461 lines
11 KiB
C++
461 lines
11 KiB
C++
/*
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* Copyright (C) 1998-2017 Paul Davis <paul@linuxaudiosystems.com>
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* Copyright (C) 2009-2010 Carl Hetherington <carl@carlh.net>
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 2 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License along
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* with this program; if not, write to the Free Software Foundation, Inc.,
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* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
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*/
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#include <cstring>
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#include "midi++/types.h"
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#include "midi++/port.h"
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#include "midi++/channel.h"
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using namespace MIDI;
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Channel::Channel (MIDI::byte channelnum, Port &p)
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: _port (p)
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, _channel_number (channelnum)
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, _rpn_msb (0)
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, _rpn_lsb (0)
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, _nrpn_msb (0)
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, _nrpn_lsb (0)
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, _rpn_state (RPNState (0))
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, _nrpn_state (RPNState (0))
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{
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reset (0, 1, false);
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}
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void
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Channel::connect_signals ()
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{
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_port.parser()->channel_pressure[_channel_number].connect_same_thread (*this, boost::bind (&Channel::process_chanpress, this, _1, _2));
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_port.parser()->channel_note_on[_channel_number].connect_same_thread (*this, boost::bind (&Channel::process_note_on, this, _1, _2));
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_port.parser()->channel_note_off[_channel_number].connect_same_thread (*this, boost::bind (&Channel::process_note_off, this, _1, _2));
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_port.parser()->channel_poly_pressure[_channel_number].connect_same_thread (*this, boost::bind (&Channel::process_polypress, this, _1, _2));
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_port.parser()->channel_program_change[_channel_number].connect_same_thread (*this, boost::bind (&Channel::process_program_change, this, _1, _2));
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_port.parser()->channel_controller[_channel_number].connect_same_thread (*this, boost::bind (&Channel::process_controller, this, _1, _2));
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_port.parser()->channel_pitchbend[_channel_number].connect_same_thread (*this, boost::bind (&Channel::process_pitchbend, this, _1, _2));
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_port.parser()->reset.connect_same_thread (*this, boost::bind (&Channel::process_reset, this, _1));
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}
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void
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Channel::reset (timestamp_t timestamp, samplecnt_t /*nframes*/, bool notes_off)
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{
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_program_number = _channel_number;
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_bank_number = 0;
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_pitch_bend = 0;
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_last_note_on = 0;
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_last_note_off = 0;
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_last_on_velocity = 0;
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_last_off_velocity = 0;
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if (notes_off) {
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all_notes_off (timestamp);
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}
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memset (_polypress, 0, sizeof (_polypress));
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memset (_controller_msb, 0, sizeof (_controller_msb));
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memset (_controller_lsb, 0, sizeof (_controller_lsb));
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/* zero all controllers XXX not necessarily the right thing */
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memset (_controller_val, 0, sizeof (_controller_val));
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for (int n = 0; n < 128; n++) {
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_controller_14bit[n] = false;
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}
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rpn_reset ();
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nrpn_reset ();
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_omni = true;
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_poly = false;
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_mono = true;
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_notes_on = 0;
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}
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void
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Channel::rpn_reset ()
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{
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_rpn_msb = 0;
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_rpn_lsb = 0;
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_rpn_val_msb = 0;
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_rpn_val_lsb = 0;
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_rpn_state = RPNState (0);
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}
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void
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Channel::nrpn_reset ()
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{
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_nrpn_msb = 0;
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_nrpn_lsb = 0;
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_nrpn_val_msb = 0;
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_nrpn_val_lsb = 0;
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_nrpn_state = RPNState (0);
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}
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void
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Channel::process_note_off (Parser & /*parser*/, EventTwoBytes *tb)
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{
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_last_note_off = tb->note_number;
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_last_off_velocity = tb->velocity;
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if (_notes_on) {
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_notes_on--;
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}
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}
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void
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Channel::process_note_on (Parser & /*parser*/, EventTwoBytes *tb)
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{
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_last_note_on = tb->note_number;
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_last_on_velocity = tb->velocity;
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_notes_on++;
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}
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const Channel::RPNState Channel::RPN_READY_FOR_VALUE = RPNState (HaveLSB|HaveMSB);
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const Channel::RPNState Channel::RPN_VALUE_READY = RPNState (HaveLSB|HaveMSB|HaveValue);
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bool
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Channel::maybe_process_rpns (Parser& parser, EventTwoBytes *tb)
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{
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switch (tb->controller_number) {
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case 0x62:
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_rpn_state = RPNState (_rpn_state|HaveMSB);
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_rpn_lsb = tb->value;
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if (_rpn_msb == 0x7f && _rpn_lsb == 0x7f) {
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rpn_reset ();
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}
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return true;
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case 0x63:
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_rpn_state = RPNState (_rpn_state|HaveLSB);
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_rpn_msb = tb->value;
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if (_rpn_msb == 0x7f && _rpn_lsb == 0x7f) {
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rpn_reset ();
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}
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return true;
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case 0x64:
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_nrpn_state = RPNState (_rpn_state|HaveMSB);
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_rpn_lsb = tb->value;
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if (_nrpn_msb == 0x7f && _nrpn_lsb == 0x7f) {
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nrpn_reset ();
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}
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return true;
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case 0x65:
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_nrpn_state = RPNState (_rpn_state|HaveLSB);
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_rpn_msb = tb->value;
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if (_rpn_msb == 0x7f && _rpn_lsb == 0x7f) {
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nrpn_reset ();
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}
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return true;
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}
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if ((_nrpn_state & RPN_READY_FOR_VALUE) == RPN_READY_FOR_VALUE) {
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uint16_t rpn_id = (_rpn_msb << 7)|_rpn_lsb;
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switch (tb->controller_number) {
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case 0x60:
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/* data increment */
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_nrpn_state = RPNState (_nrpn_state|HaveValue);
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parser.channel_nrpn_change[_channel_number] (parser, rpn_id, 1); /* EMIT SIGNAL */
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return true;
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case 0x61:
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/* data decrement */
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_nrpn_state = RPNState (_nrpn_state|HaveValue);
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parser.channel_nrpn_change[_channel_number] (parser, rpn_id, -1); /* EMIT SIGNAL */
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return true;
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case 0x06:
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/* data entry MSB */
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_nrpn_state = RPNState (_nrpn_state|HaveValue);
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_nrpn_val_msb = tb->value;
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break;
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case 0x26:
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/* data entry LSB */
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_nrpn_state = RPNState (_nrpn_state|HaveValue);
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_nrpn_val_lsb = tb->value;
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}
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if (_nrpn_state == RPN_VALUE_READY) {
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float rpn_val = ((_rpn_val_msb << 7)|_rpn_val_lsb)/16384.0;
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std::pair<RPNList::iterator,bool> result = nrpns.insert (std::make_pair (rpn_id, rpn_val));
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if (!result.second) {
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result.first->second = rpn_val;
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}
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parser.channel_nrpn[_channel_number] (parser, rpn_id, rpn_val); /* EMIT SIGNAL */
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return true;
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}
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} else if ((_rpn_state & RPN_READY_FOR_VALUE) == RPN_READY_FOR_VALUE) {
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uint16_t rpn_id = (_rpn_msb << 7)|_rpn_lsb;
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switch (tb->controller_number) {
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case 0x60:
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/* data increment */
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_rpn_state = RPNState (_rpn_state|HaveValue);
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parser.channel_rpn_change[_channel_number] (parser, rpn_id, 1); /* EMIT SIGNAL */
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return true;
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case 0x61:
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/* data decrement */
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_rpn_state = RPNState (_rpn_state|HaveValue);
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parser.channel_rpn_change[_channel_number] (parser, rpn_id, -1); /* EMIT SIGNAL */
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return true;
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case 0x06:
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/* data entry MSB */
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_rpn_state = RPNState (_rpn_state|HaveValue);
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_rpn_val_msb = tb->value;
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break;
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case 0x26:
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/* data entry LSB */
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_rpn_state = RPNState (_rpn_state|HaveValue);
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_rpn_val_lsb = tb->value;
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}
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if (_rpn_state == RPN_VALUE_READY) {
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float rpn_val = ((_rpn_val_msb << 7)|_rpn_val_lsb)/16384.0;
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std::pair<RPNList::iterator,bool> result = rpns.insert (std::make_pair (rpn_id, rpn_val));
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if (!result.second) {
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result.first->second = rpn_val;
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}
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parser.channel_rpn[_channel_number] (parser, rpn_id, rpn_val); /* EMIT SIGNAL */
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return true;
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}
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}
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return false;
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}
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void
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Channel::process_controller (Parser & parser, EventTwoBytes *tb)
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{
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unsigned short cv;
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/* XXX arguably need a lock here to protect non-atomic changes
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to controller_val[...]. or rather, need to make sure that
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all changes *are* atomic.
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*/
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if (maybe_process_rpns (parser, tb)) {
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return;
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}
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/* Note: if RPN data controllers (0x60, 0x61, 0x6, 0x26) are received
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* without a previous RPN parameter ID message, or after the RPN ID
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* has been reset, they will be treated like ordinary CC messages.
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*/
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if (tb->controller_number < 32) { /* unsigned: no test for >= 0 */
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/* if this controller is already known to use 14 bits,
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then treat this value as the MSB, and as per MIDI spec, set
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LSB to zero.
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otherwise, just treat it as a 7 bit value, and set
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it directly.
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*/
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cv = (unsigned short) _controller_val[tb->controller_number];
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if (_controller_14bit[tb->controller_number]) {
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cv = (tb->value & 0x7f) << 7;
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} else {
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cv = tb->value;
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}
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_controller_val[tb->controller_number] = (controller_value_t)cv;
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} else if ((tb->controller_number >= 32 &&
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tb->controller_number <= 63)) {
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int cn = tb->controller_number - 32;
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cv = (unsigned short) _controller_val[cn];
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/* LSB for CC 0-31 arrived.
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If this is the first time (i.e. its currently
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flagged as a 7 bit controller), mark the
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controller as 14 bit, adjust the existing value
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to be the MSB, and OR-in the new LSB value.
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otherwise, OR-in the new low 7bits with the old
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high 7.
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*/
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if (_controller_14bit[cn] == false) {
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_controller_14bit[cn] = true;
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cv = (cv << 7) | (tb->value & 0x7f);
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} else {
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cv = (cv & 0x3f80) | (tb->value & 0x7f);
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}
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/* update the 14 bit value */
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_controller_val[cn] = (controller_value_t) cv;
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/* also store the "raw" 7 bit value in the incoming controller
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value store
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*/
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_controller_val[tb->controller_number] = (controller_value_t) tb->value;
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} else {
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/* controller can only take 7 bit values */
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_controller_val[tb->controller_number] =
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(controller_value_t) tb->value;
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}
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/* bank numbers are special, in that they have their own signal
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*/
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if (tb->controller_number == 0 || tb->controller_number == 0x20) {
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_bank_number = _controller_val[0];
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_port.parser()->bank_change (*_port.parser(), _bank_number);
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_port.parser()->channel_bank_change[_channel_number] (*_port.parser(), _bank_number);
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}
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}
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void
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Channel::process_program_change (Parser & /*parser*/, MIDI::byte val)
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{
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_program_number = val;
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}
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void
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Channel::process_chanpress (Parser & /*parser*/, MIDI::byte val)
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{
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_chanpress = val;
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}
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void
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Channel::process_polypress (Parser & /*parser*/, EventTwoBytes *tb)
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{
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_polypress[tb->note_number] = tb->value;
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}
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void
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Channel::process_pitchbend (Parser & /*parser*/, pitchbend_t val)
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{
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_pitch_bend = val;
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}
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void
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Channel::process_reset (Parser & /*parser*/)
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{
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reset (0, 1);
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}
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/** Write a message to a channel.
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* \return true if success
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*/
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bool
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Channel::channel_msg (MIDI::byte id, MIDI::byte val1, MIDI::byte val2, timestamp_t timestamp)
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{
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unsigned char msg[3];
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int len = 0;
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msg[0] = id | (_channel_number & 0xf);
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switch (id) {
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case off:
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msg[1] = val1 & 0x7F;
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msg[2] = val2 & 0x7F;
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len = 3;
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break;
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case on:
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msg[1] = val1 & 0x7F;
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msg[2] = val2 & 0x7F;
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len = 3;
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break;
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case MIDI::polypress:
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msg[1] = val1 & 0x7F;
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msg[2] = val2 & 0x7F;
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len = 3;
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break;
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case controller:
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msg[1] = val1 & 0x7F;
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msg[2] = val2 & 0x7F;
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len = 3;
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break;
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case MIDI::program:
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msg[1] = val1 & 0x7F;
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len = 2;
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break;
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case MIDI::chanpress:
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msg[1] = val1 & 0x7F;
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len = 2;
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break;
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case MIDI::pitchbend:
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msg[1] = val1 & 0x7F;
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msg[2] = val2 & 0x7F;
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len = 3;
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break;
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}
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return _port.midimsg (msg, len, timestamp);
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}
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float
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Channel::rpn_value (uint16_t rpn) const
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{
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return rpn_value_absolute (rpn) / 16384.0f;
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}
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float
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Channel::rpn_value_absolute (uint16_t rpn) const
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{
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RPNList::const_iterator r = rpns.find (rpn);
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if (r == rpns.end()) {
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return 0.0;
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}
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return r->second;
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}
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float
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Channel::nrpn_value (uint16_t nrpn) const
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{
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return nrpn_value_absolute (nrpn) / 16384.0f;
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}
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float
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Channel::nrpn_value_absolute (uint16_t nrpn) const
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{
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RPNList::const_iterator r = nrpns.find (nrpn);
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if (r == nrpns.end()) {
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return 0.0;
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}
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return r->second;
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}
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