Mercurial > hg > svcore
view base/FileReadThread.cpp @ 101:ce1d385f4f89
* Use kill(pid, 0) instead of /proc or sysctl blather for looking up pids
* Add OpenProcess call for Win32
author | Chris Cannam |
---|---|
date | Fri, 05 May 2006 12:34:51 +0000 |
parents | 2b1a16e38d2d |
children |
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/* -*- c-basic-offset: 4 indent-tabs-mode: nil -*- vi:set ts=8 sts=4 sw=4: */ /* Sonic Visualiser An audio file viewer and annotation editor. Centre for Digital Music, Queen Mary, University of London. This file copyright 2006 Chris Cannam. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. See the file COPYING included with this distribution for more information. */ #include "FileReadThread.h" #include <iostream> #include <unistd.h> FileReadThread::FileReadThread() : m_nextToken(0), m_exiting(false) { } void FileReadThread::run() { m_mutex.lock(); while (!m_exiting) { if (m_queue.empty()) { m_condition.wait(&m_mutex, 1000); } else { process(); } notifyCancelled(); } notifyCancelled(); m_mutex.unlock(); std::cerr << "FileReadThread::run() exiting" << std::endl; } void FileReadThread::finish() { std::cerr << "FileReadThread::finish()" << std::endl; m_mutex.lock(); while (!m_queue.empty()) { m_cancelledRequests[m_queue.begin()->first] = m_queue.begin()->second; m_newlyCancelled.insert(m_queue.begin()->first); m_queue.erase(m_queue.begin()); } m_exiting = true; m_mutex.unlock(); m_condition.wakeAll(); std::cerr << "FileReadThread::finish() exiting" << std::endl; } int FileReadThread::request(const Request &request) { m_mutex.lock(); int token = m_nextToken++; m_queue[token] = request; m_mutex.unlock(); m_condition.wakeAll(); return token; } void FileReadThread::cancel(int token) { m_mutex.lock(); if (m_queue.find(token) != m_queue.end()) { m_cancelledRequests[token] = m_queue[token]; m_queue.erase(token); m_newlyCancelled.insert(token); } else if (m_readyRequests.find(token) != m_readyRequests.end()) { m_cancelledRequests[token] = m_readyRequests[token]; m_readyRequests.erase(token); } else { std::cerr << "WARNING: FileReadThread::cancel: token " << token << " not found" << std::endl; } m_mutex.unlock(); std::cerr << "FileReadThread::cancel(" << token << ") waking condition" << std::endl; m_condition.wakeAll(); } bool FileReadThread::isReady(int token) { m_mutex.lock(); bool ready = m_readyRequests.find(token) != m_readyRequests.end(); m_mutex.unlock(); return ready; } bool FileReadThread::isCancelled(int token) { m_mutex.lock(); bool cancelled = m_cancelledRequests.find(token) != m_cancelledRequests.end() && m_newlyCancelled.find(token) == m_newlyCancelled.end(); m_mutex.unlock(); return cancelled; } bool FileReadThread::getRequest(int token, Request &request) { m_mutex.lock(); bool found = false; if (m_queue.find(token) != m_queue.end()) { request = m_queue[token]; found = true; } else if (m_cancelledRequests.find(token) != m_cancelledRequests.end()) { request = m_cancelledRequests[token]; found = true; } else if (m_readyRequests.find(token) != m_readyRequests.end()) { request = m_readyRequests[token]; found = true; } m_mutex.unlock(); return found; } void FileReadThread::done(int token) { m_mutex.lock(); bool found = false; if (m_cancelledRequests.find(token) != m_cancelledRequests.end()) { m_cancelledRequests.erase(token); m_newlyCancelled.erase(token); found = true; } else if (m_readyRequests.find(token) != m_readyRequests.end()) { m_readyRequests.erase(token); found = true; } else if (m_queue.find(token) != m_queue.end()) { std::cerr << "WARNING: FileReadThread::done(" << token << "): request is still in queue (wait or cancel it)" << std::endl; } m_mutex.unlock(); if (!found) { std::cerr << "WARNING: FileReadThread::done(" << token << "): request not found" << std::endl; } } void FileReadThread::process() { // entered with m_mutex locked and m_queue non-empty int token = m_queue.begin()->first; Request request = m_queue.begin()->second; m_mutex.unlock(); std::cerr << "FileReadThread::process: got something to do" << std::endl; bool successful = false; bool seekFailed = false; ssize_t r = 0; if (request.mutex) request.mutex->lock(); if (::lseek(request.fd, request.start, SEEK_SET) == (off_t)-1) { seekFailed = true; } else { // if request.size is large, we want to avoid making a single // system call to read it all as it may block too much static const size_t blockSize = 16384; size_t size = request.size; char *destination = request.data; while (size > 0) { size_t readSize = size; if (readSize > blockSize) readSize = blockSize; ssize_t br = ::read(request.fd, destination, readSize); if (br < 0) { r = br; break; } else { r += br; if (br < ssize_t(readSize)) break; } destination += readSize; size -= readSize; } } if (request.mutex) request.mutex->unlock(); if (seekFailed) { ::perror("Seek failed"); std::cerr << "ERROR: FileReadThread::process: seek to " << request.start << " failed" << std::endl; request.size = 0; } else { if (r < 0) { ::perror("ERROR: FileReadThread::process: Read failed"); request.size = 0; } else if (r < ssize_t(request.size)) { std::cerr << "WARNING: FileReadThread::process: read " << request.size << " returned only " << r << " bytes" << std::endl; request.size = r; } else { successful = true; } } // Check that the token hasn't been cancelled and the thread // hasn't been asked to finish m_mutex.lock(); if (m_queue.find(token) != m_queue.end() && !m_exiting) { m_queue.erase(token); m_readyRequests[token] = request; m_mutex.unlock(); std::cerr << "emitting" << std::endl; emit ready(token, successful); m_mutex.lock(); } } void FileReadThread::notifyCancelled() { // entered with m_mutex locked while (!m_newlyCancelled.empty()) { int token = *m_newlyCancelled.begin(); std::cerr << "FileReadThread::notifyCancelled: token " << token << std::endl; m_newlyCancelled.erase(token); emit cancelled(token); } }