livetrax/libs/ardour/export_profile_manager.cc

/*
    Copyright (C) 2008 Paul Davis
    Author: Sakari Bergen

    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.

    This program is distributed in the hope that it will be useful,
    but WITHOUT ANY WARRANTY; without even the implied warranty of
    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
    GNU General Public License for more details.

    You should have received a copy of the GNU General Public License
    along with this program; if not, write to the Free Software
    Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.

*/

#include <cassert>
#include <stdexcept>
#include <cerrno>

#include <glib.h>
#include <glib/gstdio.h>

#include <glibmm/fileutils.h>
#include <glibmm/miscutils.h>

#include "pbd/enumwriter.h"
#include "pbd/xml++.h"
#include "pbd/convert.h"

#include "ardour/export_profile_manager.h"
#include "ardour/export_format_specification.h"
#include "ardour/search_paths.h"
#include "ardour/export_timespan.h"
#include "ardour/export_channel_configuration.h"
#include "ardour/export_filename.h"
#include "ardour/export_preset.h"
#include "ardour/export_handler.h"
#include "ardour/export_failed.h"
#include "ardour/directory_names.h"
#include "ardour/filename_extensions.h"
#include "ardour/route.h"
#include "ardour/session.h"
#include "ardour/broadcast_info.h"

#include "i18n.h"

using namespace std;
using namespace Glib;
using namespace PBD;

namespace ARDOUR
{

ExportProfileManager::ExportProfileManager (Session & s, ExportType type)
  : type(type)
  , handler (s.get_export_handler())
  , session (s)

  , ranges (new LocationList ())
  , single_range_mode (false)

  , format_list (new FormatList ())
{
	switch(type) {
	case RegularExport:
		xml_node_name = X_("ExportProfile");
		break;
	case RangeExport:
		xml_node_name = X_("RangeExportProfile");
		break;
	case SelectionExport:
		xml_node_name = X_("SelectionExportProfile");
		break;
	case RegionExport:
		xml_node_name = X_("RegionExportProfile");
		break;
	case StemExport:
		xml_node_name = X_("StemExportProfile");
		break;
	}

	/* Initialize path variables */

	export_config_dir = Glib::build_filename (user_config_directory(), export_dir_name);

	search_path += export_formats_search_path();

	info << string_compose (_("Searching for export formats in %1"), search_path.to_string()) << endmsg;

	/* create export config directory if necessary */

	if (!Glib::file_test (export_config_dir, Glib::FILE_TEST_EXISTS)) {
		if (g_mkdir_with_parents (export_config_dir.c_str(), 0755) != 0) {
			error << string_compose (_("Unable to create export format directory %1: %2"), export_config_dir, g_strerror(errno)) << endmsg;
		}
	}

	load_presets ();
	load_formats ();

	/* Initialize all lists with an empty config */

	XMLNodeList dummy;
	init_timespans (dummy);
	init_channel_configs (dummy);
	init_formats (dummy);
	init_filenames (dummy);
}

ExportProfileManager::~ExportProfileManager ()
{
	XMLNode * extra_xml (new XMLNode (xml_node_name));
	serialize_profile (*extra_xml);
	session.add_extra_xml (*extra_xml);
}

void
ExportProfileManager::load_profile ()
{
	XMLNode * extra_node = session.extra_xml (xml_node_name);
	/* Legacy sessions used Session instant.xml for this */
	if (!extra_node) {
		extra_node = session.instant_xml (xml_node_name);
	}

	if (extra_node) {
		set_state (*extra_node);
	} else {
		XMLNode empty_node (xml_node_name);
		set_state (empty_node);
	}
}

void
ExportProfileManager::prepare_for_export ()
{
	TimespanListPtr ts_list = timespans.front()->timespans;

	FormatStateList::const_iterator format_it;
	FilenameStateList::const_iterator filename_it;

	// For each timespan
	for (TimespanList::iterator ts_it = ts_list->begin(); ts_it != ts_list->end(); ++ts_it) {
		// ..., each format-filename pair
		for (format_it = formats.begin(), filename_it = filenames.begin();
		     format_it != formats.end() && filename_it != filenames.end();
		     ++format_it, ++filename_it) {

			ExportFilenamePtr filename = (*filename_it)->filename;
//			filename->include_timespan = (ts_list->size() > 1); Disabled for now...

			boost::shared_ptr<BroadcastInfo> b;
			if ((*format_it)->format->has_broadcast_info()) {
				b.reset (new BroadcastInfo);
				b->set_from_session (session, (*ts_it)->get_start());
			}

			// ...and each channel config
			filename->include_channel_config = (type == StemExport) ||
			                                   (channel_configs.size() > 1);
			for(ChannelConfigStateList::iterator cc_it = channel_configs.begin(); cc_it != channel_configs.end(); ++cc_it) {
				handler->add_export_config (*ts_it, (*cc_it)->config, (*format_it)->format, filename, b);
			}
		}
	}
}

bool
ExportProfileManager::load_preset (ExportPresetPtr preset)
{
	bool ok = true;

	current_preset = preset;
	if (!preset) { return false; }

	XMLNode const * state;
	if ((state = preset->get_local_state())) {
		set_local_state (*state);
	} else { ok = false; }

	if ((state = preset->get_global_state())) {
		if (!set_global_state (*state)) {
			ok = false;
		}
	} else { ok = false; }

	return ok;
}

void
ExportProfileManager::load_presets ()
{
	vector<std::string> found = find_file (string_compose (X_("*%1"),export_preset_suffix));

	for (vector<std::string>::iterator it = found.begin(); it != found.end(); ++it) {
		load_preset_from_disk (*it);
	}
}

std::string
ExportProfileManager::preset_filename (std::string const & preset_name)
{
	string safe_name = legalize_for_path (preset_name);
	return Glib::build_filename (export_config_dir, safe_name + export_preset_suffix);
}

ExportPresetPtr
ExportProfileManager::new_preset (string const & name)
{
	// Generate new ID and do regular save
	string filename = preset_filename (name);
	current_preset.reset (new ExportPreset (filename, session));
	preset_list.push_back (current_preset);
	return save_preset (name);
}

ExportPresetPtr
ExportProfileManager::save_preset (string const & name)
{
	string filename = preset_filename (name);

	if (!current_preset) {
		current_preset.reset (new ExportPreset (filename, session));
		preset_list.push_back (current_preset);
	}

	XMLNode * global_preset = new XMLNode ("ExportPreset");
	XMLNode * local_preset = new XMLNode ("ExportPreset");

	serialize_global_profile (*global_preset);
	serialize_local_profile (*local_preset);

	current_preset->set_name (name);
	current_preset->set_global_state (*global_preset);
	current_preset->set_local_state (*local_preset);

	current_preset->save (filename);

	return current_preset;
}

void
ExportProfileManager::remove_preset ()
{
	if (!current_preset) { return; }

	for (PresetList::iterator it = preset_list.begin(); it != preset_list.end(); ++it) {
		if (*it == current_preset) {
			preset_list.erase (it);
			break;
		}
	}

	FileMap::iterator it = preset_file_map.find (current_preset->id());
	if (it != preset_file_map.end()) {
		if (g_remove (it->second.c_str()) != 0) {
			error << string_compose (_("Unable to remove export preset %1: %2"), it->second, g_strerror(errno)) << endmsg;
		}
		preset_file_map.erase (it);
	}

	current_preset->remove_local();
	current_preset.reset();
}

void
ExportProfileManager::load_preset_from_disk (std::string const & path)
{
	ExportPresetPtr preset (new ExportPreset (path, session));

	/* Handle id to filename mapping and don't add duplicates to list */

	FilePair pair (preset->id(), path);
	if (preset_file_map.insert (pair).second) {
		preset_list.push_back (preset);
	}
}

bool
ExportProfileManager::set_state (XMLNode const & root)
{
	return set_global_state (root) & set_local_state (root);
}

bool
ExportProfileManager::set_global_state (XMLNode const & root)
{
	return init_filenames (root.children ("ExportFilename")) &
	       init_formats (root.children ("ExportFormat"));
}

bool
ExportProfileManager::set_local_state (XMLNode const & root)
{
	return init_timespans (root.children ("ExportTimespan")) &
	       init_channel_configs (root.children ("ExportChannelConfiguration"));
}

void
ExportProfileManager::serialize_profile (XMLNode & root)
{
	serialize_local_profile (root);
	serialize_global_profile (root);
}

void
ExportProfileManager::serialize_global_profile (XMLNode & root)
{
	for (FormatStateList::iterator it = formats.begin(); it != formats.end(); ++it) {
		root.add_child_nocopy (serialize_format (*it));
	}

	for (FilenameStateList::iterator it = filenames.begin(); it != filenames.end(); ++it) {
		root.add_child_nocopy ((*it)->filename->get_state());
	}
}

void
ExportProfileManager::serialize_local_profile (XMLNode & root)
{
	for (TimespanStateList::iterator it = timespans.begin(); it != timespans.end(); ++it) {
		root.add_child_nocopy (serialize_timespan (*it));
	}

	for (ChannelConfigStateList::iterator it = channel_configs.begin(); it != channel_configs.end(); ++it) {
		root.add_child_nocopy ((*it)->config->get_state());
	}
}

std::vector<std::string>
ExportProfileManager::find_file (std::string const & pattern)
{
	vector<std::string> found;

	find_files_matching_pattern (found, search_path, pattern);

	return found;
}

void
ExportProfileManager::set_selection_range (framepos_t start, framepos_t end)
{

	if (start || end) {
		selection_range.reset (new Location (session));
		selection_range->set_name (_("Selection"));
		selection_range->set (start, end);
	} else {
		selection_range.reset();
	}

	for (TimespanStateList::iterator it = timespans.begin(); it != timespans.end(); ++it) {
		(*it)->selection_range = selection_range;
	}
}

std::string
ExportProfileManager::set_single_range (framepos_t start, framepos_t end, string name)
{
	single_range_mode = true;

	single_range.reset (new Location (session));
	single_range->set_name (name);
	single_range->set (start, end);

	update_ranges ();

	return single_range->id().to_s();
}

bool
ExportProfileManager::init_timespans (XMLNodeList nodes)
{
	timespans.clear ();
	update_ranges ();

	bool ok = true;
	for (XMLNodeList::const_iterator it = nodes.begin(); it != nodes.end(); ++it) {
		TimespanStatePtr span = deserialize_timespan (**it);
		if (span) {
			timespans.push_back (span);
		} else { ok = false; }
	}

	if (timespans.empty()) {
		TimespanStatePtr state (new TimespanState (selection_range, ranges));
		timespans.push_back (state);

		// Add session as default selection
		Location * session_range = session.locations()->session_range_location();
		if (!session_range) { return false; }

		ExportTimespanPtr timespan = handler->add_timespan();
		timespan->set_name (session_range->name());
		timespan->set_range_id (session_range->id().to_s());
		timespan->set_range (session_range->start(), session_range->end());
		state->timespans->push_back (timespan);
		return false;
	}

	return ok;
}

ExportProfileManager::TimespanStatePtr
ExportProfileManager::deserialize_timespan (XMLNode & root)
{
	TimespanStatePtr state (new TimespanState (selection_range, ranges));
	XMLProperty const * prop;

	XMLNodeList spans = root.children ("Range");
	for (XMLNodeList::iterator node_it = spans.begin(); node_it != spans.end(); ++node_it) {

		prop = (*node_it)->property ("id");
		if (!prop) { continue; }
		string id = prop->value();

		Location * location = 0;
		for (LocationList::iterator it = ranges->begin(); it != ranges->end(); ++it) {
			if ((id == "selection" && *it == selection_range.get()) ||
			    (id == (*it)->id().to_s())) {
				location = *it;
				break;
			}
		}

		if (!location) { continue; }

		ExportTimespanPtr timespan = handler->add_timespan();
		timespan->set_name (location->name());
		timespan->set_range_id (location->id().to_s());
		timespan->set_range (location->start(), location->end());
		state->timespans->push_back (timespan);
	}

	if ((prop = root.property ("format"))) {
		state->time_format = (TimeFormat) string_2_enum (prop->value(), TimeFormat);
	}

	if (state->timespans->empty()) {
		return TimespanStatePtr();
	}

	return state;
}

XMLNode &
ExportProfileManager::serialize_timespan (TimespanStatePtr state)
{
	XMLNode & root = *(new XMLNode ("ExportTimespan"));
	XMLNode * span;

	update_ranges ();
	for (TimespanList::iterator it = state->timespans->begin(); it != state->timespans->end(); ++it) {
		if ((span = root.add_child ("Range"))) {
			span->add_property ("id", (*it)->range_id());
		}
	}

	root.add_property ("format", enum_2_string (state->time_format));

	return root;
}

void
ExportProfileManager::update_ranges () {
	ranges->clear();

	if (single_range_mode) {
		ranges->push_back (single_range.get());
		return;
	}

	/* Session */

	Location * session_range = session.locations()->session_range_location();
	if (session_range) {
		ranges->push_back (session_range);
	}

	/* Selection */

	if (selection_range) {
		ranges->push_back (selection_range.get());
	}

	/* ranges */

	LocationList const & list (session.locations()->list());
	for (LocationList::const_iterator it = list.begin(); it != list.end(); ++it) {
		if ((*it)->is_range_marker()) {
			ranges->push_back (*it);
		}
	}
}

ExportProfileManager::ChannelConfigStatePtr
ExportProfileManager::add_channel_config ()
{
	ChannelConfigStatePtr ptr(new ChannelConfigState(handler->add_channel_config()));
	channel_configs.push_back(ptr);
	return ptr;
}

bool
ExportProfileManager::init_channel_configs (XMLNodeList nodes)
{
	channel_configs.clear();

	if (nodes.empty()) {
		ChannelConfigStatePtr config (new ChannelConfigState (handler->add_channel_config()));
		channel_configs.push_back (config);

		// Add master outs as default
		if (!session.master_out()) { return false; }

		IO* master_out = session.master_out()->output().get();
		if (!master_out) { return false; }

		for (uint32_t n = 0; n < master_out->n_ports().n_audio(); ++n) {
			PortExportChannel * channel = new PortExportChannel ();
			channel->add_port (master_out->audio (n));

			ExportChannelPtr chan_ptr (channel);
			config->config->register_channel (chan_ptr);
		}
		return false;
	}

	for (XMLNodeList::const_iterator it = nodes.begin(); it != nodes.end(); ++it) {
		ChannelConfigStatePtr config (new ChannelConfigState (handler->add_channel_config()));
		config->config->set_state (**it);
		channel_configs.push_back (config);
	}

	return true;
}

ExportProfileManager::FormatStatePtr
ExportProfileManager::duplicate_format_state (FormatStatePtr state)
{
	/* Note: The pointer in the new FormatState should point to the same format spec
	         as the original state's pointer. The spec itself should not be copied!   */

	FormatStatePtr format (new FormatState (format_list, state->format));
	formats.push_back (format);
	return format;
}

void
ExportProfileManager::remove_format_state (FormatStatePtr state)
{
	for (FormatStateList::iterator it = formats.begin(); it != formats.end(); ++it) {
		if (*it == state) {
			formats.erase (it);
			return;
		}
	}
}

std::string
ExportProfileManager::save_format_to_disk (ExportFormatSpecPtr format)
{
	// TODO filename character stripping

	/* Get filename for file */

	string new_name = format->name();
	new_name += export_format_suffix;

        /* make sure its legal for the filesystem */

        new_name = legalize_for_path (new_name);

	std::string new_path = Glib::build_filename (export_config_dir, new_name);

	/* Check if format is on disk already */
	FileMap::iterator it;
	if ((it = format_file_map.find (format->id())) != format_file_map.end()) {

		/* Check if config is not in user config dir */
		if (Glib::path_get_dirname (it->second) != export_config_dir) {

			/* Write new file */

			XMLTree tree (new_path);
			tree.set_root (&format->get_state());
			tree.write();

		} else {

			/* Update file and rename if necessary */

			XMLTree tree (it->second);
			tree.set_root (&format->get_state());
			tree.write();

			if (new_name != Glib::path_get_basename (it->second)) {
				if (g_rename (it->second.c_str(), new_path.c_str()) != 0) {
					error << string_compose (_("Unable to rename export format %1 to %2: %3"), it->second, new_path, g_strerror(errno)) << endmsg;
				};
			}
		}

		it->second = new_path;

	} else {
		/* Write new file */

		XMLTree tree (new_path);
		tree.set_root (&format->get_state());
		tree.write();
	}

	FormatListChanged ();
	return new_path;
}

void
ExportProfileManager::remove_format_profile (ExportFormatSpecPtr format)
{
	for (FormatList::iterator it = format_list->begin(); it != format_list->end(); ++it) {
		if (*it == format) {
			format_list->erase (it);
			break;
		}
	}

	FileMap::iterator it = format_file_map.find (format->id());
	if (it != format_file_map.end()) {
		if (g_remove (it->second.c_str()) != 0) {
			error << string_compose (_("Unable to remove export profile %1: %2"), it->second, g_strerror(errno)) << endmsg;
			return;
		}
		format_file_map.erase (it);
	}

	FormatListChanged ();
}

ExportFormatSpecPtr
ExportProfileManager::get_new_format (ExportFormatSpecPtr original)
{
	ExportFormatSpecPtr format;
	if (original) {
		format.reset (new ExportFormatSpecification (*original));
		std::cerr << "After new format created from original, format has id [" << format->id().to_s() << ']' << std::endl;
	} else {
		format = handler->add_format();
		format->set_name (_("empty format"));
	}

	std::string path = save_format_to_disk (format);
	FilePair pair (format->id(), path);
	format_file_map.insert (pair);

	format_list->push_back (format);
	FormatListChanged ();

	return format;
}

bool
ExportProfileManager::init_formats (XMLNodeList nodes)
{
	formats.clear();

	bool ok = true;
	for (XMLNodeList::const_iterator it = nodes.begin(); it != nodes.end(); ++it) {
		FormatStatePtr format = deserialize_format (**it);
		if (format) {
			formats.push_back (format);
		} else { ok = false; }
	}

	if (formats.empty ()) {
		FormatStatePtr format (new FormatState (format_list, ExportFormatSpecPtr ()));
		formats.push_back (format);
		return false;
	}

	return ok;
}

ExportProfileManager::FormatStatePtr
ExportProfileManager::deserialize_format (XMLNode & root)
{
	XMLProperty * prop;
	PBD::UUID id;

	if ((prop = root.property ("id"))) {
		id = prop->value();
	}

	for (FormatList::iterator it = format_list->begin(); it != format_list->end(); ++it) {
		if ((*it)->id() == id) {
			return FormatStatePtr (new FormatState (format_list, *it));
		}
	}

	return FormatStatePtr ();
}

XMLNode &
ExportProfileManager::serialize_format (FormatStatePtr state)
{
	XMLNode * root = new XMLNode ("ExportFormat");

	string id = state->format ? state->format->id().to_s() : "";
	root->add_property ("id", id);

	return *root;
}

void
ExportProfileManager::load_formats ()
{
	vector<std::string> found = find_file (string_compose ("*%1", export_format_suffix));

	for (vector<std::string>::iterator it = found.begin(); it != found.end(); ++it) {
		load_format_from_disk (*it);
	}
}

void
ExportProfileManager::load_format_from_disk (std::string const & path)
{
	XMLTree tree;

	if (!tree.read (path)) {
		error << string_compose (_("Cannot load export format from %1"), path) << endmsg;
		return;
	}

	XMLNode* root = tree.root();
	if (!root) {
		error << string_compose (_("Cannot export format read from %1"), path) << endmsg;
		return;
	}

	ExportFormatSpecPtr format = handler->add_format (*root);

	/* Handle id to filename mapping and don't add duplicates to list */

	FilePair pair (format->id(), path);
	if (format_file_map.insert (pair).second) {
		format_list->push_back (format);
	}

	FormatListChanged ();
}

ExportProfileManager::FilenameStatePtr
ExportProfileManager::duplicate_filename_state (FilenameStatePtr state)
{
	FilenameStatePtr filename (new FilenameState (handler->add_filename_copy (state->filename)));
	filenames.push_back (filename);
	return filename;
}

void
ExportProfileManager::remove_filename_state (FilenameStatePtr state)
{
	for (FilenameStateList::iterator it = filenames.begin(); it != filenames.end(); ++it) {
		if (*it == state) {
			filenames.erase (it);
			return;
		}
	}
}

std::string
ExportProfileManager::get_sample_filename_for_format (ExportFilenamePtr filename, ExportFormatSpecPtr format)
{
	assert (format);
	
	if (channel_configs.empty()) { return ""; }

	std::list<string> filenames;
	build_filenames (filenames, filename, timespans.front()->timespans,
	                 channel_configs.front()->config, format);

	if (filenames.empty()) { return ""; }
	return filenames.front();
}

bool
ExportProfileManager::init_filenames (XMLNodeList nodes)
{
	filenames.clear ();

	for (XMLNodeList::const_iterator it = nodes.begin(); it != nodes.end(); ++it) {
		ExportFilenamePtr filename = handler->add_filename();
		filename->set_state (**it);
		filenames.push_back (FilenameStatePtr (new FilenameState (filename)));
	}

	if (filenames.empty()) {
		FilenameStatePtr filename (new FilenameState (handler->add_filename()));
		filenames.push_back (filename);
		return false;
	}

	return true;
}

boost::shared_ptr<ExportProfileManager::Warnings>
ExportProfileManager::get_warnings ()
{
	boost::shared_ptr<Warnings> warnings (new Warnings ());

	ChannelConfigStatePtr channel_config_state;
	if (!channel_configs.empty ()) {
		channel_config_state = channel_configs.front();
	}
	
	TimespanStatePtr timespan_state = timespans.front();

	/*** Check "global" config ***/

	TimespanListPtr timespans = timespan_state->timespans;

	ExportChannelConfigPtr channel_config;
	if (channel_config_state) {
		channel_config = channel_config_state->config;
	}

	/* Check Timespans are not empty */

	if (timespans->empty()) {
		warnings->errors.push_back (_("No timespan has been selected!"));
	}

	if (channel_config_state == 0) {
		warnings->errors.push_back (_("No channels have been selected!"));
	} else {
		/* Check channel config ports */
		if (!channel_config->all_channels_have_ports ()) {
			warnings->warnings.push_back (_("Some channels are empty"));
		}
	}

	/*** Check files ***/

	if (channel_config_state) {
		FormatStateList::const_iterator format_it;
		FilenameStateList::const_iterator filename_it;
		for (format_it = formats.begin(), filename_it = filenames.begin();
		     format_it != formats.end() && filename_it != filenames.end();
		     ++format_it, ++filename_it) {
			check_config (warnings, timespan_state, channel_config_state, *format_it, *filename_it);
		}
	}
	
	return warnings;
}

void
ExportProfileManager::check_config (boost::shared_ptr<Warnings> warnings,
	                            TimespanStatePtr timespan_state,
	                            ChannelConfigStatePtr channel_config_state,
	                            FormatStatePtr format_state,
	                            FilenameStatePtr filename_state)
{
	TimespanListPtr timespans = timespan_state->timespans;
	ExportChannelConfigPtr channel_config = channel_config_state->config;
	ExportFormatSpecPtr format = format_state->format;
	ExportFilenamePtr filename = filename_state->filename;

	/* Check format and maximum channel count */
	if (!format || !format->type()) {
		warnings->errors.push_back (_("No format selected!"));
	} else if (!channel_config->get_n_chans()) {
		warnings->errors.push_back (_("All channels are empty!"));
	} else if (!check_format (format, channel_config->get_n_chans())) {
		warnings->errors.push_back (_("One or more of the selected formats is not compatible with this system!"));
	} else if (format->channel_limit() < channel_config->get_n_chans()) {
		warnings->errors.push_back
		  (string_compose (_("%1 supports only %2 channels, but you have %3 channels in your channel configuration"),
		                     format->format_name(),
		                     format->channel_limit(),
		                     channel_config->get_n_chans()));
	}

	if (!warnings->errors.empty()) { return; }

	/* Check filenames */

//	filename->include_timespan = (timespans->size() > 1); Disabled for now...

	std::list<string> paths;
	build_filenames(paths, filename, timespans, channel_config, format);

	for (std::list<string>::const_iterator path_it = paths.begin(); path_it != paths.end(); ++path_it) {

		string path = *path_it;

		if (Glib::file_test (path, Glib::FILE_TEST_EXISTS)) {
			warnings->conflicting_filenames.push_back (path);
		}

		if (format->with_toc()) {
			string marker_file = handler->get_cd_marker_filename(path, CDMarkerTOC);
			if (Glib::file_test (marker_file, Glib::FILE_TEST_EXISTS)) {
				warnings->conflicting_filenames.push_back (marker_file);
			}
		}

		if (format->with_cue()) {
			string marker_file = handler->get_cd_marker_filename(path, CDMarkerCUE);
			if (Glib::file_test (marker_file, Glib::FILE_TEST_EXISTS)) {
				warnings->conflicting_filenames.push_back (marker_file);
			}
		}
	}
}

bool
ExportProfileManager::check_format (ExportFormatSpecPtr format, uint32_t channels)
{
	switch (format->type()) {
	  case ExportFormatBase::T_Sndfile:
		return check_sndfile_format (format, channels);

	  default:
		throw ExportFailed (X_("Invalid format given for ExportFileFactory::check!"));
	}
}

bool
ExportProfileManager::check_sndfile_format (ExportFormatSpecPtr format, unsigned int channels)
{
	SF_INFO sf_info;
	sf_info.channels = channels;
	sf_info.samplerate = format->sample_rate ();
	sf_info.format = format->format_id () | format->sample_format ();

	return (sf_format_check (&sf_info) == SF_TRUE ? true : false);
}

void
ExportProfileManager::build_filenames(std::list<std::string> & result, ExportFilenamePtr filename,
                                      TimespanListPtr timespans, ExportChannelConfigPtr channel_config,
                                      ExportFormatSpecPtr format)
{
	for (std::list<ExportTimespanPtr>::iterator timespan_it = timespans->begin();
	     timespan_it != timespans->end(); ++timespan_it) {
		filename->set_timespan (*timespan_it);

		if (channel_config->get_split()) {
			filename->include_channel = true;

			for (uint32_t chan = 1; chan <= channel_config->get_n_chans(); ++chan) {
				filename->set_channel (chan);
				result.push_back(filename->get_path (format));
			}

		} else {
			filename->include_channel = false;
			result.push_back(filename->get_path (format));
		}
	}
}

}; // namespace ARDOUR