def get_connections(self):
if self.__connections is not None:
return self.__connections
connections = {}
for i in range(0,self.__snap.agent_count()):
agent = self.__snap.get_agent_index(i)
address = agent.get_address()
root = agent.get_root()
signature = root.get_data()
if agent.get_type()>1 or not signature.is_dict():
continue
node = Node(root,address,(),self)
for a in node.iter_tree():
tgt = a.id()
for src in a.get_master():
src_server,src_path = paths.breakid_list(src)
connections.setdefault(src_server,{}).setdefault(tuple(src_path),set()).add(tgt)
self.__connections = connections
return connections
def __getfullname(snap, cache, address):
(id, path) = paths.breakid_list(address)
if id in cache:
return paths.makeid_list(cache[id], *path)
agent = snap.get_agent_address(0, id, False)
if not agent.isvalid():
agent = snap.get_agent_address(1, id, False)
if not agent.isvalid():
cache[id] = id
return paths.makeid_list(id, *path)
root = agent.get_root()
sig = root.get_data().as_string().split(':')
parent_name = None
if guid.isguid(address) and len(sig) > 3:
parent = __findroot(snap, guid.split(address)[0])
parent_name = __getfullname(snap, cache, parent)
node = Node(root, id, ())
name = node.getname()
if parent_name:
name = parent_name + ' ' + name
cache[id] = name
return paths.makeid_list(name, *path)
def mimic_connections(self,fr,to,name,argstocopy=(0,1,3)):
from_input = self.get_node(*fr)
if from_input:
input_name = from_input.get_name()
input_connections = from_input.get_meta('master')
if input_connections and input_connections.is_string() and input_connections.as_string():
input_connections_parsed = logic.parse_termlist(input_connections.as_string())
output_connections = []
if input_connections_parsed:
for input_conn in input_connections_parsed:
upstream_addr,upstream_path = paths.breakid_list(input_conn.args[2])
upstream_root = self.tools.get_root(upstream_addr)
if upstream_root:
upstream_node = upstream_root
for n in upstream_path[:-1]:
c = upstream_node.get_node(n)
if c:
upstream_node = c
for c in upstream_node.iter():
if name == c.get_name():
conn = logic.make_term('conn',input_conn.args[0] if 0 in argstocopy else None,input_conn.args[1] if 1 in argstocopy else None,c.id(),input_conn.args[3] if 3 in argstocopy else None)
output_connections.append(conn)
if len(output_connections):
conn_txt = logic.render_termlist(output_connections)
c = self.ensure_node(*to)
c.set_meta_string('master', conn_txt)
print 'connected',name,'for',c.id(),'from',conn_txt
def move_connections(self,old_id,new_id):
connections = self.get_connections()
old_server,old_path = paths.breakid_list(old_id)
old_path = tuple(old_path)
old_path_len = len(old_path)
old_connections = connections.get(old_server,{})
new_server,new_path = paths.breakid_list(new_id)
new_path = tuple(new_path)
for src_path,tgt_id_set in old_connections.items():
if src_path[:old_path_len] == old_path:
old_src_id = paths.makeid_list(old_server,*src_path)
new_src_id = paths.makeid_list(new_server,*(new_path+src_path[old_path_len:]))
for tgt_id in tgt_id_set:
tgt_server,tgt_path = paths.breakid_list(tgt_id)
tgt_node = self.get_root(tgt_server).get_node(*tgt_path)
if tgt_node:
tgt_node.move_connection(old_src_id,new_src_id)
def dump_agent(db, snap, address):
(name, path) = paths.breakid_list(address)
agents = snap.agent_count()
for i in range(0, agents):
agent = snap.get_agent_index(i)
if agent.get_address() == name:
dump_node(db, snap, address, agent, path)
return
print 'No agent', name
def __getportname(snap, address):
(id, path) = paths.breakid_list(address)
agent = snap.get_agent_address(0, id, False)
if not agent.isvalid():
agent = snap.get_agent_address(1, id, False)
if not agent.isvalid():
return id, '.'.join([str(p) for p in path])
agent_node = Node(agent.get_root(), id, ())
port_node = agent_node.get_node(*path)
port_name = port_node.get_node(255, 8)
if not port_name:
return id, '.'.join([str(p) for p in path])
return id, port_name.get_data().as_string()
def __getname(snap, cache, address):
(id, path) = paths.breakid_list(address)
if id in cache:
return paths.makeid_list(cache[id], *path)
agent = snap.get_agent_address(0, id, False)
if not agent.isvalid():
agent = snap.get_agent_address(1, id, False)
if not agent.isvalid():
cache[id] = id
return paths.makeid_list(id, *path)
root = agent.get_root()
node = Node(root, id, ())
name = node.getname()
cache[id] = name
return paths.makeid_list(name, *path)
def __substitute_connection(self, tgt, old_id, new_id):
(s, p) = paths.breakid_list(tgt)
root = self.root(s)
atom = root.get_node(*p)
if atom is None: return
conn = atom.get_node(255, 2)
if conn is None: return
old_conn = logic.parse_clauselist(conn.get_string_default(''))
new_conn = []
for c in old_conn:
if c.args[2] == old_id:
new_conn.append(
logic.make_term(c.pred, c.args[0], c.args[1], new_id,
c.args[3]))
else:
new_conn.append(c)
conn.set_string(logic.render_termlist(new_conn))
def phase2_1_0_2(self, tools, address):
print 'upgrading converter', address
root = tools.get_root(address)
freq_input = root.ensure_node(2, 2)
scaler_conn = freq_input.get_master()
if not scaler_conn: return
scaler_addr = paths.id2server(scaler_conn[0])
scaler_root = tools.get_root(scaler_addr)
if not scaler_root: return
scaler_type = scaler_root.get_meta_string('plugin')
if scaler_type != 'scaler': return
print 'scaler is', scaler_addr
scaler_pressure_input = scaler_root.get_node(4, 2)
recorder_conn = scaler_pressure_input.get_master()
if not recorder_conn: return
recorder_addr = paths.id2server(recorder_conn[0])
recorder_root = tools.get_root(recorder_addr)
if not recorder_root: return
recorder_type = recorder_root.get_meta_string('plugin')
if recorder_type != 'recorder': return
print 'recorder is', recorder_addr
available_sources = {}
available_sources['pressure'] = paths.makeid_list(scaler_addr, 1, 2)
available_sources['roll'] = paths.makeid_list(scaler_addr, 1, 3)
available_sources['yaw'] = paths.makeid_list(scaler_addr, 1, 4)
available_sources['key position'] = paths.makeid_list(
scaler_addr, 1, 2)
for i in range(5, 15):
recorder_input = recorder_root.get_node(1, i)
if recorder_input:
input_name = recorder_input.get_name()
input_conn = recorder_input.get_master()
if not input_conn: continue
upstream_addr, upstream_path = paths.breakid_list(
input_conn[0])
upstream_root = tools.get_root(upstream_addr)
if not upstream_root: continue
upstream = upstream_root.get_node(*upstream_path)
if not upstream: continue
upstream_name = upstream.get_name().split()
if 'output' in upstream_name: upstream_name.remove('output')
upstream_name = ' '.join(upstream_name)
if upstream_name == 'controller': continue
output_id = paths.makeid_list(recorder_addr, 2, i)
print 'recorder output', i, 'at', output_id, 'called', input_name, 'connected to', upstream_name
available_sources[upstream_name] = output_id
for n, id in available_sources.items():
print 'source', n, 'at', id
desired_sources = {
'pressure': 1,
'roll': 2,
'yaw': 3,
'breath': 4,
'strip position 1': 5,
'absolute strip 1': 6,
'strip position 2': 7,
'absolute strip 2': 8,
'pedal 1': 9,
'pedal 2': 10,
'pedal 3': 11,
'pedal 4': 12,
'key position': 16,
}
active_sources = {}
for k in range(1, 17):
parm_node = root.ensure_node(12, k)
parm_node.set_meta('master', piw.data())
parm_node.set_name('parameter %d' % k)
for k, v in desired_sources.items():
if k in available_sources:
conn = logic.make_term('conn', None, None,
available_sources[k], None)
conn_txt = logic.render_term(conn)
parm_node = root.ensure_node(12, v)
parm_node.set_meta_string('master', conn_txt)
parm_node.set_name(k)
if v < 16: # dont map anything to key position
active_sources[available_sources[k]] = v
print 'connected', parm_node.id(), 'to', conn_txt, 'called', k
print 'checking for midi output', active_sources
my_controller = None
all_agents = tools.get_agents()
for agent in all_agents:
agent_root = tools.get_root(agent)
if not agent_root: continue
agent_type = agent_root.get_meta_string('plugin')
if agent_type != 'midi_output': continue
agent_midi_input = agent_root.get_node(2)
if not agent_midi_input: continue
agent_conn = [
paths.id2server(i) for i in agent_midi_input.get_master()
]
print agent, 'is midi output', agent_conn, root.id()
if root.id() not in agent_conn: continue
print 'my midi output', agent
for i in agent_conn:
controller_root = tools.get_root(i)
controller_type = controller_root.get_meta_string('plugin')
if controller_type != 'midi_controller': continue
my_controller = controller_root
break
if my_controller: break
if not my_controller: return
cc1 = self.get_midi_cc(my_controller, 1)
cc2 = self.get_midi_cc(my_controller, 2)
cc3 = self.get_midi_cc(my_controller, 3)
cc4 = self.get_midi_cc(my_controller, 4)
print 'midi controller', my_controller.id(), cc1, cc2, cc3, cc4
global_map = {}
self.check_midi_controller(my_controller, (2, 1), 7, active_sources,
global_map) # volume
self.check_midi_controller(my_controller, (2, 2), 1, active_sources,
global_map) # modwheel
self.check_midi_controller(my_controller, (2, 3), 10, active_sources,
global_map) # pan
self.check_midi_controller(my_controller, (2, 4), 4, active_sources,
global_map) # foot pedal
self.check_midi_controller(my_controller, (2, 5), 11, active_sources,
global_map) # EXPRESSION
self.check_midi_controller(my_controller, (2, 6), 130, active_sources,
global_map) # channel pressure
self.check_midi_controller(my_controller, (2, 7), 131, active_sources,
global_map) # pitch bend
self.check_midi_controller(my_controller, (2, 8), 64, active_sources,
global_map) # sustain pedal
self.check_midi_controller(my_controller, (2, 9), cc1, active_sources,
global_map)
self.check_midi_controller(my_controller, (2, 10), cc2, active_sources,
global_map)
self.check_midi_controller(my_controller, (2, 11), cc3, active_sources,
global_map)
self.check_midi_controller(my_controller, (2, 12), cc4, active_sources,
global_map)
local_map = {}
self.check_midi_controller(root, (2, 4), 7, active_sources,
local_map) # volume
self.check_midi_controller(root, (2, 5), 1, active_sources,
local_map) # modwheel
self.check_midi_controller(root, (2, 6), 10, active_sources,
local_map) # pan
self.check_midi_controller(root, (2, 7), 4, active_sources,
local_map) # foot pedal
self.check_midi_controller(root, (2, 8), 11, active_sources,
local_map) # expression
self.check_midi_controller(root, (2, 9), 130, active_sources,
local_map) # channel pressure
self.check_midi_controller(root, (2, 10), 128, active_sources,
local_map) # poly pressure
self.check_midi_controller(root, (2, 11), 131, active_sources,
local_map) # pitch bend
self.check_midi_controller(root, (2, 12), 64, active_sources,
local_map) # sustain pedal
print 'per key mappings', local_map
print 'global mappings', global_map
map_node = root.ensure_node(255, 1)
map_data = map_node.get_data()
map_list = []
if map_data.is_string() and map_data.as_string(
) and map_data.as_string() != '[]':
print 'map data', map_data.as_string()
map_term = logic.parse_term(map_data.as_string())
map_list = map_term.args
bits_14 = set([0x07, 0x01, 0x0a, 0x04, 0x0b])
for cc, p in local_map.items():
ccl = (cc + 32) if cc < 32 else -1
res = const.resolution_bits_7 if cc not in bits_14 else const.resolution_bits_14
map_list = list(map_list)
map_list.append(
logic.make_term('c', p, cc, 1.0, 0, 0, 1.0, True,
const.scope_pernote, ccl, ccl))
for cc, p in global_map.items():
ccl = (cc + 32) if cc < 32 else -1
res = const.resolution_bits_7 if cc not in bits_14 else const.resolution_bits_14
map_list.append(
logic.make_term('c', p, cc, 1.0, 0, 0, 1.0, True,
const.scope_global, ccl, ccl))
map_term = logic.make_term('mapping', *map_list)
map_node.set_data(piw.makestring(logic.render_term(map_term), 0))
