Examples with Task bolts.Task used on opensource projects

Example 1 with Task

use of bolts.Task in project Parse-SDK-Android by ParsePlatform.

the class OfflineStore method findAsync.

/**
   * Runs a ParseQuery against the store's contents. May cause any instances of T to get fetched
   * from the offline database. TODO(klimt): Should the query consider objects that are in memory,
   * but not in the offline store?
   *
   * @param query The query.
   * @param user The user making the query.
   * @param pin (Optional) The pin we are querying across. If null, all pins.
   * @param isCount True if we are doing a count.
   * @param db The SQLiteDatabase.
   * @param <T> Subclass of ParseObject.
   * @return The objects that match the query's constraints.
   */
private <T extends ParseObject> Task<List<T>> findAsync(final ParseQuery.State<T> query, final ParseUser user, final ParsePin pin, final boolean isCount, final ParseSQLiteDatabase db) {
    /*
     * This is currently unused, but is here to allow future querying across objects that are in the
     * process of being deleted eventually.
     */
    final boolean includeIsDeletingEventually = false;
    final OfflineQueryLogic queryLogic = new OfflineQueryLogic(this);
    final List<T> results = new ArrayList<>();
    Task<Cursor> queryTask;
    if (pin == null) {
        String table = OfflineSQLiteOpenHelper.TABLE_OBJECTS;
        String[] select = { OfflineSQLiteOpenHelper.KEY_UUID };
        String where = OfflineSQLiteOpenHelper.KEY_CLASS_NAME + "=?";
        if (!includeIsDeletingEventually) {
            where += " AND " + OfflineSQLiteOpenHelper.KEY_IS_DELETING_EVENTUALLY + "=0";
        }
        String[] args = { query.className() };
        queryTask = db.queryAsync(table, select, where, args);
    } else {
        Task<String> uuidTask = objectToUuidMap.get(pin);
        if (uuidTask == null) {
            // Pin was never saved locally, therefore there won't be any results.
            return Task.forResult(results);
        }
        queryTask = uuidTask.onSuccessTask(new Continuation<String, Task<Cursor>>() {

            @Override
            public Task<Cursor> then(Task<String> task) throws Exception {
                String uuid = task.getResult();
                String table = OfflineSQLiteOpenHelper.TABLE_OBJECTS + " A " + " INNER JOIN " + OfflineSQLiteOpenHelper.TABLE_DEPENDENCIES + " B " + " ON A." + OfflineSQLiteOpenHelper.KEY_UUID + "=B." + OfflineSQLiteOpenHelper.KEY_UUID;
                String[] select = { "A." + OfflineSQLiteOpenHelper.KEY_UUID };
                String where = OfflineSQLiteOpenHelper.KEY_CLASS_NAME + "=?" + " AND " + OfflineSQLiteOpenHelper.KEY_KEY + "=?";
                if (!includeIsDeletingEventually) {
                    where += " AND " + OfflineSQLiteOpenHelper.KEY_IS_DELETING_EVENTUALLY + "=0";
                }
                String[] args = { query.className(), uuid };
                return db.queryAsync(table, select, where, args);
            }
        });
    }
    return queryTask.onSuccessTask(new Continuation<Cursor, Task<Void>>() {

        @Override
        public Task<Void> then(Task<Cursor> task) throws Exception {
            Cursor cursor = task.getResult();
            List<String> uuids = new ArrayList<>();
            for (cursor.moveToFirst(); !cursor.isAfterLast(); cursor.moveToNext()) {
                uuids.add(cursor.getString(0));
            }
            cursor.close();
            // Find objects that match the where clause.
            final ConstraintMatcher<T> matcher = queryLogic.createMatcher(query, user);
            Task<Void> checkedAllObjects = Task.forResult(null);
            for (final String uuid : uuids) {
                final Capture<T> object = new Capture<>();
                checkedAllObjects = checkedAllObjects.onSuccessTask(new Continuation<Void, Task<T>>() {

                    @Override
                    public Task<T> then(Task<Void> task) throws Exception {
                        return getPointerAsync(uuid, db);
                    }
                }).onSuccessTask(new Continuation<T, Task<T>>() {

                    @Override
                    public Task<T> then(Task<T> task) throws Exception {
                        object.set(task.getResult());
                        return fetchLocallyAsync(object.get(), db);
                    }
                }).onSuccessTask(new Continuation<T, Task<Boolean>>() {

                    @Override
                    public Task<Boolean> then(Task<T> task) throws Exception {
                        if (!object.get().isDataAvailable()) {
                            return Task.forResult(false);
                        }
                        return matcher.matchesAsync(object.get(), db);
                    }
                }).onSuccess(new Continuation<Boolean, Void>() {

                    @Override
                    public Void then(Task<Boolean> task) {
                        if (task.getResult()) {
                            results.add(object.get());
                        }
                        return null;
                    }
                });
            }
            return checkedAllObjects;
        }
    }).onSuccessTask(new Continuation<Void, Task<List<T>>>() {

        @Override
        public Task<List<T>> then(Task<Void> task) throws Exception {
            // Sort by any sort operators.
            OfflineQueryLogic.sort(results, query);
            // Apply the skip.
            List<T> trimmedResults = results;
            int skip = query.skip();
            if (!isCount && skip >= 0) {
                skip = Math.min(query.skip(), trimmedResults.size());
                trimmedResults = trimmedResults.subList(skip, trimmedResults.size());
            }
            // Trim to the limit.
            int limit = query.limit();
            if (!isCount && limit >= 0 && trimmedResults.size() > limit) {
                trimmedResults = trimmedResults.subList(0, limit);
            }
            // Fetch the includes.
            Task<Void> fetchedIncludesTask = Task.forResult(null);
            for (final T object : trimmedResults) {
                fetchedIncludesTask = fetchedIncludesTask.onSuccessTask(new Continuation<Void, Task<Void>>() {

                    @Override
                    public Task<Void> then(Task<Void> task) throws Exception {
                        return OfflineQueryLogic.fetchIncludesAsync(OfflineStore.this, object, query, db);
                    }
                });
            }
            final List<T> finalTrimmedResults = trimmedResults;
            return fetchedIncludesTask.onSuccess(new Continuation<Void, List<T>>() {

                @Override
                public List<T> then(Task<Void> task) throws Exception {
                    return finalTrimmedResults;
                }
            });
        }
    });
}

Example 2 with Task

use of bolts.Task in project Parse-SDK-Android by ParsePlatform.

the class OfflineStore method fetchLocallyAsync.

/**
   * Gets the data for the given object from the offline database. Returns a task that will be
   * completed if data for the object was available. If the object is not in the cache, the task
   * will be faulted, with a CACHE_MISS error.
   *
   * @param object
   *          The object to fetch.
   * @param db
   *          A database connection to use.
   */
/* package for OfflineQueryLogic */
<T extends ParseObject> Task<T> fetchLocallyAsync(final T object, final ParseSQLiteDatabase db) {
    final TaskCompletionSource<T> tcs = new TaskCompletionSource<>();
    Task<String> uuidTask;
    synchronized (lock) {
        if (fetchedObjects.containsKey(object)) {
            //noinspection unchecked
            return (Task<T>) fetchedObjects.get(object);
        }
        /*
       * Put a placeholder so that anyone else who attempts to fetch this object will just wait for
       * this call to finish doing it.
       */
        //noinspection unchecked
        fetchedObjects.put(object, (Task<ParseObject>) tcs.getTask());
        uuidTask = objectToUuidMap.get(object);
    }
    String className = object.getClassName();
    String objectId = object.getObjectId();
    /*
     * If this gets set, then it will contain data from the offline store that needs to be merged
     * into the existing object in memory.
     */
    Task<String> jsonStringTask = Task.forResult(null);
    if (objectId == null) {
        // This Object has never been saved to Parse.
        if (uuidTask == null) {
        /*
         * This object was not pulled from the data store or previously saved to it, so there's
         * nothing that can be fetched from it. This isn't an error, because it's really convenient
         * to try to fetch objects from the offline store just to make sure they are up-to-date, and
         * we shouldn't force developers to specially handle this case.
         */
        } else {
            /*
         * This object is a new ParseObject that is known to the data store, but hasn't been
         * fetched. The only way this could happen is if the object had previously been stored in
         * the offline store, then the object was removed from memory (maybe by rebooting), and then
         * a object with a pointer to it was fetched, so we only created the pointer. We need to
         * pull the data out of the database using the UUID.
         */
            final String[] select = { OfflineSQLiteOpenHelper.KEY_JSON };
            final String where = OfflineSQLiteOpenHelper.KEY_UUID + " = ?";
            final Capture<String> uuid = new Capture<>();
            jsonStringTask = uuidTask.onSuccessTask(new Continuation<String, Task<Cursor>>() {

                @Override
                public Task<Cursor> then(Task<String> task) throws Exception {
                    uuid.set(task.getResult());
                    String[] args = { uuid.get() };
                    return db.queryAsync(OfflineSQLiteOpenHelper.TABLE_OBJECTS, select, where, args);
                }
            }).onSuccess(new Continuation<Cursor, String>() {

                @Override
                public String then(Task<Cursor> task) throws Exception {
                    Cursor cursor = task.getResult();
                    cursor.moveToFirst();
                    if (cursor.isAfterLast()) {
                        cursor.close();
                        throw new IllegalStateException("Attempted to find non-existent uuid " + uuid.get());
                    }
                    String json = cursor.getString(0);
                    cursor.close();
                    return json;
                }
            });
        }
    } else {
        if (uuidTask != null) {
            /*
         * This object is an existing ParseObject, and we must've already pulled its data out of the
         * offline store, or else we wouldn't know its UUID. This should never happen.
         */
            tcs.setError(new IllegalStateException("This object must have already been " + "fetched from the local datastore, but isn't marked as fetched."));
            synchronized (lock) {
                // Forget we even tried to fetch this object, so that retries will actually... retry.
                fetchedObjects.remove(object);
            }
            return tcs.getTask();
        }
        /*
       * We've got a pointer to an existing ParseObject, but we've never pulled its data out of the
       * offline store. Since fetching from the server forces a fetch from the offline store, that
       * means this is a pointer. We need to try to find any existing entry for this object in the
       * database.
       */
        String[] select = { OfflineSQLiteOpenHelper.KEY_JSON, OfflineSQLiteOpenHelper.KEY_UUID };
        String where = String.format("%s = ? AND %s = ?", OfflineSQLiteOpenHelper.KEY_CLASS_NAME, OfflineSQLiteOpenHelper.KEY_OBJECT_ID);
        String[] args = { className, objectId };
        jsonStringTask = db.queryAsync(OfflineSQLiteOpenHelper.TABLE_OBJECTS, select, where, args).onSuccess(new Continuation<Cursor, String>() {

            @Override
            public String then(Task<Cursor> task) throws Exception {
                Cursor cursor = task.getResult();
                cursor.moveToFirst();
                if (cursor.isAfterLast()) {
                    /*
                     * This is a pointer that came from Parse that references an object that has
                     * never been saved in the offline store before. This just means there's no data
                     * in the store that needs to be merged into the object.
                     */
                    cursor.close();
                    throw new ParseException(ParseException.CACHE_MISS, "This object is not available in the offline cache.");
                }
                // we should fetch its data and record its UUID for future reference.
                String jsonString = cursor.getString(0);
                String newUUID = cursor.getString(1);
                cursor.close();
                synchronized (lock) {
                    /*
                     * It's okay to put this object into the uuid map. No one will try to fetch
                     * it, because it's already in the fetchedObjects map. And no one will try to
                     * save to it without fetching it first, so everything should be just fine.
                     */
                    objectToUuidMap.put(object, Task.forResult(newUUID));
                    uuidToObjectMap.put(newUUID, object);
                }
                return jsonString;
            }
        });
    }
    return jsonStringTask.onSuccessTask(new Continuation<String, Task<Void>>() {

        @Override
        public Task<Void> then(Task<String> task) throws Exception {
            String jsonString = task.getResult();
            if (jsonString == null) {
                /*
           * This means we tried to fetch an object from the database that was never actually saved
           * locally. This probably means that its parent object was saved locally and we just
           * created a pointer to this object. This should be considered a cache miss.
           */
                return Task.forError(new ParseException(ParseException.CACHE_MISS, "Attempted to fetch an object offline which was never saved to the offline cache."));
            }
            final JSONObject json;
            try {
                /*
           * We can assume that whatever is in the database is the last known server state. The only
           * things to maintain from the in-memory object are any changes since the object was last
           * put in the database.
           */
                json = new JSONObject(jsonString);
            } catch (JSONException e) {
                return Task.forError(e);
            }
            // Fetch all the offline objects before we decode.
            final Map<String, Task<ParseObject>> offlineObjects = new HashMap<>();
            (new ParseTraverser() {

                @Override
                protected boolean visit(Object object) {
                    if (object instanceof JSONObject && ((JSONObject) object).optString("__type").equals("OfflineObject")) {
                        String uuid = ((JSONObject) object).optString("uuid");
                        offlineObjects.put(uuid, getPointerAsync(uuid, db));
                    }
                    return true;
                }
            }).setTraverseParseObjects(false).setYieldRoot(false).traverse(json);
            return Task.whenAll(offlineObjects.values()).onSuccess(new Continuation<Void, Void>() {

                @Override
                public Void then(Task<Void> task) throws Exception {
                    object.mergeREST(object.getState(), json, new OfflineDecoder(offlineObjects));
                    return null;
                }
            });
        }
    }).continueWithTask(new Continuation<Void, Task<T>>() {

        @Override
        public Task<T> then(Task<Void> task) throws Exception {
            if (task.isCancelled()) {
                tcs.setCancelled();
            } else if (task.isFaulted()) {
                tcs.setError(task.getError());
            } else {
                tcs.setResult(object);
            }
            return tcs.getTask();
        }
    });
}

Example 3 with Task

use of bolts.Task in project Parse-SDK-Android by ParsePlatform.

the class NetworkQueryController method countAsync.

/* package */
<T extends ParseObject> Task<Integer> countAsync(final ParseQuery.State<T> state, String sessionToken, boolean shouldRetry, Task<Void> ct) {
    final ParseRESTCommand command = ParseRESTQueryCommand.countCommand(state, sessionToken);
    if (shouldRetry) {
        command.enableRetrying();
    }
    return command.executeAsync(restClient, ct).onSuccessTask(new Continuation<JSONObject, Task<JSONObject>>() {

        @Override
        public Task<JSONObject> then(Task<JSONObject> task) throws Exception {
            // Cache the results, unless we are ignoring the cache
            ParseQuery.CachePolicy policy = state.cachePolicy();
            if (policy != null && policy != ParseQuery.CachePolicy.IGNORE_CACHE) {
                JSONObject result = task.getResult();
                ParseKeyValueCache.saveToKeyValueCache(command.getCacheKey(), result.toString());
            }
            return task;
        }
    }, Task.BACKGROUND_EXECUTOR).onSuccess(new Continuation<JSONObject, Integer>() {

        @Override
        public Integer then(Task<JSONObject> task) throws Exception {
            // Convert response
            return task.getResult().optInt("count");
        }
    });
}

Example 4 with Task

use of bolts.Task in project Parse-SDK-Android by ParsePlatform.

the class OfflineQueryLogic method createOrMatcher.

/**
   * Handles $or queries.
   */
private <T extends ParseObject> ConstraintMatcher<T> createOrMatcher(ParseUser user, ArrayList<QueryConstraints> queries) {
    // Make a list of all the matchers to OR together.
    final ArrayList<ConstraintMatcher<T>> matchers = new ArrayList<>();
    for (QueryConstraints constraints : queries) {
        ConstraintMatcher<T> matcher = createMatcher(user, constraints);
        matchers.add(matcher);
    }
    /*
     * Now OR together the constraints for each query.
     */
    return new ConstraintMatcher<T>(user) {

        @Override
        public Task<Boolean> matchesAsync(final T object, final ParseSQLiteDatabase db) {
            Task<Boolean> task = Task.forResult(false);
            for (final ConstraintMatcher<T> matcher : matchers) {
                task = task.onSuccessTask(new Continuation<Boolean, Task<Boolean>>() {

                    @Override
                    public Task<Boolean> then(Task<Boolean> task) throws Exception {
                        if (task.getResult()) {
                            return task;
                        }
                        return matcher.matchesAsync(object, db);
                    }
                });
            }
            return task;
        }
    };
}

Example 5 with Task

use of bolts.Task in project Parse-SDK-Android by ParsePlatform.

the class OfflineQueryLogic method fetchIncludeAsync.

/**
   * Makes sure that the object specified by path, relative to container, is fetched.
   */
private static Task<Void> fetchIncludeAsync(final OfflineStore store, final Object container, final String path, final ParseSQLiteDatabase db) throws ParseException {
    // If there's no object to include, that's fine.
    if (container == null) {
        return Task.forResult(null);
    }
    // If the container is a list or array, fetch all the sub-items.
    if (container instanceof Collection) {
        Collection<?> collection = (Collection<?>) container;
        // We do the fetches in series because it makes it easier to fail on the first error.
        Task<Void> task = Task.forResult(null);
        for (final Object item : collection) {
            task = task.onSuccessTask(new Continuation<Void, Task<Void>>() {

                @Override
                public Task<Void> then(Task<Void> task) throws Exception {
                    return fetchIncludeAsync(store, item, path, db);
                }
            });
        }
        return task;
    } else if (container instanceof JSONArray) {
        final JSONArray array = (JSONArray) container;
        // We do the fetches in series because it makes it easier to fail on the first error.
        Task<Void> task = Task.forResult(null);
        for (int i = 0; i < array.length(); ++i) {
            final int index = i;
            task = task.onSuccessTask(new Continuation<Void, Task<Void>>() {

                @Override
                public Task<Void> then(Task<Void> task) throws Exception {
                    return fetchIncludeAsync(store, array.get(index), path, db);
                }
            });
        }
        return task;
    }
    // If we've reached the end of the path, then actually do the fetch.
    if (path == null) {
        if (JSONObject.NULL.equals(container)) {
            // throwing an exception.
            return Task.forResult(null);
        } else if (container instanceof ParseObject) {
            ParseObject object = (ParseObject) container;
            return store.fetchLocallyAsync(object, db).makeVoid();
        } else {
            return Task.forError(new ParseException(ParseException.INVALID_NESTED_KEY, "include is invalid for non-ParseObjects"));
        }
    }
    // Descend into the container and try again.
    String[] parts = path.split("\\.", 2);
    final String key = parts[0];
    final String rest = (parts.length > 1 ? parts[1] : null);
    // Make sure the container is fetched.
    return Task.<Void>forResult(null).continueWithTask(new Continuation<Void, Task<Object>>() {

        @Override
        public Task<Object> then(Task<Void> task) throws Exception {
            if (container instanceof ParseObject) {
                // Make sure this object is fetched before descending into it.
                return fetchIncludeAsync(store, container, null, db).onSuccess(new Continuation<Void, Object>() {

                    @Override
                    public Object then(Task<Void> task) throws Exception {
                        return ((ParseObject) container).get(key);
                    }
                });
            } else if (container instanceof Map) {
                return Task.forResult(((Map) container).get(key));
            } else if (container instanceof JSONObject) {
                return Task.forResult(((JSONObject) container).opt(key));
            } else if (JSONObject.NULL.equals(container)) {
                // throwing an exception.
                return null;
            } else {
                return Task.forError(new IllegalStateException("include is invalid"));
            }
        }
    }).onSuccessTask(new Continuation<Object, Task<Void>>() {

        @Override
        public Task<Void> then(Task<Object> task) throws Exception {
            return fetchIncludeAsync(store, task.getResult(), rest, db);
        }
    });
}