/* * 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. */ #ifndef ANDROID_MESSAGE_QUEUE_H #define ANDROID_MESSAGE_QUEUE_H #include #include #include #include #include namespace android { // --------------------------------------------------------------------------- template class DoublyLinkedList { protected: typedef NODE_PTR_TYPE NODE_PTR; NODE_PTR mFirst; NODE_PTR mLast; public: class Node { friend class DoublyLinkedList; mutable NODE_PTR next; mutable NODE_PTR prev; public: typedef NODE_PTR PTR; inline NODE_PTR getNext() const { return next; } inline NODE_PTR getPrev() const { return prev; } void detach() { prev = 0; next = 0; } }; DoublyLinkedList() : mFirst(0), mLast(0) { } ~DoublyLinkedList() { } bool isEmpty() const { return mFirst == 0; } const NODE_PTR& head() const { return mFirst; } const NODE_PTR& tail() const { return mLast; } const NODE_PTR& head() { return mFirst; } const NODE_PTR& tail() { return mLast; } void insertAfter(const NODE_PTR& node, const NODE_PTR& newNode) { newNode->prev = node; newNode->next = node->next; if (node->next == 0) mLast = newNode; else node->next->prev = newNode; node->next = newNode; } void insertBefore(const NODE_PTR& node, const NODE_PTR& newNode) { newNode->prev = node->prev; newNode->next = node; if (node->prev == 0) mFirst = newNode; else node->prev->next = newNode; node->prev = newNode; } void insertHead(const NODE_PTR& newNode) { if (mFirst == 0) { mFirst = mLast = newNode; newNode->prev = newNode->next = 0; } else { newNode->prev = 0; newNode->next = mFirst; mFirst->prev = newNode; mFirst = newNode; } } void insertTail(const NODE_PTR& newNode) { if (mLast == 0) { insertHead(newNode); } else { newNode->prev = mLast; newNode->next = 0; mLast->next = newNode; mLast = newNode; } } NODE_PTR remove(const NODE_PTR& node) { if (node->prev == 0) mFirst = node->next; else node->prev->next = node->next; if (node->next == 0) mLast = node->prev; else node->next->prev = node->prev; return node; } }; // --------------------------------------------------------------------------- template class SortedList : protected DoublyLinkedList< NODE_PTR_TYPE > { typedef DoublyLinkedList< NODE_PTR_TYPE > forward; public: typedef NODE_PTR_TYPE NODE_PTR; inline bool isEmpty() const { return forward::isEmpty(); } inline const NODE_PTR& head() const { return forward::head(); } inline const NODE_PTR& tail() const { return forward::tail(); } inline const NODE_PTR& head() { return forward::head(); } inline const NODE_PTR& tail() { return forward::tail(); } inline NODE_PTR remove(const NODE_PTR& node) { return forward::remove(node); } void insert(const NODE_PTR& node) { NODE_PTR l(head()); while (l != 0) { if (*node < *l) { insertBefore(l, node); return; } l = l->getNext(); } insertTail(node); } }; // ============================================================================ class MessageBase : public LightRefBase, public DoublyLinkedList< sp >::Node { public: nsecs_t when; uint32_t what; int32_t arg0; MessageBase(uint32_t what=0, int32_t arg0=0) : when(0), what(what), arg0(arg0) { } // return true if message has a handler virtual bool handler() { return false; } protected: virtual ~MessageBase() { } private: friend class LightRefBase; }; inline bool operator < (const MessageBase& lhs, const MessageBase& rhs) { return lhs.when < rhs.when; } // --------------------------------------------------------------------------- /* * MessageList is a sorted list of sp */ typedef SortedList< MessageBase::Node::PTR > MessageList; // --------------------------------------------------------------------------- class MessageQueue { public: // this is a work-around the multichar constant warning. A macro would // work too, but would pollute the namespace. template struct WHAT { static const uint32_t Value = (uint32_t(a&0xff)<<24)|(uint32_t(b&0xff)<<16)| (uint32_t(c&0xff)<<8)|uint32_t(d&0xff); }; MessageQueue(); ~MessageQueue(); // pre-defined messages enum { INVALIDATE = WHAT<'_','p','d','t'>::Value }; MessageList::NODE_PTR waitMessage(nsecs_t timeout = -1); status_t postMessage(const MessageList::NODE_PTR& message, nsecs_t reltime=0, uint32_t flags = 0); status_t invalidate(); void dump(const MessageList::NODE_PTR& message); private: status_t queueMessage(const MessageList::NODE_PTR& message, nsecs_t reltime, uint32_t flags); void dumpLocked(const MessageList::NODE_PTR& message); Mutex mLock; Condition mCondition; MessageList mMessages; bool mInvalidate; MessageList::NODE_PTR mInvalidateMessage; }; // --------------------------------------------------------------------------- }; // namespace android #endif /* ANDROID_MESSAGE_QUEUE_H */