Revision 57e6c22f
Added by David Sorber over 9 years ago
| software/photo_compress_archiver/PhotoCompressArchiver.cc | ||
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const char *PROG_OPT3 = "-p";
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const uint32_t ARGV_MAX_SIZE(sysconf(_SC_ARG_MAX));
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const uint32_t ARGV_EXTRA(4096);
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PhotoCompressArchiver::PhotoCompressArchiver(
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const std::string& path,
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// This is a somewhat crude way to determining if the filter regex is empty
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m_filter_empty = std::string("").compare(filter_regex.str()) == 0;
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// Remove this...
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std::cout << "argv size: " << sysconf(_SC_ARG_MAX) << std::endl;
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std::cout << "appname size: " << sizeof(PROG_NAME) << std::endl;
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}
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PhotoCompressArchiver::~PhotoCompressArchiver()
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p_finder_thread->join();
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OUT(std::cout << "File finder completed:" << std::endl;)
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// Error out of no input files were found
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if (m_num_input_files == 0)
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{
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OUT(std::cerr << BOLD << RED << "ERROR: " << ENDC << "No matching "
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<< "input files found. Please check the patch and try "
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<< "again. " << std::endl;)
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return -1;
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}
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OUT(std::cout << " Found " << m_num_input_files << " images" << std::endl;)
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if (! m_decompress)
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// TODO: need to handle the case were number of input files is less than
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// the number of threads
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uint32_t num_threads = 1;//m_num_cores;
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uint32_t num_threads = m_num_cores;
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uint32_t sublist_len = m_num_input_files / num_threads;
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for (uint32_t idx = 0; idx < num_threads; ++idx)
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OUT(std::cout << "T[" << tid << "] file: " << filepath.string()
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<< std::endl;)
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}
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return; // temporary for debugging
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#endif
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//~ return; // temporary for debugging
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//~ uint32_t argv_size = file_sublist->size() + 5;
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//~ const char **exec_argv = new const char* [argv_size];
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uint32_t sublist_idx = 0;
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const uint32_t ptr_len = sizeof(char*);
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int status;
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// Build the argv array; pass in default program options
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// Vector of pointers that will become the char** argv passed to packjpg
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std::vector<const char*> exec_argv;
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exec_argv.push_back(&PROG_NAME[2]);
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exec_argv.push_back(PROG_OPT1);
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exec_argv.push_back(PROG_OPT2);
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exec_argv.push_back(PROG_OPT3);
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// Build the argv array; pass in default program options
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//~ exec_argv[0] = &PROG_NAME[2]; // discard leading "./"
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//~ exec_argv[1] = PROG_OPT1;
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//~ exec_argv[2] = PROG_OPT2;
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//~ exec_argv[3] = PROG_OPT3;
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uint32_t argv_size = sizeof(PROG_NAME) + sizeof(PROG_OPT1) +
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sizeof(PROG_OPT2) + sizeof(PROG_OPT3) + 4096;
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// Add the sublist files to the argv array
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uint32_t idx = 0;
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for (auto& image_path : *file_sublist)
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{
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uint32_t image_path_len = image_path.string().size();
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if (argv_size + image_path_len < ARGV_MAX_SIZE)
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{
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exec_argv.push_back(image_path.string().c_str());
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argv_size += image_path_len + sizeof(char*);
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++idx;
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}
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else
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{
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break;
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}
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//~ exec_argv[idx++] = image_path.string().c_str();
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}
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//~ exec_argv[argv_size - 1] = nullptr;
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exec_argv.push_back(nullptr);
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std::cout << "IDX: " << idx << std::endl;
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// Build a list of the output files names for use in output file monitoring
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// below. Output file names have ".jpg" or ".jpeg" replaced with ".pjg"
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// in compression mode and vice versa in decompression mode.
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std::vector<std::string*> output_filenames;
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for (auto& filepath : *file_sublist)
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{
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// Create new filename
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uint32_t end_pos = filepath.string().find(".");
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std::string* filename = new std::string(filepath.string().begin(),
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filepath.string().begin() + end_pos);
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// Add extension depending on if decompress mode is enabled
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(*filename) += (m_decompress ? ".jpg" : ".pjg");
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output_filenames.push_back(filename);
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}
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// Create a pipe to hold stdout from child process
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int filedes[2];
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if (pipe(filedes) == -1)
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while (sublist_idx < sublist_file_count)
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{
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perror("pipe");
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exit(1);
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}
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// Pass in default program options for packjpg
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exec_argv.clear();
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exec_argv.push_back(&PROG_NAME[2]);
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exec_argv.push_back(PROG_OPT1);
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exec_argv.push_back(PROG_OPT2);
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exec_argv.push_back(PROG_OPT3);
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// Fork off the childprocess
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//~ pid_t parent = getpid();
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pid_t pid = vfork();
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if (pid == -1)
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{
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// error, failed to fork()
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OUT(std::cout << "T[" << tid << "] fork failed!" << std::endl;)
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}
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else if (pid == 0)
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{
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// This is the child process...
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// Set child process's stdout to the pipe entry
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//~ while ((dup2(filedes[1], STDOUT_FILENO) == -1) && (errno == EINTR)) {}
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//~ close(filedes[1]);
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//~ close(filedes[0]);
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uint32_t argv_size = sizeof(PROG_NAME) + sizeof(PROG_OPT1) +
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sizeof(PROG_OPT2) + sizeof(PROG_OPT3) + ARGV_EXTRA;
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output_filenames.clear();
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// Child after fork
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int rc = execv(PROG_NAME, (char **)exec_argv.data());
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if (rc)
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while (sublist_idx < sublist_file_count)
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{
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std::cerr << "execv failed: " << errno << std::endl;
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bfs::path& file_path = file_sublist->at(sublist_idx);
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uint32_t path_len = file_path.string().size();
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// Check if adding this next file would make the argv too big; if
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// so bail out
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if (argv_size + path_len + ptr_len > ARGV_MAX_SIZE)
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{
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break;
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}
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// Add the file to the argv array
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exec_argv.push_back(file_path.string().c_str());
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argv_size += path_len + ptr_len;
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// Create new filename for expected
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uint32_t end_pos = file_path.string().find(".");
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std::string* filename = new std::string(file_path.string().begin(),
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file_path.string().begin()
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+ end_pos);
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// Add extension depending on if decompress mode is enabled or not
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(*filename) += (m_decompress ? ".jpg" : ".pjg");
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output_filenames.push_back(filename);
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// Increment our index to the next file
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++sublist_idx;
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}
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_exit(EXIT_FAILURE); // exec never returns
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}
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// This is the parent process...
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// This is a little silly... but it works. We know the order in which the
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// output files will be created so we wait until output files X + 1 exists
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// (i.e. we can stat() it) and then process file X.
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const uint32_t BAILOUT_MAX = 600; // 30s in 50ms increments
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uint32_t bailout_ctr = 0;
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uint32_t output_idx = 1;
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int stat_rc = 0;
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struct stat statbuf;
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double complete_percent = 0.0;
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while (output_idx < output_filenames.size())
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{
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// Poll, waiting for output file X + 1 to exist
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bailout_ctr = 0;
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while ((stat(output_filenames[output_idx]->c_str(), &statbuf) != 0) &&
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(++bailout_ctr < BAILOUT_MAX))
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// Add a nullptr to the end of the argv array as a terminator
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exec_argv.push_back(nullptr);
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// Create a pipe to hold stdout from child process
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int filedes[2];
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if (pipe(filedes) == -1)
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{
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std::this_thread::sleep_for(std::chrono::milliseconds(50));
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perror("pipe");
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exit(1);
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}
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// Check if timeout has occurred
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if (bailout_ctr == BAILOUT_MAX)
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// Fork off the childprocess
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//~ pid_t parent = getpid();
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pid_t pid = vfork();
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if (pid == -1)
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{
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OUT(std::cerr << "T[" << tid << "] " << BOLD << RED << "ERROR: "
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<< ENDC << "timed out while waiting "
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<< "for output file: "
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<< *output_filenames[output_idx] << "; aborting"
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<< std::endl;)
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int status;
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waitpid(pid, &status, 0);
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OUT(std::cerr << "T[" << tid << "] " << BOLD << RED << "ERROR: "
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<< ENDC << PURPLE << " RC => " << status << ENDC
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<< std::endl;)
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// error, failed to fork()
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OUT(std::cout << "T[" << tid << "] fork failed!" << std::endl;)
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}
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else if (pid == 0)
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{
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// This is the child process...
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// Set child process's stdout to the pipe entry
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//~ while ((dup2(filedes[1], STDOUT_FILENO) == -1) && (errno == EINTR)) {}
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//~ close(filedes[1]);
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//~ close(filedes[0]);
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return;
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// Child after fork
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int rc = execv(PROG_NAME, (char **)exec_argv.data());
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if (rc)
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{
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std::cerr << "execv failed: " << errno << std::endl;
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}
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_exit(EXIT_FAILURE); // exec never returns
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}
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// This is the parent process...
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// This is a little silly... but it works. We know the order in which
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// the output files will be created so we wait until output files X + 1
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// exists (i.e. we can stat() it) and then process file X.
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const uint32_t BAILOUT_MAX = 600; // 30s in 50ms increments
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uint32_t bailout_ctr = 0;
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uint32_t output_idx = 1;
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int stat_rc = 0;
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struct stat statbuf;
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double complete_percent = 0.0;
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while (output_idx < output_filenames.size())
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{
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// Poll, waiting for output file X + 1 to exist
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bailout_ctr = 0;
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while ((stat(output_filenames[output_idx]->c_str(), &statbuf) != 0) &&
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(++bailout_ctr < BAILOUT_MAX))
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{
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std::this_thread::sleep_for(std::chrono::milliseconds(50));
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}
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// Check if timeout has occurred
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if (bailout_ctr == BAILOUT_MAX)
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{
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OUT(std::cerr << "T[" << tid << "] " << BOLD << RED << "ERROR: "
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<< ENDC << "timed out while waiting "
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<< "for output file: "
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<< *output_filenames[output_idx] << "; aborting"
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<< std::endl;)
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// The subprocess timed out... get its status
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waitpid(pid, &status, 0);
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OUT(std::cerr << "T[" << tid << "] " << BOLD << RED << "ERROR: "
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<< ENDC << PURPLE << " RC => " << status << ENDC
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<< std::endl;)
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// Now stat output file X which should exist
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return;
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}
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// Now stat output file X which should exist
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stat_rc = stat(output_filenames[output_idx - 1]->c_str(), &statbuf);
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if (stat_rc)
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{
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OUT(std::cerr << "T[" << tid << "] " << BOLD << RED << "ERROR "
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<< ENDC << "while stating: "
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<< *output_filenames[output_idx - 1] << std::endl;)
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}
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// Increment counts
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m_total_compressed_size += statbuf.st_size;
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++m_files_processed;
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++files_processed;
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// Unless keeping original files, remove the source file
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if (! m_keep_orig)
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{
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std::remove(file_sublist->at(output_idx - 1).string().c_str());
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}
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// Calculate the local percent done
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complete_percent = (double)files_processed / sublist_file_count;
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complete_percent *= 100;
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OUT(std::cout << "T[" << tid << "] " << std::setw(6)
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<< std::fixed << std::setprecision(2)
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<< get_global_percent_done()
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<< "% -- (" << files_processed << "/"
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<< sublist_file_count << " -- " << std::setw(6)
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<< complete_percent
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<< "%) file: " << *output_filenames[output_idx - 1]
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<< " -- " << statbuf.st_size << std::endl;)
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++output_idx;
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}
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// Wait for forked child process to terminate
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waitpid(pid, &status, 0);
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// Now that the forked process has completed, we can handle the last
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// output file
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stat_rc = stat(output_filenames[output_idx - 1]->c_str(), &statbuf);
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if (stat_rc)
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{
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OUT(std::cerr << BOLD << RED << "ERROR " << ENDC
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<< "while stating: "
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OUT(std::cerr << "T[" << tid << "] " << BOLD << RED << "ERROR "
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<< ENDC << "while stating: "
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<< *output_filenames[output_idx - 1] << std::endl;)
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}
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| ... | ... | |
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complete_percent = (double)files_processed / sublist_file_count;
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complete_percent *= 100;
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OUT(std::cout << "T[" << tid << "] " << std::setw(6)
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<< std::fixed << std::setprecision(2)
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<< get_global_percent_done()
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<< "% -- (" << files_processed << "/"
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<< sublist_file_count << " -- " << std::setw(6)
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<< complete_percent
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OUT(std::cout << "T[" << tid << "] " << std::setw(6) << std::fixed
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<< std::setprecision(2) << get_global_percent_done()
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<< "% -- (" << files_processed << "/" << sublist_file_count
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<< " -- " << std::setw(5) << complete_percent
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<< "%) file: " << *output_filenames[output_idx - 1]
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<< " -- " << statbuf.st_size << std::endl;)
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++output_idx;
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}
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// Wait for forked child process to terminate
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int status;
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waitpid(pid, &status, 0);
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// Now that the forked process has completed, we can handle the last output
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// file
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stat_rc = stat(output_filenames[output_idx - 1]->c_str(), &statbuf);
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if (stat_rc)
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{
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OUT(std::cerr << BOLD << RED << "ERROR " << ENDC << "while stating: "
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<< *output_filenames[output_idx - 1] << std::endl;)
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}
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// Increment counts
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m_total_compressed_size += statbuf.st_size;
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++m_files_processed;
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++files_processed;
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// Unless keeping original files, remove the source file
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if (! m_keep_orig)
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{
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std::remove(file_sublist->at(output_idx - 1).string().c_str());
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// Free up the output filename list
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for (auto output_filename : output_filenames)
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{
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delete output_filename;
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}
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}
|
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|
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// Calculate the local percent done
|
||
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complete_percent = (double)files_processed / sublist_file_count;
|
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complete_percent *= 100;
|
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OUT(std::cout << "T[" << tid << "] " << std::setw(6) << std::fixed
|
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<< std::setprecision(2) << get_global_percent_done()
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<< "% -- (" << files_processed << "/" << sublist_file_count
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<< " -- " << std::setw(5) << complete_percent << "%) file: "
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<< *output_filenames[output_idx - 1] << " -- "
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||
|
<< statbuf.st_size << std::endl;)
|
||
|
|
||
|
OUT(std::cout << "T[" << tid << "] "<< PURPLE << "complete ==> RC: "
|
||
|
OUT(std::cout << "T[" << tid << "] " << PURPLE << "complete ==> RC: "
|
||
|
<< status << ENDC << std::endl;)
|
||
|
|
||
|
// Free up the argv array and output filename list
|
||
|
//~ delete[] exec_argv;
|
||
|
for (auto output_filename : output_filenames)
|
||
|
{
|
||
|
delete output_filename;
|
||
|
}
|
||
|
}
|
||
|
|
||
|
double PhotoCompressArchiver::get_global_percent_done()
|
||
| software/photo_compress_archiver/main.cc | ||
|---|---|---|
|
std::cout << std::endl;
|
||
|
}
|
||
|
|
||
|
|
||
|
// NOTE: useful filter: -f ^\\._.+$
|
||
|
int main(int argc, char** argv)
|
||
|
{
|
||
|
bpo::variables_map general_opts_vm;
|
||
| ... | ... | |
|
std::cerr << " " << e.what() << std::endl;
|
||
|
return -1;
|
||
|
}
|
||
|
|
||
|
std::cout << " filter regex => ON (" << filter_regex << ")\n";
|
||
|
}
|
||
|
|
||
|
std::cout << std::endl;
|
||
| software/photo_compress_archiver/packJPG/CMakeLists.txt | ||
|---|---|---|
|
)
|
||
|
|
||
|
add_definitions("-std=c++1y -O3 -Wall -pedantic -DUNIX")
|
||
|
add_definitions("-funroll-loops -ffast-math -fsched-spec-load -fomit-frame-pointer")
|
||
|
add_definitions("-funroll-loops -ffast-math -fomit-frame-pointer")
|
||
|
#~ -fsched-spec-load
|
||
|
#~ add_definitions("-static -static-libgcc -static-libstdc++")
|
||
|
|
||
|
add_executable(packjpg
|
||
| software/photo_compress_archiver/packJPG/bitops.cpp | ||
|---|---|---|
|
|
||
|
#include <algorithm>
|
||
|
#include <array>
|
||
|
#include <stdio.h>
|
||
|
#include <cstdio>
|
||
|
#include <stdlib.h>
|
||
|
#include <vector>
|
||
|
|
||
Finished up the changes to make argv a std::vector instead of a regular array. I also implemented the changes to control the size of argv based on system configuration and potentially spawn packJPG multiple times in order to handle a very large number of files. I ran a test on my Photos library and it sort of worked but I ran into some issues that I still need to diagnose.