }
         }

         if (!forceSelection) {
             return null;
         }

         // When no direct super primary, return something
         if (primary != null) {
             return primary;
         }
         return mimeEntries.size() > 0 ? mimeEntries.get(0) : null;
     }

     /**
      * Return the AccountType that this raw-contact belongs to.
      */
     public AccountType getRawContactAccountType(Context context) {
         ContentValues entityValues = getValues().getCompleteValues();
         String type = entityValues.getAsString(RawContacts.ACCOUNT_TYPE);
         String dataSet = entityValues.getAsString(RawContacts.DATA_SET);
         return AccountTypeManager.getInstance(context).getAccountType(type, dataSet);
     }

     public Long getRawContactId() {
         return getValues().getAsLong(RawContacts._ID);
     }

     public String getAccountName() {
         return getValues().getAsString(RawContacts.ACCOUNT_NAME);
     }

     public String getAccountType() {
         return getValues().getAsString(RawContacts.ACCOUNT_TYPE);
     }

     public String getDataSet() {
         return getValues().getAsString(RawContacts.DATA_SET);
     }

     public AccountType getAccountType(AccountTypeManager manager) {
         return manager.getAccountType(getAccountType(), getDataSet());
     }

     public boolean isVisible() {
         return getValues().isVisible();
     }

     /**
      * Return the list of child {@link ValuesDelta} from our optimized map,
      * creating the list if requested.
      */
     private ArrayList<ValuesDelta> getMimeEntries(String mimeType, boolean lazyCreate) {
         ArrayList<ValuesDelta> mimeEntries = mEntries.get(mimeType);
         if (mimeEntries == null && lazyCreate) {
             mimeEntries = Lists.newArrayList();
             mEntries.put(mimeType, mimeEntries);
         }
         return mimeEntries;
     }

     public ArrayList<ValuesDelta> getMimeEntries(String mimeType) {
         return getMimeEntries(mimeType, false);
     }

     public int getMimeEntriesCount(String mimeType, boolean onlyVisible) {
         final ArrayList<ValuesDelta> mimeEntries = getMimeEntries(mimeType);
         if (mimeEntries == null) return 0;

         int count = 0;
         for (ValuesDelta child : mimeEntries) {
             // Skip deleted items when requesting only visible
             if (onlyVisible && !child.isVisible()) continue;
             count++;
         }
         return count;
     }

     public boolean hasMimeEntries(String mimeType) {
         return mEntries.containsKey(mimeType);
     }

     public ValuesDelta addEntry(ValuesDelta entry) {
         final String mimeType = entry.getMimetype();
         getMimeEntries(mimeType, true).add(entry);
         return entry;
     }

     public ArrayList<ContentValues> getContentValues() {
         ArrayList<ContentValues> values = Lists.newArrayList();
         for (ArrayList<ValuesDelta> mimeEntries : mEntries.values()) {
             for (ValuesDelta entry : mimeEntries) {
                 if (!entry.isDelete()) {
                     values.add(entry.getCompleteValues());
                 }
             }
         }
         return values;
     }

     /**
      * Find entry with the given {@link BaseColumns#_ID} value.
      */
     public ValuesDelta getEntry(Long childId) {
         if (childId == null) {
             // Requesting an "insert" entry, which has no "before"
             return null;
         }

         // Search all children for requested entry
         for (ArrayList<ValuesDelta> mimeEntries : mEntries.values()) {
             for (ValuesDelta entry : mimeEntries) {
                 if (childId.equals(entry.getId())) {
                     return entry;
                 }
             }
         }
         return null;
     }

     /**
      * Return the total number of {@link ValuesDelta} contained.
      */
     public int getEntryCount(boolean onlyVisible) {
         int count = 0;
         for (String mimeType : mEntries.keySet()) {
             count += getMimeEntriesCount(mimeType, onlyVisible);
         }
         return count;
     }

     @Override
     public boolean equals(Object object) {
         if (object instanceof RawContactDelta) {
             final RawContactDelta other = (RawContactDelta)object;

             // Equality failed if parent values different
             if (!other.mValues.equals(mValues)) return false;

             for (ArrayList<ValuesDelta> mimeEntries : mEntries.values()) {
                 for (ValuesDelta child : mimeEntries) {
                     // Equality failed if any children unmatched
                     if (!other.containsEntry(child)) return false;
                 }
             }

             // Passed all tests, so equal
             return true;
         }
         return false;
     }

     private boolean containsEntry(ValuesDelta entry) {
         for (ArrayList<ValuesDelta> mimeEntries : mEntries.values()) {
             for (ValuesDelta child : mimeEntries) {
                 // Contained if we find any child that matches
                 if (child.equals(entry)) return true;
             }
         }
         return false;
     }

     /**
      * Mark this entire object deleted, including any {@link ValuesDelta}.
      */
     public void markDeleted() {
         this.mValues.markDeleted();
         for (ArrayList<ValuesDelta> mimeEntries : mEntries.values()) {
             for (ValuesDelta child : mimeEntries) {
                 child.markDeleted();
             }
         }
     }

     @Override
     public String toString() {
         final StringBuilder builder = new StringBuilder();
         builder.append("\n(");
         builder.append("Uri=");
         builder.append(mContactsQueryUri);
         builder.append(", Values=");
         builder.append(mValues != null ? mValues.toString() : "null");
         builder.append(", Entries={");
         for (ArrayList<ValuesDelta> mimeEntries : mEntries.values()) {
             for (ValuesDelta child : mimeEntries) {
                 builder.append("\n\t");
                 child.toString(builder);
             }
         }
         builder.append("\n})\n");
         return builder.toString();
     }

     /**
      * Consider building the given {@link ContentProviderOperation.Builder} and
      * appending it to the given list, which only happens if builder is valid.
      */
     private void possibleAdd(ArrayList<ContentProviderOperation> diff,
             ContentProviderOperation.Builder builder) {
         if (builder != null) {
             diff.add(builder.build());
         }
     }

     /**
      * Build a list of {@link ContentProviderOperation} that will assert any
      * "before" state hasn't changed. This is maintained separately so that all
      * asserts can take place before any updates occur.
      */
     public void buildAssert(ArrayList<ContentProviderOperation> buildInto) {
         final boolean isContactInsert = mValues.isInsert();
         if (!isContactInsert) {
             // Assert version is consistent while persisting changes
             final Long beforeId = mValues.getId();
             final Long beforeVersion = mValues.getAsLong(RawContacts.VERSION);
             if (beforeId == null || beforeVersion == null) return;

             final ContentProviderOperation.Builder builder = ContentProviderOperation
                     .newAssertQuery(mContactsQueryUri);
             builder.withSelection(RawContacts._ID + "=" + beforeId, null);
             builder.withValue(RawContacts.VERSION, beforeVersion);
             buildInto.add(builder.build());
         }
     }

     /**
      * Build a list of {@link ContentProviderOperation} that will transform the
      * current "before" {@link Entity} state into the modified state which this
      * {@link RawContactDelta} represents.
      */
     public void buildDiff(ArrayList<ContentProviderOperation> buildInto) {
         final int firstIndex = buildInto.size();

         final boolean isContactInsert = mValues.isInsert();
         final boolean isContactDelete = mValues.isDelete();
         final boolean isContactUpdate = !isContactInsert && !isContactDelete;

         final Long beforeId = mValues.getId();

         Builder builder;

         if (isContactInsert) {
             // TODO: for now simply disabling aggregation when a new contact is
             // created on the phone.  In the future, will show aggregation suggestions
             // after saving the contact.
             mValues.put(RawContacts.AGGREGATION_MODE, RawContacts.AGGREGATION_MODE_SUSPENDED);
         }

         // Build possible operation at Contact level
         builder = mValues.buildDiff(mContactsQueryUri);
         possibleAdd(buildInto, builder);

         // Build operations for all children
         for (ArrayList<ValuesDelta> mimeEntries : mEntries.values()) {
             for (ValuesDelta child : mimeEntries) {
                 // Ignore children if parent was deleted
                 if (isContactDelete) continue;

                 // Use the profile data URI if the contact is the profile.
                 if (mContactsQueryUri.equals(Profile.CONTENT_RAW_CONTACTS_URI)) {
                     builder = child.buildDiff(Uri.withAppendedPath(Profile.CONTENT_URI,
                             RawContacts.Data.CONTENT_DIRECTORY));
                 } else {
                     builder = child.buildDiff(Data.CONTENT_URI);
                 }

                 if (child.isInsert()) {
                     if (isContactInsert) {
                         // Parent is brand new insert, so back-reference _id
                         builder.withValueBackReference(Data.RAW_CONTACT_ID, firstIndex);
                     } else {
                         // Inserting under existing, so fill with known _id
                         builder.withValue(Data.RAW_CONTACT_ID, beforeId);
                     }
                 } else if (isContactInsert && builder != null) {
                     // Child must be insert when Contact insert
                     throw new IllegalArgumentException("When parent insert, child must be also");
                 }
                 possibleAdd(buildInto, builder);
             }
         }

         final boolean addedOperations = buildInto.size() > firstIndex;
         if (addedOperations && isContactUpdate) {
             // Suspend aggregation while persisting updates
             builder = buildSetAggregationMode(beforeId, RawContacts.AGGREGATION_MODE_SUSPENDED);
             buildInto.add(firstIndex, builder.build());

             // Restore aggregation mode as last operation
             builder = buildSetAggregationMode(beforeId, RawContacts.AGGREGATION_MODE_DEFAULT);
             buildInto.add(builder.build());
         } else if (isContactInsert) {
             // Restore aggregation mode as last operation
             builder = ContentProviderOperation.newUpdate(mContactsQueryUri);
             builder.withValue(RawContacts.AGGREGATION_MODE, RawContacts.AGGREGATION_MODE_DEFAULT);
             builder.withSelection(RawContacts._ID + "=?", new String[1]);
             builder.withSelectionBackReference(0, firstIndex);
             buildInto.add(builder.build());
         }
     }

     /**
      * Build a {@link ContentProviderOperation} that changes
      * {@link RawContacts#AGGREGATION_MODE} to the given value.
      */
     protected Builder buildSetAggregationMode(Long beforeId, int mode) {
         Builder builder = ContentProviderOperation.newUpdate(mContactsQueryUri);
         builder.withValue(RawContacts.AGGREGATION_MODE, mode);
         builder.withSelection(RawContacts._ID + "=" + beforeId, null);
         return builder;
     }

     /** {@inheritDoc} */
     public int describeContents() {
         // Nothing special about this parcel
         return 0;
     }

     /** {@inheritDoc} */
     public void writeToParcel(Parcel dest, int flags) {
         final int size = this.getEntryCount(false);
         dest.writeInt(size);
         dest.writeParcelable(mValues, flags);
         dest.writeParcelable(mContactsQueryUri, flags);
         for (ArrayList<ValuesDelta> mimeEntries : mEntries.values()) {
             for (ValuesDelta child : mimeEntries) {
                 dest.writeParcelable(child, flags);
             }
         }
     }

     public void readFromParcel(Parcel source) {
         final ClassLoader loader = getClass().getClassLoader();
         final int size = source.readInt();
         mValues = source.<ValuesDelta> readParcelable(loader);
         mContactsQueryUri = source.<Uri> readParcelable(loader);
         for (int i = 0; i < size; i++) {
             final ValuesDelta child = source.<ValuesDelta> readParcelable(loader);
             this.addEntry(child);
         }
     }

     /**
      * Used to set the query URI to the profile URI to store profiles.
      */
     public void setProfileQueryUri() {
         mContactsQueryUri = Profile.CONTENT_RAW_CONTACTS_URI;
     }

     public static final Parcelable.Creator<RawContactDelta> CREATOR =
             new Parcelable.Creator<RawContactDelta>() {
         public RawContactDelta createFromParcel(Parcel in) {
             final RawContactDelta state = new RawContactDelta();
             state.readFromParcel(in);
             return state;
         }

         public RawContactDelta[] newArray(int size) {
             return new RawContactDelta[size];
         }
     };

 }
	/*
	* Copyright (C) 2009 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License 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.android.contacts.model;

	import android.content.ContentProviderOperation;
	import android.content.ContentProviderOperation.Builder;
	import android.content.ContentValues;
	import android.content.Context;
	import android.net.Uri;
	import android.os.Parcel;
	import android.os.Parcelable;
	import android.provider.BaseColumns;
	import android.provider.ContactsContract.Data;
	import android.provider.ContactsContract.Profile;
	import android.provider.ContactsContract.RawContacts;
	import android.util.Log;

	import com.android.contacts.common.model.AccountTypeManager;
	import com.android.contacts.common.model.ValuesDelta;
	import com.android.contacts.common.model.account.AccountType;
	import com.android.contacts.common.test.NeededForTesting;
	import com.google.common.collect.Lists;
	import com.google.common.collect.Maps;

	import java.util.ArrayList;
	import java.util.HashMap;

	/**
	* Contains a {@link RawContact} and records any modifications separately so the
	* original {@link RawContact} can be swapped out with a newer version and the
	* changes still cleanly applied.
	* <p>
	* One benefit of this approach is that we can build changes entirely on an
	* empty {@link RawContact}, which then becomes an insert {@link RawContacts} case.
	* <p>
	* When applying modifications over an {@link RawContact}, we try finding the
	* original {@link Data#_ID} rows where the modifications took place. If those
	* rows are missing from the new {@link RawContact}, we know the original data must
	* be deleted, but to preserve the user modifications we treat as an insert.
	*/
	public class RawContactDelta implements Parcelable {
	// TODO: optimize by using contentvalues pool, since we allocate so many of them

	private static final String TAG = "EntityDelta";
	private static final boolean LOGV = false;

	/**
	* Direct values from {@link Entity#getEntityValues()}.
	*/
	private ValuesDelta mValues;

	/**
	* URI used for contacts queries, by default it is set to query raw contacts.
	* It can be set to query the profile's raw contact(s).
	*/
	private Uri mContactsQueryUri = RawContacts.CONTENT_URI;

	/**
	* Internal map of children values from {@link Entity#getSubValues()}, which
	* we store here sorted into {@link Data#MIMETYPE} bins.
	*/
	private final HashMap<String, ArrayList<ValuesDelta>> mEntries = Maps.newHashMap();

	public RawContactDelta() {
	}

	public RawContactDelta(ValuesDelta values) {
	mValues = values;
	}

	/**
	* Build an {@link RawContactDelta} using the given {@link RawContact} as a
	* starting point; the "before" snapshot.
	*/
	public static RawContactDelta fromBefore(RawContact before) {
	final RawContactDelta rawContactDelta = new RawContactDelta();
	rawContactDelta.mValues = ValuesDelta.fromBefore(before.getValues());
	rawContactDelta.mValues.setIdColumn(RawContacts._ID);
	for (final ContentValues values : before.getContentValues()) {
	rawContactDelta.addEntry(ValuesDelta.fromBefore(values));
	}
	return rawContactDelta;
	}

	/**
	* Merge the "after" values from the given {@link RawContactDelta} onto the
	* "before" state represented by this {@link RawContactDelta}, discarding any
	* existing "after" states. This is typically used when re-parenting changes
	* onto an updated {@link Entity}.
	*/
	public static RawContactDelta mergeAfter(RawContactDelta local, RawContactDelta remote) {
	// Bail early if trying to merge delete with missing local
	final ValuesDelta remoteValues = remote.mValues;
	if (local == null && (remoteValues.isDelete() \|\| remoteValues.isTransient())) return null;

	// Create local version if none exists yet
	if (local == null) local = new RawContactDelta();

	if (LOGV) {
	final Long localVersion = (local.mValues == null) ? null : local.mValues
	.getAsLong(RawContacts.VERSION);
	final Long remoteVersion = remote.mValues.getAsLong(RawContacts.VERSION);
	Log.d(TAG, "Re-parenting from original version " + remoteVersion + " to "
	+ localVersion);
	}

	// Create values if needed, and merge "after" changes
	local.mValues = ValuesDelta.mergeAfter(local.mValues, remote.mValues);

	// Find matching local entry for each remote values, or create
	for (ArrayList<ValuesDelta> mimeEntries : remote.mEntries.values()) {
	for (ValuesDelta remoteEntry : mimeEntries) {
	final Long childId = remoteEntry.getId();

	// Find or create local match and merge
	final ValuesDelta localEntry = local.getEntry(childId);
	final ValuesDelta merged = ValuesDelta.mergeAfter(localEntry, remoteEntry);

	if (localEntry == null && merged != null) {
	// No local entry before, so insert
	local.addEntry(merged);
	}
	}
	}

	return local;
	}

	public ValuesDelta getValues() {
	return mValues;
	}

	public boolean isContactInsert() {
	return mValues.isInsert();
	}

	/**
	* Get the {@link ValuesDelta} child marked as {@link Data#IS_PRIMARY},
	* which may return null when no entry exists.
	*/
	public ValuesDelta getPrimaryEntry(String mimeType) {
	final ArrayList<ValuesDelta> mimeEntries = getMimeEntries(mimeType, false);
	if (mimeEntries == null) return null;

	for (ValuesDelta entry : mimeEntries) {
	if (entry.isPrimary()) {
	return entry;
	}
	}

	// When no direct primary, return something
	return mimeEntries.size() > 0 ? mimeEntries.get(0) : null;
	}

	/**
	* calls {@link #getSuperPrimaryEntry(String, boolean)} with true
	* @see #getSuperPrimaryEntry(String, boolean)
	*/
	public ValuesDelta getSuperPrimaryEntry(String mimeType) {
	return getSuperPrimaryEntry(mimeType, true);
	}

	/**
	* Returns the super-primary entry for the given mime type
	* @param forceSelection if true, will try to return some value even if a super-primary
	* doesn't exist (may be a primary, or just a random item
	* @return
	*/
	@NeededForTesting
	public ValuesDelta getSuperPrimaryEntry(String mimeType, boolean forceSelection) {
	final ArrayList<ValuesDelta> mimeEntries = getMimeEntries(mimeType, false);
	if (mimeEntries == null) return null;

	ValuesDelta primary = null;
	for (ValuesDelta entry : mimeEntries) {
	if (entry.isSuperPrimary()) {
	return entry;
	} else if (entry.isPrimary()) {
	primary = entry;
	}
	}

	if (!forceSelection) {
	return null;
	}

	// When no direct super primary, return something
	if (primary != null) {
	return primary;
	}
	return mimeEntries.size() > 0 ? mimeEntries.get(0) : null;
	}

	/**
	* Return the AccountType that this raw-contact belongs to.
	*/
	public AccountType getRawContactAccountType(Context context) {
	ContentValues entityValues = getValues().getCompleteValues();
	String type = entityValues.getAsString(RawContacts.ACCOUNT_TYPE);
	String dataSet = entityValues.getAsString(RawContacts.DATA_SET);
	return AccountTypeManager.getInstance(context).getAccountType(type, dataSet);
	}

	public Long getRawContactId() {
	return getValues().getAsLong(RawContacts._ID);
	}

	public String getAccountName() {
	return getValues().getAsString(RawContacts.ACCOUNT_NAME);
	}

	public String getAccountType() {
	return getValues().getAsString(RawContacts.ACCOUNT_TYPE);
	}

	public String getDataSet() {
	return getValues().getAsString(RawContacts.DATA_SET);
	}

	public AccountType getAccountType(AccountTypeManager manager) {
	return manager.getAccountType(getAccountType(), getDataSet());
	}

	public boolean isVisible() {
	return getValues().isVisible();
	}

	/**
	* Return the list of child {@link ValuesDelta} from our optimized map,
	* creating the list if requested.
	*/
	private ArrayList<ValuesDelta> getMimeEntries(String mimeType, boolean lazyCreate) {
	ArrayList<ValuesDelta> mimeEntries = mEntries.get(mimeType);
	if (mimeEntries == null && lazyCreate) {
	mimeEntries = Lists.newArrayList();
	mEntries.put(mimeType, mimeEntries);
	}
	return mimeEntries;
	}

	public ArrayList<ValuesDelta> getMimeEntries(String mimeType) {
	return getMimeEntries(mimeType, false);
	}

	public int getMimeEntriesCount(String mimeType, boolean onlyVisible) {
	final ArrayList<ValuesDelta> mimeEntries = getMimeEntries(mimeType);
	if (mimeEntries == null) return 0;

	int count = 0;
	for (ValuesDelta child : mimeEntries) {
	// Skip deleted items when requesting only visible
	if (onlyVisible && !child.isVisible()) continue;
	count++;
	}
	return count;
	}

	public boolean hasMimeEntries(String mimeType) {
	return mEntries.containsKey(mimeType);
	}

	public ValuesDelta addEntry(ValuesDelta entry) {
	final String mimeType = entry.getMimetype();
	getMimeEntries(mimeType, true).add(entry);
	return entry;
	}

	public ArrayList<ContentValues> getContentValues() {
	ArrayList<ContentValues> values = Lists.newArrayList();
	for (ArrayList<ValuesDelta> mimeEntries : mEntries.values()) {
	for (ValuesDelta entry : mimeEntries) {
	if (!entry.isDelete()) {
	values.add(entry.getCompleteValues());
	}
	}
	}
	return values;
	}

	/**
	* Find entry with the given {@link BaseColumns#_ID} value.
	*/
	public ValuesDelta getEntry(Long childId) {
	if (childId == null) {
	// Requesting an "insert" entry, which has no "before"
	return null;
	}

	// Search all children for requested entry
	for (ArrayList<ValuesDelta> mimeEntries : mEntries.values()) {
	for (ValuesDelta entry : mimeEntries) {
	if (childId.equals(entry.getId())) {
	return entry;
	}
	}
	}
	return null;
	}

	/**
	* Return the total number of {@link ValuesDelta} contained.
	*/
	public int getEntryCount(boolean onlyVisible) {
	int count = 0;
	for (String mimeType : mEntries.keySet()) {
	count += getMimeEntriesCount(mimeType, onlyVisible);
	}
	return count;
	}

	@Override
	public boolean equals(Object object) {
	if (object instanceof RawContactDelta) {
	final RawContactDelta other = (RawContactDelta)object;

	// Equality failed if parent values different
	if (!other.mValues.equals(mValues)) return false;

	for (ArrayList<ValuesDelta> mimeEntries : mEntries.values()) {
	for (ValuesDelta child : mimeEntries) {
	// Equality failed if any children unmatched
	if (!other.containsEntry(child)) return false;
	}
	}

	// Passed all tests, so equal
	return true;
	}
	return false;
	}

	private boolean containsEntry(ValuesDelta entry) {
	for (ArrayList<ValuesDelta> mimeEntries : mEntries.values()) {
	for (ValuesDelta child : mimeEntries) {
	// Contained if we find any child that matches
	if (child.equals(entry)) return true;
	}
	}
	return false;
	}

	/**
	* Mark this entire object deleted, including any {@link ValuesDelta}.
	*/
	public void markDeleted() {
	this.mValues.markDeleted();
	for (ArrayList<ValuesDelta> mimeEntries : mEntries.values()) {
	for (ValuesDelta child : mimeEntries) {
	child.markDeleted();
	}
	}
	}

	@Override
	public String toString() {
	final StringBuilder builder = new StringBuilder();
	builder.append("\n(");
	builder.append("Uri=");
	builder.append(mContactsQueryUri);
	builder.append(", Values=");
	builder.append(mValues != null ? mValues.toString() : "null");
	builder.append(", Entries={");
	for (ArrayList<ValuesDelta> mimeEntries : mEntries.values()) {
	for (ValuesDelta child : mimeEntries) {
	builder.append("\n\t");
	child.toString(builder);
	}
	}
	builder.append("\n})\n");
	return builder.toString();
	}

	/**
	* Consider building the given {@link ContentProviderOperation.Builder} and
	* appending it to the given list, which only happens if builder is valid.
	*/
	private void possibleAdd(ArrayList<ContentProviderOperation> diff,
	ContentProviderOperation.Builder builder) {
	if (builder != null) {
	diff.add(builder.build());
	}
	}

	/**
	* Build a list of {@link ContentProviderOperation} that will assert any
	* "before" state hasn't changed. This is maintained separately so that all
	* asserts can take place before any updates occur.
	*/
	public void buildAssert(ArrayList<ContentProviderOperation> buildInto) {
	final boolean isContactInsert = mValues.isInsert();
	if (!isContactInsert) {
	// Assert version is consistent while persisting changes
	final Long beforeId = mValues.getId();
	final Long beforeVersion = mValues.getAsLong(RawContacts.VERSION);
	if (beforeId == null \|\| beforeVersion == null) return;

	final ContentProviderOperation.Builder builder = ContentProviderOperation
	.newAssertQuery(mContactsQueryUri);
	builder.withSelection(RawContacts._ID + "=" + beforeId, null);
	builder.withValue(RawContacts.VERSION, beforeVersion);
	buildInto.add(builder.build());
	}
	}

	/**
	* Build a list of {@link ContentProviderOperation} that will transform the
	* current "before" {@link Entity} state into the modified state which this
	* {@link RawContactDelta} represents.
	*/
	public void buildDiff(ArrayList<ContentProviderOperation> buildInto) {
	final int firstIndex = buildInto.size();

	final boolean isContactInsert = mValues.isInsert();
	final boolean isContactDelete = mValues.isDelete();
	final boolean isContactUpdate = !isContactInsert && !isContactDelete;

	final Long beforeId = mValues.getId();

	Builder builder;

	if (isContactInsert) {
	// TODO: for now simply disabling aggregation when a new contact is
	// created on the phone. In the future, will show aggregation suggestions
	// after saving the contact.
	mValues.put(RawContacts.AGGREGATION_MODE, RawContacts.AGGREGATION_MODE_SUSPENDED);
	}

	// Build possible operation at Contact level
	builder = mValues.buildDiff(mContactsQueryUri);
	possibleAdd(buildInto, builder);

	// Build operations for all children
	for (ArrayList<ValuesDelta> mimeEntries : mEntries.values()) {
	for (ValuesDelta child : mimeEntries) {
	// Ignore children if parent was deleted
	if (isContactDelete) continue;

	// Use the profile data URI if the contact is the profile.
	if (mContactsQueryUri.equals(Profile.CONTENT_RAW_CONTACTS_URI)) {
	builder = child.buildDiff(Uri.withAppendedPath(Profile.CONTENT_URI,
	RawContacts.Data.CONTENT_DIRECTORY));
	} else {
	builder = child.buildDiff(Data.CONTENT_URI);
	}

	if (child.isInsert()) {
	if (isContactInsert) {
	// Parent is brand new insert, so back-reference _id
	builder.withValueBackReference(Data.RAW_CONTACT_ID, firstIndex);
	} else {
	// Inserting under existing, so fill with known _id
	builder.withValue(Data.RAW_CONTACT_ID, beforeId);
	}
	} else if (isContactInsert && builder != null) {
	// Child must be insert when Contact insert
	throw new IllegalArgumentException("When parent insert, child must be also");
	}
	possibleAdd(buildInto, builder);
	}
	}

	final boolean addedOperations = buildInto.size() > firstIndex;
	if (addedOperations && isContactUpdate) {
	// Suspend aggregation while persisting updates
	builder = buildSetAggregationMode(beforeId, RawContacts.AGGREGATION_MODE_SUSPENDED);
	buildInto.add(firstIndex, builder.build());

	// Restore aggregation mode as last operation
	builder = buildSetAggregationMode(beforeId, RawContacts.AGGREGATION_MODE_DEFAULT);
	buildInto.add(builder.build());
	} else if (isContactInsert) {
	// Restore aggregation mode as last operation
	builder = ContentProviderOperation.newUpdate(mContactsQueryUri);
	builder.withValue(RawContacts.AGGREGATION_MODE, RawContacts.AGGREGATION_MODE_DEFAULT);
	builder.withSelection(RawContacts._ID + "=?", new String[1]);
	builder.withSelectionBackReference(0, firstIndex);
	buildInto.add(builder.build());
	}
	}

	/**
	* Build a {@link ContentProviderOperation} that changes
	* {@link RawContacts#AGGREGATION_MODE} to the given value.
	*/
	protected Builder buildSetAggregationMode(Long beforeId, int mode) {
	Builder builder = ContentProviderOperation.newUpdate(mContactsQueryUri);
	builder.withValue(RawContacts.AGGREGATION_MODE, mode);
	builder.withSelection(RawContacts._ID + "=" + beforeId, null);
	return builder;
	}

	/** {@inheritDoc} */
	public int describeContents() {
	// Nothing special about this parcel
	return 0;
	}

	/** {@inheritDoc} */
	public void writeToParcel(Parcel dest, int flags) {
	final int size = this.getEntryCount(false);
	dest.writeInt(size);
	dest.writeParcelable(mValues, flags);
	dest.writeParcelable(mContactsQueryUri, flags);
	for (ArrayList<ValuesDelta> mimeEntries : mEntries.values()) {
	for (ValuesDelta child : mimeEntries) {
	dest.writeParcelable(child, flags);
	}
	}
	}

	public void readFromParcel(Parcel source) {
	final ClassLoader loader = getClass().getClassLoader();
	final int size = source.readInt();
	mValues = source.<ValuesDelta> readParcelable(loader);
	mContactsQueryUri = source.<Uri> readParcelable(loader);
	for (int i = 0; i < size; i++) {
	final ValuesDelta child = source.<ValuesDelta> readParcelable(loader);
	this.addEntry(child);
	}
	}

	/**
	* Used to set the query URI to the profile URI to store profiles.
	*/
	public void setProfileQueryUri() {
	mContactsQueryUri = Profile.CONTENT_RAW_CONTACTS_URI;
	}

	public static final Parcelable.Creator<RawContactDelta> CREATOR =
	new Parcelable.Creator<RawContactDelta>() {
	public RawContactDelta createFromParcel(Parcel in) {
	final RawContactDelta state = new RawContactDelta();
	state.readFromParcel(in);
	return state;
	}

	public RawContactDelta[] newArray(int size) {
	return new RawContactDelta[size];
	}
	};

	}