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.
-
- $Id$
*/
+#include <stdlib.h>
+
#include <algorithm>
#include <iostream>
namespace Name
{
-
+
Patch::Patch (std::string name, uint8_t p_number, uint16_t b_number)
: _name (name)
, _id (p_number, b_number)
{
}
-int initialize_primary_key_from_commands (PatchPrimaryKey& id, const XMLNode* node)
+static int
+string_to_int(const XMLTree& tree, const std::string& str)
+{
+ char* endptr = NULL;
+ const int i = strtol(str.c_str(), &endptr, 10);
+ if (str.empty() || *endptr != '\0') {
+ PBD::error << string_compose("%1: Bad number `%2'", tree.filename(), str)
+ << endmsg;
+ }
+ return i;
+}
+
+static int
+initialize_primary_key_from_commands (
+ const XMLTree& tree, PatchPrimaryKey& id, const XMLNode* node)
{
- id.bank_number = 0;
+ uint16_t bank = 0;
+ uint8_t program = 0;
const XMLNodeList events = node->children();
for (XMLNodeList::const_iterator i = events.begin(); i != events.end(); ++i) {
XMLNode* node = *i;
if (node->name() == "ControlChange") {
- string control = node->property("Control")->value();
- assert(control != "");
- string value = node->property("Value")->value();
- assert(value != "");
+ const string& control = node->property("Control")->value();
+ const string& value = node->property("Value")->value();
if (control == "0") {
- id.bank_number |= (PBD::atoi (value)) << 7;
+ bank |= string_to_int(tree, value) << 7;
} else if (control == "32") {
- id.bank_number |= PBD::atoi (value);
+ bank |= string_to_int(tree, value);
}
} else if (node->name() == "ProgramChange") {
- string number = node->property("Number")->value();
+ const string& number = node->property("Number")->value();
assert(number != "");
- id.program_number = PBD::atoi(number);
+ program = string_to_int(tree, number);
}
}
+ id = PatchPrimaryKey(program, bank);
return 0;
}
/* XXX this is totally wrong */
- node->add_property("Number", string_compose ("%1", _id.program_number));
+ node->add_property("Number", string_compose ("%1", _id.program()));
node->add_property("Name", _name);
/*
- typedef std::list< boost::shared_ptr< Evoral::MIDIEvent<double> > > PatchMidiCommands;
+ typedef std::list< boost::shared_ptr< Evoral::MIDIEvent<Evoral::Beats> > > PatchMidiCommands;
XMLNode* commands = node->add_child("PatchMIDICommands");
for (PatchMidiCommands::const_iterator event = _patch_midi_commands.begin();
event != _patch_midi_commands.end();
}
int
-Patch::set_state (const XMLTree&, const XMLNode& node)
+Patch::set_state (const XMLTree& tree, const XMLNode& node)
{
if (node.name() != "Patch") {
cerr << "Incorrect node " << node.name() << " handed to Patch" << endl;
return -1;
}
- const XMLProperty* prop = node.property ("Number");
+ /* Note there is a "Number" attribute, but it's really more like a label
+ and is often not numeric. We currently do not use it. */
- if (!prop) {
- return -1;
+ const XMLProperty* program_change = node.property("ProgramChange");
+ if (program_change) {
+ _id = PatchPrimaryKey(string_to_int(tree, program_change->value()), _id.bank());
}
- _id.program_number = PBD::atoi (prop->value());
- prop = node.property ("Name");
-
- if (!prop) {
+ const XMLProperty* name = node.property("Name");
+ if (!name) {
return -1;
}
- _name = prop->value();
+ _name = name->value();
XMLNode* commands = node.child("PatchMIDICommands");
-
if (commands) {
- if (initialize_primary_key_from_commands(_id, commands)) {
- return -1;
+ if (initialize_primary_key_from_commands(tree, _id, commands) &&
+ !program_change) {
+ return -1; // Failed to find a program number anywhere
}
- } else {
- string program_change = node.property("ProgramChange")->value();
- assert(program_change.length());
- _id.program_number = PBD::atoi(program_change);
}
-
+
XMLNode* use_note_name_list = node.child("UsesNoteNameList");
if (use_note_name_list) {
_note_list_name = use_note_name_list->property ("Name")->value();
Note::get_state (void)
{
XMLNode* node = new XMLNode("Note");
- node->add_property("Number", _number + 1);
+ node->add_property("Number", _number);
node->add_property("Name", _name);
return *node;
{
assert(node.name() == "Note");
- /* If the note number is junk, this will pull a number from the start, or
- return zero if there isn't one. The decrement will make that zero
- illegal since note numbers in the file are one-based. Better error
- detection would be a good idea, but the duplicate check in
- NoteNameList::set_state() will probably catch most errors anyway. */
- _number = atoi(node.property("Number")->value().c_str()) - 1;
- _name = node.property("Name")->value();
-
- if (_number > 127) {
+ const int num = string_to_int(tree, node.property("Number")->value());
+ if (num > 127) {
PBD::warning << string_compose("%1: Note number %2 (%3) out of range",
- tree.filename(), (int)_number, _name)
+ tree.filename(), num, _name)
<< endmsg;
return -1;
}
+ _number = num;
+ _name = node.property("Name")->value();
+
return 0;
}
}
int
-Control::set_state (const XMLTree&, const XMLNode& node)
+Control::set_state (const XMLTree& tree, const XMLNode& node)
{
assert(node.name() == "Control");
- _type = node.property("Type")->value();
- _number = node.property("Number")->value();
+ if (node.property("Type")) {
+ _type = node.property("Type")->value();
+ } else {
+ _type = "7bit";
+ }
+ _number = string_to_int(tree, node.property("Number")->value());
_name = node.property("Name")->value();
+ for (XMLNodeList::const_iterator i = node.children().begin();
+ i != node.children().end(); ++i) {
+ if ((*i)->name() == "Values") {
+ // <Values> has Min and Max properties, but we don't care
+ for (XMLNodeList::const_iterator j = (*i)->children().begin();
+ j != (*i)->children().end(); ++j) {
+ if ((*j)->name() == "ValueNameList") {
+ _value_name_list = boost::shared_ptr<ValueNameList>(new ValueNameList());
+ _value_name_list->set_state(tree, **j);
+ } else if ((*j)->name() == "UsesValueNameList") {
+ _value_name_list_name = (*j)->property("Name")->value();
+ }
+ }
+ }
+ }
+
return 0;
}
assert(node.name() == "ControlNameList");
_name = node.property("Name")->value();
+ _controls.clear();
for (XMLNodeList::const_iterator i = node.children().begin();
i != node.children().end(); ++i) {
- if ((*i)->name() != "comment") {
+ if ((*i)->name() == "Control") {
boost::shared_ptr<Control> control(new Control());
control->set_state (tree, *(*i));
- _controls.push_back(control);
+ if (_controls.find(control->number()) == _controls.end()) {
+ _controls.insert(make_pair(control->number(), control));
+ } else {
+ PBD::warning << string_compose("%1: Duplicate control %2 ignored",
+ tree.filename(), control->number())
+ << endmsg;
+ }
}
}
return 0;
}
+boost::shared_ptr<const Control>
+ControlNameList::control(uint16_t num) const
+{
+ Controls::const_iterator i = _controls.find(num);
+ if (i != _controls.end()) {
+ return i->second;
+ }
+ return boost::shared_ptr<const Control>();
+}
+
+XMLNode&
+Value::get_state (void)
+{
+ XMLNode* node = new XMLNode("Value");
+ node->add_property("Number", _number);
+ node->add_property("Name", _name);
+
+ return *node;
+}
+
+int
+Value::set_state (const XMLTree& tree, const XMLNode& node)
+{
+ assert(node.name() == "Value");
+ _number = string_to_int(tree, node.property("Number")->value());
+ _name = node.property("Name")->value();
+
+ return 0;
+}
+
+XMLNode&
+ValueNameList::get_state (void)
+{
+ XMLNode* node = new XMLNode("ValueNameList");
+ node->add_property("Name", _name);
+
+ return *node;
+}
+
+int
+ValueNameList::set_state (const XMLTree& tree, const XMLNode& node)
+{
+ assert(node.name() == "ValueNameList");
+ const XMLProperty* name_prop = node.property("Name");
+ if (name_prop) {
+ // May be anonymous if written inline within a single <Control> tag
+ _name = name_prop->value();
+ }
+
+ _values.clear();
+ for (XMLNodeList::const_iterator i = node.children().begin();
+ i != node.children().end(); ++i) {
+ if ((*i)->name() == "Value") {
+ boost::shared_ptr<Value> value(new Value());
+ value->set_state (tree, *(*i));
+ if (_values.find(value->number()) == _values.end()) {
+ _values.insert(make_pair(value->number(), value));
+ } else {
+ PBD::warning << string_compose("%1: Duplicate value %2 ignored",
+ tree.filename(), value->number())
+ << endmsg;
+ }
+ }
+ }
+
+ return 0;
+}
+
+boost::shared_ptr<const Value>
+ValueNameList::value(uint16_t num) const
+{
+ Values::const_iterator i = _values.find(num);
+ if (i != _values.end()) {
+ return i->second;
+ }
+ return boost::shared_ptr<const Value>();
+}
+
+boost::shared_ptr<const Value>
+ValueNameList::max_value_below(uint16_t num) const
+{
+ Values::const_iterator i = _values.lower_bound(num);
+ if (i->first == num) {
+ // Exact match
+ return i->second;
+ } else if (i == _values.begin()) {
+ // No value is < num
+ return boost::shared_ptr<const Value>();
+ } else {
+ // Found the smallest element >= num, so the previous one is our result
+ --i;
+ return i->second;
+ }
+}
+
XMLNode&
PatchBank::get_state (void)
{
XMLNode* commands = node.child("MIDICommands");
if (commands) {
PatchPrimaryKey id (0, 0);
- if (initialize_primary_key_from_commands (id, commands)) {
+ if (initialize_primary_key_from_commands (tree, id, commands)) {
return -1;
}
- _number = id.bank_number;
+ _number = id.bank();
}
XMLNode* patch_name_list = node.child("PatchNameList");
<< "List size " << cns._patch_list.size() << endl
<< "Patch list name = [" << cns._patch_list_name << ']' << endl
<< "Available channels : ";
- for (set<uint8_t>::iterator x = cns._available_for_channels.begin(); x != cns._available_for_channels.end(); ++x) {
+ for (set<uint8_t>::const_iterator x = cns._available_for_channels.begin(); x != cns._available_for_channels.end(); ++x) {
os << (int) (*x) << ' ';
}
os << endl;
-
+
for (ChannelNameSet::PatchBanks::const_iterator pbi = cns._patch_banks.begin(); pbi != cns._patch_banks.end(); ++pbi) {
os << "\tPatch Bank " << (*pbi)->name() << " with " << (*pbi)->patch_name_list().size() << " patches\n";
- for (PatchBank::PatchNameList::const_iterator pni = (*pbi)->patch_name_list().begin(); pni != (*pbi)->patch_name_list().end(); ++pni) {
+ for (PatchNameList::const_iterator pni = (*pbi)->patch_name_list().begin(); pni != (*pbi)->patch_name_list().end(); ++pni) {
os << "\t\tPatch name " << (*pni)->name() << " prog " << (int) (*pni)->program_number() << " bank " << (*pni)->bank_number() << endl;
}
}
ChannelNameSet::set_patch_banks (const ChannelNameSet::PatchBanks& pb)
{
_patch_banks = pb;
-
+
_patch_map.clear ();
_patch_list.clear ();
_patch_list_name = "";
_available_for_channels.clear ();
-
+
for (PatchBanks::const_iterator pbi = _patch_banks.begin(); pbi != _patch_banks.end(); ++pbi) {
- for (PatchBank::PatchNameList::const_iterator pni = (*pbi)->patch_name_list().begin(); pni != (*pbi)->patch_name_list().end(); ++pni) {
+ for (PatchNameList::const_iterator pni = (*pbi)->patch_name_list().begin(); pni != (*pbi)->patch_name_list().end(); ++pni) {
_patch_map[(*pni)->patch_primary_key()] = (*pni);
_patch_list.push_back ((*pni)->patch_primary_key());
}
}
void
-ChannelNameSet::use_patch_name_list (const PatchBank::PatchNameList& pnl)
+ChannelNameSet::use_patch_name_list (const PatchNameList& pnl)
{
- for (PatchBank::PatchNameList::const_iterator p = pnl.begin(); p != pnl.end(); ++p) {
+ for (PatchNameList::const_iterator p = pnl.begin(); p != pnl.end(); ++p) {
_patch_map[(*p)->patch_primary_key()] = (*p);
_patch_list.push_back ((*p)->patch_primary_key());
}
ChannelNameSet::set_state (const XMLTree& tree, const XMLNode& node)
{
assert(node.name() == "ChannelNameSet");
- _name = node.property("Name")->value();
+ _name = node.property("Name")->value();
const XMLNodeList children = node.children();
for (XMLNodeList::const_iterator i = children.begin(); i != children.end(); ++i) {
if (node->name() == "AvailableForChannels") {
boost::shared_ptr<XMLSharedNodeList> channels =
tree.find("//AvailableChannel[@Available = 'true']/@Channel", node);
- for(XMLSharedNodeList::const_iterator i = channels->begin();
+ for (XMLSharedNodeList::const_iterator i = channels->begin();
i != channels->end();
++i) {
- _available_for_channels.insert(atoi((*i)->attribute_value().c_str()));
+ _available_for_channels.insert(
+ string_to_int(tree, (*i)->attribute_value()));
}
- }
-
- if (node->name() == "PatchBank") {
+ } else if (node->name() == "PatchBank") {
boost::shared_ptr<PatchBank> bank (new PatchBank ());
bank->set_state(tree, *node);
_patch_banks.push_back(bank);
- const PatchBank::PatchNameList& patches = bank->patch_name_list();
- for (PatchBank::PatchNameList::const_iterator patch = patches.begin();
+ const PatchNameList& patches = bank->patch_name_list();
+ for (PatchNameList::const_iterator patch = patches.begin();
patch != patches.end();
++patch) {
_patch_map[(*patch)->patch_primary_key()] = *patch;
_patch_list.push_back((*patch)->patch_primary_key());
}
- }
-
- if (node->name() == "UsesNoteNameList") {
+ } else if (node->name() == "UsesNoteNameList") {
_note_list_name = node->property ("Name")->value();
+ } else if (node->name() == "UsesControlNameList") {
+ _control_list_name = node->property ("Name")->value();
}
}
boost::shared_ptr<XMLSharedNodeList> channel_name_set_assignments =
tree.find("//ChannelNameSetAssign", const_cast<XMLNode *>(&a_node));
- for(XMLSharedNodeList::const_iterator i = channel_name_set_assignments->begin();
+ for (XMLSharedNodeList::const_iterator i = channel_name_set_assignments->begin();
i != channel_name_set_assignments->end();
++i) {
- int channel = atoi((*i)->property("Channel")->value().c_str());
- string name_set = (*i)->property("NameSet")->value();
+ const int channel = string_to_int(tree, (*i)->property("Channel")->value());
+ const string& name_set = (*i)->property("NameSet")->value();
assert( 1 <= channel && channel <= 16 );
_channel_name_set_assignments[channel - 1] = name_set;
}
return *custom_device_mode;
}
-boost::shared_ptr<CustomDeviceMode>
-MasterDeviceNames::custom_device_mode_by_name(std::string mode_name)
+boost::shared_ptr<const ValueNameList>
+MasterDeviceNames::value_name_list_by_control(const std::string& mode, uint8_t channel, uint8_t number)
+{
+ boost::shared_ptr<ChannelNameSet> chan_names = channel_name_set_by_channel(mode, channel);
+ if (!chan_names) {
+ return boost::shared_ptr<const ValueNameList>();
+ }
+
+ boost::shared_ptr<ControlNameList> control_names = control_name_list(chan_names->control_list_name());
+ if (!control_names) {
+ return boost::shared_ptr<const ValueNameList>();
+ }
+
+ boost::shared_ptr<const Control> control = control_names->control(number);
+ if (!control) {
+ return boost::shared_ptr<const ValueNameList>();
+ }
+
+ if (!control->value_name_list_name().empty()) {
+ return value_name_list(control->value_name_list_name());
+ } else {
+ return control->value_name_list();
+ }
+}
+
+boost::shared_ptr<CustomDeviceMode>
+MasterDeviceNames::custom_device_mode_by_name(const std::string& mode_name)
{
return _custom_device_modes[mode_name];
}
-boost::shared_ptr<ChannelNameSet>
-MasterDeviceNames::channel_name_set_by_device_mode_and_channel(std::string mode, uint8_t channel)
+boost::shared_ptr<ChannelNameSet>
+MasterDeviceNames::channel_name_set_by_channel(const std::string& mode, uint8_t channel)
{
boost::shared_ptr<CustomDeviceMode> cdm = custom_device_mode_by_name(mode);
boost::shared_ptr<ChannelNameSet> cns = _channel_name_sets[cdm->channel_name_set_name_by_channel(channel)];
return cns;
}
-boost::shared_ptr<Patch>
-MasterDeviceNames::find_patch(std::string mode, uint8_t channel, const PatchPrimaryKey& key)
+boost::shared_ptr<Patch>
+MasterDeviceNames::find_patch(const std::string& mode, uint8_t channel, const PatchPrimaryKey& key)
{
- return channel_name_set_by_device_mode_and_channel(mode, channel)->find_patch(key);
+ boost::shared_ptr<ChannelNameSet> cns = channel_name_set_by_channel(mode, channel);
+ if (!cns) return boost::shared_ptr<Patch>();
+ return cns->find_patch(key);
}
boost::shared_ptr<ChannelNameSet>
return boost::shared_ptr<ChannelNameSet>();
}
+boost::shared_ptr<ControlNameList>
+MasterDeviceNames::control_name_list(const std::string& name)
+{
+ ControlNameLists::const_iterator i = _control_name_lists.find(name);
+ if (i != _control_name_lists.end()) {
+ return i->second;
+ }
+ return boost::shared_ptr<ControlNameList>();
+}
+
+boost::shared_ptr<ValueNameList>
+MasterDeviceNames::value_name_list(const std::string& name)
+{
+ ValueNameLists::const_iterator i = _value_name_lists.find(name);
+ if (i != _value_name_lists.end()) {
+ return i->second;
+ }
+ return boost::shared_ptr<ValueNameList>();
+}
+
boost::shared_ptr<NoteNameList>
MasterDeviceNames::note_name_list(const std::string& name)
{
return "";
}
+ boost::shared_ptr<const NoteNameList> note_names;
boost::shared_ptr<const Patch> patch(
find_patch(mode_name, channel, PatchPrimaryKey(program, bank)));
- if (!patch) {
- return "";
+ if (patch) {
+ note_names = note_name_list(patch->note_list_name());
}
- boost::shared_ptr<const NoteNameList> note_names(
- note_name_list(patch->note_list_name()));
if (!note_names) {
/* No note names specific to this patch, check the ChannelNameSet */
- boost::shared_ptr<ChannelNameSet> chan_names = channel_name_set_by_device_mode_and_channel(
+ boost::shared_ptr<ChannelNameSet> chan_names = channel_name_set_by_channel(
mode_name, channel);
if (chan_names) {
note_names = note_name_list(chan_names->note_list_name());
++i) {
boost::shared_ptr<NoteNameList> note_name_list(new NoteNameList());
note_name_list->set_state (tree, *(*i));
- _note_name_lists[(*i)->property ("Name")->value()] = note_name_list;
+ _note_name_lists[note_name_list->name()] = note_name_list;
}
// ControlNameLists
++i) {
boost::shared_ptr<ControlNameList> control_name_list(new ControlNameList());
control_name_list->set_state (tree, *(*i));
- _control_name_lists.push_back(control_name_list);
+ _control_name_lists[control_name_list->name()] = control_name_list;
+ }
+
+ // ValueNameLists
+ boost::shared_ptr<XMLSharedNodeList> value_name_lists = tree.find("/child::MIDINameDocument/child::MasterDeviceNames/child::ValueNameList");
+ for (XMLSharedNodeList::iterator i = value_name_lists->begin();
+ i != value_name_lists->end();
+ ++i) {
+ boost::shared_ptr<ValueNameList> value_name_list(new ValueNameList());
+ value_name_list->set_state (tree, *(*i));
+ _value_name_lists[value_name_list->name()] = value_name_list;
}
// global/post-facto PatchNameLists
i != patch_name_lists->end();
++i) {
- PatchBank::PatchNameList patch_name_list;
+ PatchNameList patch_name_list;
const XMLNodeList patches = (*i)->children();
for (XMLNodeList::const_iterator p = patches.begin(); p != patches.end(); ++p) {
PatchNameLists::iterator p;
for (ChannelNameSet::PatchBanks::iterator pb = pbs.begin(); pb != pbs.end(); ++pb) {
- std::string pln = (*pb)->patch_list_name();
+ const std::string& pln = (*pb)->patch_list_name();
if (!pln.empty()) {
if ((p = _patch_name_lists.find (pln)) != _patch_name_lists.end()) {
if ((*pb)->set_patch_name_list (p->second)) {
return nothing;
}
-MIDINameDocument::MIDINameDocument (const string& filename)
+MIDINameDocument::MIDINameDocument (const string& file_path)
+ : _file_path(file_path)
{
- if (!_document.read (filename)) {
+ XMLTree document;
+ if (!document.read (file_path)) {
throw failed_constructor ();
}
- _document.set_filename (filename);
- set_state (_document, *_document.root());
+ document.set_filename (file_path);
+ set_state (document, *document.root());
}
int
error << "No author information in MIDNAM file" << endmsg;
return -1;
}
-
+
if (author->front()->children().size() > 0) {
_author = author->front()->children().front()->content();
}
_master_device_names_list.insert(
std::pair<std::string, boost::shared_ptr<MasterDeviceNames> >
(*model, master_device_names));
-
+
_all_models.insert(*model);
}
}