Mercurial > hg > svcore
view data/fileio/FileReadThread.cpp @ 631:3a5ee4b6c9ad
* Complete the overhaul of CSV file import; now you can pick the purpose for
each column in the file, and SV should do the rest. The most significant
practical improvement here is that we can now handle files in which time
and duration do not necessarily appear in known columns.
| author | Chris Cannam |
|---|---|
| date | Mon, 19 Jul 2010 17:08:56 +0000 |
| parents | 3e0f1f7bec85 |
| children | 29efe322ab47 |
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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 "base/Profiler.h" #include "base/Thread.h" #include <iostream> #include <unistd.h> //#define DEBUG_FILE_READ_THREAD 1 FileReadThread::FileReadThread() : m_nextToken(0), m_exiting(false) { } void FileReadThread::run() { MutexLocker locker(&m_mutex, "FileReadThread::run::m_mutex"); while (!m_exiting) { if (m_queue.empty()) { m_condition.wait(&m_mutex, 1000); } else { process(); } notifyCancelled(); } notifyCancelled(); #ifdef DEBUG_FILE_READ_THREAD std::cerr << "FileReadThread::run() exiting" << std::endl; #endif } void FileReadThread::finish() { #ifdef DEBUG_FILE_READ_THREAD std::cerr << "FileReadThread::finish()" << std::endl; #endif { MutexLocker locker(&m_mutex, "FileReadThread::finish::m_mutex"); 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_condition.wakeAll(); #ifdef DEBUG_FILE_READ_THREAD std::cerr << "FileReadThread::finish() exiting" << std::endl; #endif } int FileReadThread::request(const Request &request) { int token; { MutexLocker locker(&m_mutex, "FileReadThread::request::m_mutex"); token = m_nextToken++; m_queue[token] = request; } m_condition.wakeAll(); return token; } void FileReadThread::cancel(int token) { { MutexLocker locker(&m_mutex, "FileReadThread::cancel::m_mutex"); 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; } } #ifdef DEBUG_FILE_READ_THREAD std::cerr << "FileReadThread::cancel(" << token << ") waking condition" << std::endl; #endif m_condition.wakeAll(); } bool FileReadThread::isReady(int token) { MutexLocker locker(&m_mutex, "FileReadThread::isReady::m_mutex"); bool ready = m_readyRequests.find(token) != m_readyRequests.end(); return ready; } bool FileReadThread::isCancelled(int token) { MutexLocker locker(&m_mutex, "FileReadThread::isCancelled::m_mutex"); bool cancelled = m_cancelledRequests.find(token) != m_cancelledRequests.end() && m_newlyCancelled.find(token) == m_newlyCancelled.end(); return cancelled; } bool FileReadThread::haveRequest(int token) { MutexLocker locker(&m_mutex, "FileReadThread::haveRequest::m_mutex"); bool found = false; if (m_queue.find(token) != m_queue.end()) { found = true; } else if (m_cancelledRequests.find(token) != m_cancelledRequests.end()) { found = true; } else if (m_readyRequests.find(token) != m_readyRequests.end()) { found = true; } return found; } bool FileReadThread::getRequest(int token, Request &request) { MutexLocker locker(&m_mutex, "FileReadThread::getRequest::m_mutex"); 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; } return found; } void FileReadThread::done(int token) { MutexLocker locker(&m_mutex, "FileReadThread::done::m_mutex"); 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; } 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 Profiler profiler("FileReadThread::process", true); int token = m_queue.begin()->first; Request request = m_queue.begin()->second; m_mutex.unlock(); #ifdef DEBUG_FILE_READ_THREAD std::cerr << "FileReadThread::process: reading " << request.start << ", " << request.size << " on " << request.fd << std::endl; #endif bool successful = false; bool seekFailed = false; ssize_t r = 0; { MutexLocker rlocker(request.mutex, "FileReadThread::process::request.mutex"); 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 = 256 * 1024; 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 (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"); std::cerr << "ERROR: FileReadThread::process: read of " << request.size << " at " << request.start << " failed" << std::endl; 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; usleep(100000); } else { successful = true; } } // Check that the token hasn't been cancelled and the thread // hasn't been asked to finish m_mutex.lock(); request.successful = successful; if (m_queue.find(token) != m_queue.end() && !m_exiting) { m_queue.erase(token); m_readyRequests[token] = request; #ifdef DEBUG_FILE_READ_THREAD std::cerr << "FileReadThread::process: done, marking as ready (success = " << m_readyRequests[token].successful << ")" << std::endl; #endif } else { #ifdef DEBUG_FILE_READ_THREAD if (m_exiting) { std::cerr << "FileReadThread::process: exiting" << std::endl; } else { std::cerr << "FileReadThread::process: request disappeared" << std::endl; } #endif } } void FileReadThread::notifyCancelled() { // entered with m_mutex locked while (!m_newlyCancelled.empty()) { int token = *m_newlyCancelled.begin(); #ifdef DEBUG_FILE_READ_THREAD std::cerr << "FileReadThread::notifyCancelled: token " << token << std::endl; #endif m_newlyCancelled.erase(token); } }