Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*/
+#include <cctype>
#include <string>
#include <vector>
#include <limits>
#include "pbd/stl_delete.h"
#include "pbd/compose.h"
#include "pbd/error.h"
+#include "pbd/replace_all.h"
#include "pbd/xml++.h"
#include "libardour-config.h"
#include "ardour/worker.h"
#include "ardour/search_paths.h"
-#include "i18n.h"
+#include "pbd/i18n.h"
#include <locale.h>
#include <lilv/lilv.h>
LilvNode* ev_EventPort;
LilvNode* ext_logarithmic;
LilvNode* ext_notOnGUI;
+ LilvNode* ext_expensive;
+ LilvNode* ext_causesArtifacts;
+ LilvNode* ext_notAutomatic;
+ LilvNode* ext_rangeSteps;
LilvNode* lv2_AudioPort;
LilvNode* lv2_ControlPort;
LilvNode* lv2_InputPort;
LilvNode* auto_can_write_automatation; // lv2:optionalFeature
LilvNode* auto_automation_control; // atom:supports
LilvNode* auto_automation_controlled; // lv2:portProperty
+ LilvNode* auto_automation_controller; // lv2:portProperty
#endif
private:
{
char* str = NULL;
const int ret = g_vasprintf(&str, fmt, args);
+ /* strip trailing whitespace */
+ while (strlen (str) > 0 && isspace (str[strlen (str) - 1])) {
+ str[strlen (str) - 1] = '\0';
+ }
+ if (strlen (str) == 0) {
+ return 0;
+ }
+
if (type == URIMap::instance().urids.log_Error) {
error << str << endmsg;
} else if (type == URIMap::instance().urids.log_Warning) {
throw failed_constructor();
}
+ if ((flags & PORT_INPUT) && (flags & PORT_CONTROL)) {
+ if (lilv_port_has_property(_impl->plugin, port, _world.ext_causesArtifacts)) {
+ flags |= PORT_NOAUTO;
+ }
+ if (lilv_port_has_property(_impl->plugin, port, _world.ext_notAutomatic)) {
+ flags |= PORT_NOAUTO;
+ }
+ if (lilv_port_has_property(_impl->plugin, port, _world.ext_expensive)) {
+ flags |= PORT_NOAUTO;
+ }
+ }
#ifdef LV2_EXTENDED
if (lilv_port_has_property(_impl->plugin, port, _world.auto_automation_controlled)) {
if ((flags & PORT_INPUT) && (flags & PORT_CONTROL)) {
flags |= PORT_CTRLED;
}
}
+ if (lilv_port_has_property(_impl->plugin, port, _world.auto_automation_controller)) {
+ if ((flags & PORT_INPUT) && (flags & PORT_CONTROL)) {
+ flags |= PORT_CTRLER;
+ }
+ }
#endif
_port_flags.push_back(flags);
return "";
}
+bool
+LV2Plugin::get_layout (uint32_t which, UILayoutHint& h) const
+{
+ /// TODO lookup port-properties
+ if (unique_id () != "urn:ardour:a-eq") {
+ return false;
+ }
+ h.knob = true;
+ switch (which) {
+ case 0: h.x0 = 0; h.x1 = 1; h.y0 = 2; h.y1 = 3; break; // Frequency L
+ case 1: h.x0 = 0; h.x1 = 1; h.y0 = 0; h.y1 = 1; break; // Gain L
+ case 17: h.x0 = 0; h.x1 = 1; h.y0 = 5; h.y1 = 6; break; // enable L
+
+ case 2: h.x0 = 1; h.x1 = 3; h.y0 = 2; h.y1 = 3; break; // Frequency 1
+ case 3: h.x0 = 1; h.x1 = 3; h.y0 = 0; h.y1 = 1; break; // Gain 1
+ case 4: h.x0 = 2; h.x1 = 4; h.y0 = 1; h.y1 = 2; break; // Bandwidth 1
+ case 18: h.x0 = 1; h.x1 = 4; h.y0 = 5; h.y1 = 6; break; // enable 1
+
+ case 5: h.x0 = 4; h.x1 = 6; h.y0 = 2; h.y1 = 3; break; // Frequency 2
+ case 6: h.x0 = 4; h.x1 = 6; h.y0 = 0; h.y1 = 1; break; // Gain 2
+ case 7: h.x0 = 5; h.x1 = 7; h.y0 = 1; h.y1 = 2; break; // Bandwidth 2
+ case 19: h.x0 = 4; h.x1 = 7; h.y0 = 5; h.y1 = 6; break; // enable 2
+
+ case 8: h.x0 = 7; h.x1 = 9; h.y0 = 2; h.y1 = 3; break; // Frequency 3
+ case 9: h.x0 = 7; h.x1 = 9; h.y0 = 0; h.y1 = 1; break; // Gain 3
+ case 10: h.x0 = 8; h.x1 = 10; h.y0 = 1; h.y1 = 2; break; // Bandwidth 3
+ case 20: h.x0 = 7; h.x1 = 10; h.y0 = 5; h.y1 = 6; break; // enable 3
+
+ case 11: h.x0 = 10; h.x1 = 12; h.y0 = 2; h.y1 = 3; break; // Frequency 4
+ case 12: h.x0 = 10; h.x1 = 12; h.y0 = 0; h.y1 = 1; break; // Gain 4
+ case 13: h.x0 = 11; h.x1 = 13; h.y0 = 1; h.y1 = 2; break; // Bandwidth 4
+ case 21: h.x0 = 10; h.x1 = 13; h.y0 = 5; h.y1 = 6; break; // enable 4
+
+ case 14: h.x0 = 13; h.x1 = 14; h.y0 = 2; h.y1 = 3; break; // Frequency H
+ case 15: h.x0 = 13; h.x1 = 14; h.y0 = 0; h.y1 = 1; break; // Gain H
+ case 22: h.x0 = 13; h.x1 = 14; h.y0 = 5; h.y1 = 6; break; // enable H
+
+
+ case 16: h.x0 = 14; h.x1 = 15; h.y0 = 4; h.y1 = 6; break; // Master Gain
+ default:
+ return false;
+ }
+ return true;
+}
+
uint32_t
LV2Plugin::nth_parameter(uint32_t n, bool& ok) const
{
LilvNode* render = get_value(lworld, unit, _world.units_render);
if (render) {
desc.print_fmt = lilv_node_as_string(render);
+ replace_all (desc.print_fmt, "%f", "%.2f");
lilv_node_free(render);
}
}
lilv_port_get_range(_impl->plugin, port, &def, &min, &max);
portunits = lilv_port_get_value(_impl->plugin, port, _world.units_unit);
+ LilvNode* steps = lilv_port_get(_impl->plugin, port, _world.ext_rangeSteps);
+
// TODO: Once we can rely on lilv 0.18.0 being present,
// load_parameter_descriptor() can be used for ports as well
desc.integer_step = lilv_port_has_property(_impl->plugin, port, _world.lv2_integer);
desc.update_steps();
+ if (steps) {
+ //override auto-calculated steps in update_steps()
+ float s = lilv_node_as_float (steps);
+ const float delta = desc.upper - desc.lower;
+
+ desc.step = desc.smallstep = (delta / s);
+ desc.largestep = std::min ((delta / 5.0f), 10.f * desc.smallstep);
+
+ if (desc.logarithmic) {
+ // TODO marry AutomationControl::internal_to_interface () with
+ // http://lv2plug.in/ns/ext/port-props/#rangeSteps
+ desc.smallstep = desc.smallstep / logf(s);
+ desc.step = desc.step / logf(s);
+ desc.largestep = desc.largestep / logf(s);
+ } else if (desc.integer_step) {
+ desc.smallstep = 1.0;
+ desc.step = std::max(1.f, rintf (desc.step));
+ desc.largestep = std::max(1.f, rintf (desc.largestep));
+ }
+ DEBUG_TRACE(DEBUG::LV2, string_compose("parameter %1 small: %2, step: %3 largestep: %4\n",
+ which, desc.smallstep, desc.step, desc.largestep));
+ }
+
+
lilv_node_free(def);
lilv_node_free(min);
lilv_node_free(max);
+ lilv_node_free(steps);
lilv_nodes_free(portunits);
return 0;
set<Evoral::Parameter> ret;
for (uint32_t i = 0; i < parameter_count(); ++i) {
- if (parameter_is_input(i) && parameter_is_control(i)) {
+ if (parameter_is_input(i) && parameter_is_control(i) && !(_port_flags[i] & PORT_NOAUTO)) {
ret.insert(ret.end(), Evoral::Parameter(PluginAutomation, 0, i));
}
}
void
LV2Plugin::set_automation_control (uint32_t i, boost::shared_ptr<AutomationControl> c)
{
- if ((_port_flags[i] & PORT_CTRLED)) {
+ if ((_port_flags[i] & (PORT_CTRLED | PORT_CTRLER))) {
+ DEBUG_TRACE(DEBUG::LV2Automate, string_compose ("Ctrl Port %1\n", i));
_ctrl_map [i] = AutomationCtrlPtr (new AutomationCtrl(c));
}
}
int
LV2Plugin::connect_and_run(BufferSet& bufs,
- ChanMapping in_map, ChanMapping out_map,
- pframes_t nframes, framecnt_t offset)
+ framepos_t start, framepos_t end, double speed,
+ ChanMapping in_map, ChanMapping out_map,
+ pframes_t nframes, framecnt_t offset)
{
DEBUG_TRACE(DEBUG::LV2, string_compose("%1 run %2 offset %3\n", name(), nframes, offset));
- Plugin::connect_and_run(bufs, in_map, out_map, nframes, offset);
+ Plugin::connect_and_run(bufs, start, end, speed, in_map, out_map, nframes, offset);
cycles_t then = get_cycles();
TempoMap& tmap = _session.tempo_map();
Metrics::const_iterator metric_i = tmap.metrics_end();
- TempoMetric tmetric = tmap.metric_at(_session.transport_frame(), &metric_i);
+ TempoMetric tmetric = tmap.metric_at(start, &metric_i);
if (_freewheel_control_port) {
*_freewheel_control_port = _session.engine().freewheeling() ? 1.f : 0.f;
}
#ifdef LV2_EXTENDED
- if (_can_write_automation && _session.transport_frame() != _next_cycle_start) {
+ if (_can_write_automation && start != _next_cycle_start) {
// add guard-points after locating
for (AutomationCtrlMap::iterator i = _ctrl_map.begin(); i != _ctrl_map.end(); ++i) {
i->second->guard = true;
if (valid && (flags & PORT_INPUT)) {
Timecode::BBT_Time bbt;
if ((flags & PORT_POSITION)) {
- if (_session.transport_frame() != _next_cycle_start ||
- _session.transport_speed() != _next_cycle_speed) {
+ if (start != _next_cycle_start ||
+ speed != _next_cycle_speed) {
// Transport has changed, write position at cycle start
- tmap.bbt_time(_session.transport_frame(), bbt);
+ bbt = tmap.bbt_at_frame (start);
write_position(&_impl->forge, _ev_buffers[port_index],
- tmetric, bbt, _session.transport_speed(),
- _session.transport_frame(), 0);
+ tmetric, bbt, speed, start, 0);
}
}
// Now merge MIDI and any transport events into the buffer
const uint32_t type = _uri_map.urids.midi_MidiEvent;
- const framepos_t tend = _session.transport_frame() + nframes;
+ const framepos_t tend = end;
++metric_i;
while (m != m_end || (metric_i != tmap.metrics_end() &&
(*metric_i)->frame() < tend)) {
++m;
} else {
tmetric.set_metric(metric);
- bbt = tmap.beats_to_bbt (metric->beat());
+ bbt = tmap.bbt_at_pulse (metric->pulse());
write_position(&_impl->forge, _ev_buffers[port_index],
- tmetric, bbt, _session.transport_speed(),
+ tmetric, bbt, speed,
metric->frame(),
- metric->frame() - _session.transport_frame());
+ metric->frame() - start);
++metric_i;
}
}
const uint32_t p = ((const LV2_Atom_Int*)parameter)->body;
const float v = ((const LV2_Atom_Float*)value)->body;
// -> add automation event..
+ DEBUG_TRACE(DEBUG::LV2Automate,
+ string_compose ("Event p: %1 t: %2 v: %3\n", p, frames, v));
AutomationCtrlPtr c = get_automation_control (p);
- if (c && c->ac->automation_state() == Touch) {
+ if (c &&
+ (c->ac->automation_state() == Touch || c->ac->automation_state() == Write)
+ ) {
+ framepos_t when = std::max ((framepos_t) 0, start + frames - _current_latency);
+ assert (start + frames - _current_latency >= 0);
if (c->guard) {
c->guard = false;
- c->ac->list()->add (_session.transport_frame() + frames, v, true, true);
+ c->ac->list()->add (when, v, true, true);
} else {
- c->ac->set_double (v, _session.transport_frame() + frames, true);
+ c->ac->set_double (v, when, true);
}
}
}
// writes automation for its own inputs
// -> put them in "touch" mode (preferably "exclusive plugin touch(TM)"
for (AutomationCtrlMap::iterator i = _ctrl_map.begin(); i != _ctrl_map.end(); ++i) {
- i->second->ac->set_automation_state (Touch);
+ if (_port_flags[i->first] & PORT_CTRLED) {
+ DEBUG_TRACE(DEBUG::LV2Automate,
+ string_compose ("Setup p: %1\n", i->first));
+ i->second->ac->set_automation_state (Touch);
+ }
}
}
else if (obj->body.otype == _uri_map.urids.auto_finalize) {
// set [touched] parameters to "play" ??
+ // allow plugin to change its mode (from analyze to apply)
+ const LV2_Atom* parameter = NULL;
+ const LV2_Atom* value = NULL;
+ lv2_atom_object_get(obj,
+ _uri_map.urids.auto_parameter, ¶meter,
+ _uri_map.urids.auto_value, &value,
+ 0);
+ if (parameter && value) {
+ const uint32_t p = ((const LV2_Atom_Int*)parameter)->body;
+ const float v = ((const LV2_Atom_Float*)value)->body;
+ AutomationCtrlPtr c = get_automation_control (p);
+ DEBUG_TRACE(DEBUG::LV2Automate,
+ string_compose ("Finalize p: %1 v: %2\n", p, v));
+ if (c && _port_flags[p] & PORT_CTRLER) {
+ c->ac->set_value(v, Controllable::NoGroup);
+ }
+ } else {
+ DEBUG_TRACE(DEBUG::LV2Automate, "Finalize\n");
+ }
+ for (AutomationCtrlMap::iterator i = _ctrl_map.begin(); i != _ctrl_map.end(); ++i) {
+ // guard will be false if an event was written
+ if ((_port_flags[i->first] & PORT_CTRLED) && !i->second->guard) {
+ DEBUG_TRACE(DEBUG::LV2Automate,
+ string_compose ("Thin p: %1\n", i->first));
+ i->second->ac->alist ()->thin (20);
+ }
+ }
}
else if (obj->body.otype == _uri_map.urids.auto_start) {
const LV2_Atom* parameter = NULL;
if (parameter) {
const uint32_t p = ((const LV2_Atom_Int*)parameter)->body;
AutomationCtrlPtr c = get_automation_control (p);
+ DEBUG_TRACE(DEBUG::LV2Automate, string_compose ("Start Touch p: %1\n", p));
if (c) {
- c->ac->start_touch (_session.transport_frame());
+ c->ac->start_touch (std::max ((framepos_t)0, start - _current_latency));
c->guard = true;
}
}
if (parameter) {
const uint32_t p = ((const LV2_Atom_Int*)parameter)->body;
AutomationCtrlPtr c = get_automation_control (p);
+ DEBUG_TRACE(DEBUG::LV2Automate, string_compose ("End Touch p: %1\n", p));
if (c) {
- c->ac->stop_touch (true, _session.transport_frame());
+ c->ac->stop_touch (true, std::max ((framepos_t)0, start - _current_latency));
}
}
}
set_cycles((uint32_t)(now - then));
// Update expected transport information for next cycle so we can detect changes
- _next_cycle_speed = _session.transport_speed();
- _next_cycle_start = _session.transport_frame() + (nframes * _next_cycle_speed);
+ _next_cycle_speed = speed;
+ _next_cycle_start = end;
if (_latency_control_port) {
framecnt_t new_latency = signal_latency ();
- if (_current_latency != new_latency) {
- LatencyChanged (_current_latency, new_latency); /* EMIT SIGNAL */
- }
_current_latency = new_latency;
}
return 0;
return _port_flags[param] & PORT_INPUT;
}
+uint32_t
+LV2Plugin::designated_bypass_port ()
+{
+#ifdef LV2_EXTENDED
+ const LilvPort* port = NULL;
+ LilvNode* designation = lilv_new_uri (_world.world, LV2_PROCESSING_URI__enable);
+ port = lilv_plugin_get_port_by_designation (
+ _impl->plugin, _world.lv2_InputPort, designation);
+ lilv_node_free(designation);
+ if (port) {
+ return lilv_port_get_index (_impl->plugin, port);
+ }
+#endif
+ return UINT32_MAX;
+}
+
void
LV2Plugin::print_parameter(uint32_t param, char* buf, uint32_t len) const
{
ev_EventPort = lilv_new_uri(world, LILV_URI_EVENT_PORT);
ext_logarithmic = lilv_new_uri(world, LV2_PORT_PROPS__logarithmic);
ext_notOnGUI = lilv_new_uri(world, LV2_PORT_PROPS__notOnGUI);
+ ext_expensive = lilv_new_uri(world, LV2_PORT_PROPS__expensive);
+ ext_causesArtifacts= lilv_new_uri(world, LV2_PORT_PROPS__causesArtifacts);
+ ext_notAutomatic = lilv_new_uri(world, LV2_PORT_PROPS__notAutomatic);
+ ext_rangeSteps = lilv_new_uri(world, LV2_PORT_PROPS__rangeSteps);
lv2_AudioPort = lilv_new_uri(world, LILV_URI_AUDIO_PORT);
lv2_ControlPort = lilv_new_uri(world, LILV_URI_CONTROL_PORT);
lv2_InputPort = lilv_new_uri(world, LILV_URI_INPUT_PORT);
auto_can_write_automatation = lilv_new_uri(world, LV2_AUTOMATE_URI__can_write);
auto_automation_control = lilv_new_uri(world, LV2_AUTOMATE_URI__control);
auto_automation_controlled = lilv_new_uri(world, LV2_AUTOMATE_URI__controlled);
+ auto_automation_controller = lilv_new_uri(world, LV2_AUTOMATE_URI__controller);
#endif
#ifdef HAVE_LV2_1_2_0
bufz_powerOf2BlockLength = lilv_new_uri(world, LV2_BUF_SIZE__powerOf2BlockLength);
lilv_node_free(auto_can_write_automatation);
lilv_node_free(auto_automation_control);
lilv_node_free(auto_automation_controlled);
+ lilv_node_free(auto_automation_controller);
#endif
lilv_node_free(patch_Message);
lilv_node_free(patch_writable);
lilv_node_free(lv2_InputPort);
lilv_node_free(lv2_ControlPort);
lilv_node_free(lv2_AudioPort);
+ lilv_node_free(ext_rangeSteps);
+ lilv_node_free(ext_notAutomatic);
+ lilv_node_free(ext_causesArtifacts);
+ lilv_node_free(ext_expensive);
lilv_node_free(ext_notOnGUI);
lilv_node_free(ext_logarithmic);
lilv_node_free(ev_EventPort);