/* * Copyright (C) 2012 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. */ #include #include #include "Log.h" #include "StringUtil.h" #include "task/TaskSequential.h" #include "task/TaskCase.h" #include "task/TaskAsync.h" TaskSequential::TaskSequential() : TaskGeneric(TaskGeneric::ETaskSequential), mRepeatCount(1), mRepeatIndex(-1) { } TaskSequential::~TaskSequential() { } TaskGeneric::ExecutionResult TaskSequential::run() { mRepeatIndex = -1; bool storeIndex = (mIndexName.length() == 0 ? false: true); if (storeIndex && !getTestCase()->registerIndex(mIndexName, mRepeatIndex)) { if (!getTestCase()->updateIndex(mIndexName, mRepeatIndex)) { LOGE("register/update of index %s failed", mIndexName.string()); return TaskGeneric::EResultError; } } TaskGeneric::ExecutionResult firstError(TaskGeneric::EResultOK); for (mRepeatIndex = 0; mRepeatIndex < mRepeatCount; mRepeatIndex++) { LOGI(" TaskSequential index %s loop %d-th", mIndexName.string(), mRepeatIndex); if (storeIndex && !getTestCase()->updateIndex(mIndexName, mRepeatIndex)) { return TaskGeneric::EResultError; } std::list::iterator i = getChildren().begin(); std::list::iterator end = getChildren().end(); for (; i != end; i++) { TaskGeneric* child = *i; TaskGeneric::ExecutionResult result = child->run(); if ((result != TaskGeneric::EResultOK) && (firstError == TaskGeneric::EResultOK)) { firstError = result; break; } } TaskGeneric::ExecutionResult result = runAsyncTasksQueued(); if ((result != TaskGeneric::EResultOK) && (firstError == TaskGeneric::EResultOK)) { firstError = result; } switch (firstError) { case TaskGeneric::EResultOK: case TaskGeneric::EResultContinue: // continue at the last index should be treated as OK firstError = TaskGeneric::EResultOK; break; // continue for loop case TaskGeneric:: EResultBreakOneLoop: return TaskGeneric::EResultOK; case TaskGeneric::EResultError: case TaskGeneric::EResultFail: case TaskGeneric::EResultPass: mRepeatIndex = mRepeatCount; //exit for loop break; } } // update to the loop exit value if (storeIndex && !getTestCase()->updateIndex(mIndexName, mRepeatIndex)) { return TaskGeneric::EResultError; } return firstError; } bool TaskSequential::queueAsyncTask(TaskAsync* task) { std::list::iterator it; it = std::find(mAsyncTasks.begin(), mAsyncTasks.end(), task); if (it != mAsyncTasks.end()) { // already queued return true; } mAsyncTasks.push_back(task); return true; } TaskGeneric::ExecutionResult TaskSequential::runAsyncTasksQueued() { std::list::iterator i = mAsyncTasks.begin(); std::list::iterator end = mAsyncTasks.end(); TaskGeneric::ExecutionResult firstError(TaskGeneric::EResultOK); for (; i != end; i++) { TaskAsync* child = *i; TaskGeneric::ExecutionResult result = child->complete(); if ((result != TaskGeneric::EResultOK) && (firstError == TaskGeneric::EResultOK)) { firstError = result; } } mAsyncTasks.clear(); return firstError; } bool TaskSequential::parseAttribute(const android::String8& name, const android::String8& value) { if (StringUtil::compare(name, "repeat") == 0) { mRepeatCount = atoi(value.string()); if (mRepeatCount <= 0) { LOGE("TaskSequential::parseAttribute invalid value %s for key %s", value.string(), name.string()); return false; } return true; } else if (StringUtil::compare(name, "index") == 0) { mIndexName.append(value); LOGD("TaskSequential::parseAttribute index %s", mIndexName.string()); return true; } else { return false; } }