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livetrax/libs/midi++2/midichannel.cc
David Robillard e0aaed6d65 *** NEW CODING POLICY *** 
All #include statements that include a header that is a part of a library
bundled with ardour MUST use quotes, not angle brackets.

Do this:

#include "ardour/types.h"

NOT this:

#include <ardour/types.h>

Rationale:

This is best practice in general, to ensure we include the local version
and not the system version.  That quotes mean "local" (in some sense)
and angle brackets mean "system" (in some sense) is a ubiquitous
convention and IIRC right in the C spec somewhere.

More pragmatically, this is required by (my) waf (stuff) for dependencies
to work correctly.  That is:

!!! FAILURE TO DO THIS CAN RESULT IN BROKEN BUILDS !!!

Failure to comply is punishable by death by torture. :)

P.S. It's not that dramatic in all cases, but this (in combination with some
GCC flags specific to the include type) is the best way I have found to be
absolutely 100% positive the local ones are being used (and we definitely
want to be absolutely 100% positive on that one).


git-svn-id: svn://localhost/ardour2/branches/3.0@4655 d708f5d6-7413-0410-9779-e7cbd77b26cf
2009-02-25 18:26:51 +00:00

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/*
Copyright (C) 1998-99 Paul Barton-Davis
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.
$Id$
*/
#include <cstring>
#include "midi++/types.h"
#include "midi++/port.h"
#include "midi++/channel.h"
using namespace sigc;
using namespace MIDI;
Channel::Channel (byte channelnum, Port &p) : _port (p)
{
_channel_number = channelnum;
reset (0, 1, false);
}
void
Channel::connect_input_signals ()
{
_port.input()->channel_pressure[_channel_number].connect
(mem_fun (*this, &Channel::process_chanpress));
_port.input()->channel_note_on[_channel_number].connect
(mem_fun (*this, &Channel::process_note_on));
_port.input()->channel_note_off[_channel_number].connect
(mem_fun (*this, &Channel::process_note_off));
_port.input()->channel_poly_pressure[_channel_number].connect
(mem_fun (*this, &Channel::process_polypress));
_port.input()->channel_program_change[_channel_number].connect
(mem_fun (*this, &Channel::process_program_change));
_port.input()->channel_controller[_channel_number].connect
(mem_fun (*this, &Channel::process_controller));
_port.input()->channel_pitchbend[_channel_number].connect
(mem_fun (*this, &Channel::process_pitchbend));
_port.input()->reset.connect (mem_fun (*this, &Channel::process_reset));
}
void
Channel::connect_output_signals ()
{
_port.output()->channel_pressure[_channel_number].connect
(mem_fun (*this, &Channel::process_chanpress));
_port.output()->channel_note_on[_channel_number].connect
(mem_fun (*this, &Channel::process_note_on));
_port.output()->channel_note_off[_channel_number].connect
(mem_fun (*this, &Channel::process_note_off));
_port.output()->channel_poly_pressure[_channel_number].connect
(mem_fun (*this, &Channel::process_polypress));
_port.output()->channel_program_change[_channel_number].connect
(mem_fun (*this, &Channel::process_program_change));
_port.output()->channel_controller[_channel_number].connect
(mem_fun (*this, &Channel::process_controller));
_port.output()->channel_pitchbend[_channel_number].connect
(mem_fun (*this, &Channel::process_pitchbend));
_port.output()->reset.connect (mem_fun (*this, &Channel::process_reset));
}
void
Channel::reset (timestamp_t timestamp, nframes_t nframes, bool notes_off)
{
_program_number = _channel_number;
_bank_number = 0;
_pitch_bend = 0;
_last_note_on = 0;
_last_note_off = 0;
_last_on_velocity = 0;
_last_off_velocity = 0;
if (notes_off) {
all_notes_off (timestamp);
}
memset (_polypress, 0, sizeof (_polypress));
memset (_controller_msb, 0, sizeof (_controller_msb));
memset (_controller_lsb, 0, sizeof (_controller_lsb));
/* zero all controllers XXX not necessarily the right thing */
memset (_controller_val, 0, sizeof (_controller_val));
for (int n = 0; n < 128; n++) {
_controller_14bit[n] = false;
}
_rpn_msb = 0;
_rpn_lsb = 0;
_nrpn_msb = 0;
_nrpn_lsb = 0;
_omni = true;
_poly = false;
_mono = true;
_notes_on = 0;
}
void
Channel::process_note_off (Parser &parser, EventTwoBytes *tb)
{
_last_note_off = tb->note_number;
_last_off_velocity = tb->velocity;
if (_notes_on) {
_notes_on--;
}
}
void
Channel::process_note_on (Parser &parser, EventTwoBytes *tb)
{
_last_note_on = tb->note_number;
_last_on_velocity = tb->velocity;
_notes_on++;
}
void
Channel::process_controller (Parser &parser, EventTwoBytes *tb)
{
unsigned short cv;
/* XXX arguably need a lock here to protect non-atomic changes
to controller_val[...]. or rather, need to make sure that
all changes *are* atomic.
*/
if (tb->controller_number <= 31) { /* unsigned: no test for >= 0 */
/* if this controller is already known to use 14 bits,
then treat this value as the MSB, and combine it
with the existing LSB.
otherwise, just treat it as a 7 bit value, and set
it directly.
*/
cv = (unsigned short) _controller_val[tb->controller_number];
if (_controller_14bit[tb->controller_number]) {
cv = ((tb->value << 7) | (cv & 0x7f));
} else {
cv = tb->value;
}
_controller_val[tb->controller_number] = (controller_value_t)cv;
} else if ((tb->controller_number >= 32 &&
tb->controller_number <= 63)) {
cv = (unsigned short) _controller_val[tb->controller_number];
/* LSB for CC 0-31 arrived.
If this is the first time (i.e. its currently
flagged as a 7 bit controller), mark the
controller as 14 bit, adjust the existing value
to be the MSB, and OR-in the new LSB value.
otherwise, OR-in the new low 7bits with the old
high 7.
*/
int cn = tb->controller_number - 32;
if (_controller_14bit[cn] == false) {
_controller_14bit[cn] = true;
cv = (cv << 7) | (tb->value & 0x7f);
} else {
cv = (cv & 0x3f80) | (tb->value & 0x7f);
}
_controller_val[tb->controller_number] =
(controller_value_t) cv;
} else {
/* controller can only take 7 bit values */
_controller_val[tb->controller_number] =
(controller_value_t) tb->value;
}
/* bank numbers are special, in that they have their own signal
*/
if (tb->controller_number == 0) {
_bank_number = (unsigned short) _controller_val[0];
if (_port.input()) {
_port.input()->bank_change (*_port.input(), _bank_number);
_port.input()->channel_bank_change[_channel_number]
(*_port.input(), _bank_number);
}
}
}
void
Channel::process_program_change (Parser &parser, byte val)
{
_program_number = val;
}
void
Channel::process_chanpress (Parser &parser, byte val)
{
_chanpress = val;
}
void
Channel::process_polypress (Parser &parser, EventTwoBytes *tb)
{
_polypress[tb->note_number] = tb->value;
}
void
Channel::process_pitchbend (Parser &parser, pitchbend_t val)
{
_pitch_bend = val;
}
void
Channel::process_reset (Parser &parser)
{
reset (0, 1);
}
/** Write a message to a channel.
* \return true if success
*/
bool
Channel::channel_msg (byte id, byte val1, byte val2, timestamp_t timestamp)
{
unsigned char msg[3];
int len = 0;
msg[0] = id | (_channel_number & 0xf);
switch (id) {
case off:
msg[1] = val1 & 0x7F;
msg[2] = val2 & 0x7F;
len = 3;
break;
case on:
msg[1] = val1 & 0x7F;
msg[2] = val2 & 0x7F;
len = 3;
break;
case MIDI::polypress:
msg[1] = val1 & 0x7F;
msg[2] = val2 & 0x7F;
len = 3;
break;
case controller:
msg[1] = val1 & 0x7F;
msg[2] = val2 & 0x7F;
len = 3;
break;
case MIDI::program:
msg[1] = val1 & 0x7F;
len = 2;
break;
case MIDI::chanpress:
msg[1] = val1 & 0x7F;
len = 2;
break;
case MIDI::pitchbend:
msg[1] = val1 & 0x7F;
msg[2] = val2 & 0x7F;
len = 3;
break;
}
return _port.midimsg (msg, len, timestamp);
}
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