non/grid.C

825 lines
14 KiB
C

/*******************************************************************************/
/* Copyright (C) 2007-2008 Jonathan Moore Liles */
/* */
/* 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; see the file COPYING. If not,write to the Free Software */
/* Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */
/*******************************************************************************/
#include "grid.H"
#include "common.h"
#include "canvas.H"
#include "non.H"
#include "smf.H"
Grid::Grid ( void )
{
_name = NULL;
_notes = NULL;
_number = 0;
_height = 0;
_rd = new data;
_rw = NULL;
// we need to initialize it here.
data *d = (data *)_rd;
_mode = 0;
_locked = 0;
d->length = 0;
_bpb = 4;
_ppqn = 1;
viewport.h = 32;
viewport.w = 32;
viewport.x = 0;
viewport.y = 0;
_playing = false;
_start = _end = _index = 0;
}
Grid::~Grid ( void )
{
DEBUG( "deleting grid" );
if ( _name )
free( _name );
if ( _notes )
free( _notes );
if ( _rw )
delete _rw;
if ( _rd )
delete _rd;
}
/* copy constructor */
Grid::Grid ( const Grid &rhs )
{
_rd = new data( *rhs._rd );
_rw = NULL;
_name = rhs._name ? strdup( rhs._name ) : NULL;
_notes = rhs._notes ? strdup( rhs._notes ) : NULL;
_number = rhs._number;
_height = rhs._height;
_draw_shape = rhs._draw_shape;
_mode = 0;
_locked = 0;
_playing = false;
_index = 0;
_start = 0;
_end = 0;
_bpb = rhs._bpb;
_ppqn = rhs._ppqn;
viewport = rhs.viewport;
}
void
Grid::lock ( void )
{
if ( ! _locked++ )
_rw = new data( *_rd );
}
void
Grid::unlock ( void )
{
if ( 0 == --_locked )
{
_history.push_back( const_cast<data *>( _rd ) );
if ( _history.size() > MAX_UNDO + 1 )
{
data *d = _history.front();
delete d;
_history.pop_front();
}
// swap the copy back in (atomically).
_rd = (const data *)_rw;
_rw = NULL;
signal_events_change();
}
}
event *
Grid::_event ( int x, int y, bool write ) const
{
const data *d = const_cast< data * >(_rd);
const event_list *r = write ? &_rw->events : &d->events;
if ( r->empty() || x_to_ts( x ) > _rd->length )
return NULL;
int note = y_to_note( y );
tick_t xt = x_to_ts( x );
for ( event *e = r->first(); e; e = e->next() )
{
if ( ! e->is_note_on() )
continue;
if ( e->note() != note )
continue;
unsigned long ts = e->timestamp();
unsigned long l = 0;
if ( e->linked() )
l = e->link()->timestamp() - ts;
else
WARNING( "found unlinked event... event list is corrupt." );
if ( xt >= ts && xt < ts + l )
// this is a little nasty
return const_cast<event *>(e);
}
return NULL;
}
bool
Grid::_delete ( int x, int y )
{
event *e = _event ( x, y, true );
if ( e )
{
if ( e->linked() )
_rw->events.remove( e->link() );
_rw->events.remove( e );
return true;
}
return false;
}
bool
Grid::_get ( struct dash *d, int x, int y ) const
{
event *e = _event ( x, y, false );
if ( e )
{
tick_t ts = e->timestamp();
tick_t l = 0;
if ( e->linked() )
l = e->link()->timestamp() - ts;
else
WARNING( "Found unlinked note on" );
d->timestamp = ts_to_x( ts );
d->length = ts_to_x( l );
d->color = e->note_velocity();
return true;
}
return false;
}
void
Grid::clear ( void )
{
lock();
_rw->events.clear();
unlock();
}
int
Grid::get ( struct dash *d, int x, int y ) const
{
return _get( d, x, y );
}
void
Grid::del ( int x, int y )
{
lock();
_delete( x, y );
unlock();
}
int
Grid::next_note_x ( int x ) const
{
for ( const event *e = _rd->events.first(); e; e = e->next() )
if ( e->is_note_on() && (ts_to_x( e->timestamp() ) > (uint)x ) )
return ts_to_x( e->timestamp() );
return 0;
}
int
Grid::prev_note_x ( int x ) const
{
for ( const event *e = _rd->events.last(); e; e = e->prev() )
if ( e->is_note_on() && (ts_to_x( e->timestamp() ) < (uint)x) )
return ts_to_x( e->timestamp() );
return 0;
}
void
Grid::_fix_length ( void )
{
tick_t beats = (_rw->length / PPQN);
tick_t rem = _rw->length % PPQN;
_rw->length = (rem ? (beats + 1) : beats) * PPQN;
}
/** Trim the length of the grid to the last event */
void
Grid::trim ( void )
{
lock();
event *e = _rw->events.last();
if ( e )
{
tick_t ts = e->timestamp();
_rw->length = ts;
_fix_length();
}
unlock();
}
void
Grid::fit ( void )
{
int hi, lo;
_rd->events.hi_lo_note( &hi, &lo );
viewport.h = abs( hi - lo ) + 1;
viewport.y = note_to_y( hi );
}
/** Expand the length of the grid to the last event */
void
Grid::expand ( void )
{
lock();
event *e = _rw->events.last();
if ( e )
{
tick_t ts = e->timestamp();
_rw->length = ts > _rw->length ? ts : _rw->length;
_fix_length();
}
unlock();
}
void
Grid::put ( int x, int y, tick_t l )
{
int xl = ts_to_x( l );
tick_t ts = x_to_ts( x );
event *on = new event;
event *off = new event;
struct dash d;
// Don't allow overlap (Why not?)
if ( get( &d, x, y ) || get( &d, x + xl - 1, y ) )
return;
DEBUG( "put %d,%d", x, y );
lock();
int note = y_to_note( y );
on->status( event::NOTE_ON );
on->note( note );
on->timestamp( ts );
on->note_velocity( 64 );
on->link( off );
off->status( event::NOTE_OFF );
off->note( note );
off->timestamp( ts + l );
off->note_velocity( 64 );
off->link( on );
_rw->events.insert( on );
_rw->events.insert( off );
expand();
unlock();
}
// void
// pattern::move ( int x, int y, int nx )
// {
// event *e = _event( x, y, false );
// if ( e )
// e->timestamp( nx );
// }
void
Grid::move ( int x, int y, int nx, int ny )
{
lock();
event *e = _event( x, y, true );
if ( e )
{
DEBUG( "moving note" );
event *on = e,
*off = e->link();
_rw->events.unlink( on );
_rw->events.unlink( off );
on->note( y_to_note( ny ) );
tick_t l = on->note_duration();
on->timestamp( x_to_ts( ny ) );
on->note_duration( l );
_rw->events.insert( off );
_rw->events.insert( on );
}
unlock();
}
void
Grid::adj_velocity ( int x, int y, int n )
{
lock();
event *e = _event( x, y, true );
if ( e )
{
DEBUG( "adjusting velocity" );
{
int v = e->note_velocity();
v += n;
if ( v > 127 )
v = 127;
e->note_velocity( v > 0 ? v : 1 );
}
}
unlock();
}
void
Grid::adj_duration ( int x, int y, int l )
{
lock();
event *e = _event( x, y, true );
if ( e )
{
DEBUG( "adjusting duration" );
{
int v = ts_to_x( e->note_duration() );
v += l;
e->note_duration( x_to_ts( v > 0 ? v : 1 ) );
_rw->events.sort( e->link() );
}
}
unlock();
}
void
Grid::select ( int x, int y, bool b )
{
lock();
event *e = _event( x, y, true );
if ( e )
if ( b )
e->select();
else
e->deselect();
unlock();
}
/** insert /l/ ticks of time after /x/ */
void
Grid::insert_time ( int l, int r )
{
tick_t start = x_to_ts( l );
tick_t end = x_to_ts( r );
lock();
_rw->events.insert_time( start, end - start );
expand();
unlock();
}
/** select all events in range (notes straddling the border will also be selected */
void
Grid::select ( int l, int r )
{
tick_t start = x_to_ts( l );
tick_t end = x_to_ts( r );
lock();
_rw->events.select( start, end );
unlock();
}
/** delete events from /x/ to /l/, compressing time. */
void
Grid::delete_time ( int l, int r )
{
tick_t start = x_to_ts( l );
tick_t end = x_to_ts( r );
lock();
_rw->events.delete_time( start, end );
unlock();
}
void
Grid::select_none ( void )
{
lock();
_rw->events.select_none();
unlock();
}
void
Grid::delete_selected ( void )
{
lock();
_rw->events.remove_selected();
unlock();
}
void
Grid::move_selected ( int l )
{
long o = x_to_ts( abs( l ) );
if ( l < 0 )
o = 0 - o;
lock();
// MESSAGE( "moving by %ld", o );
_rw->events.move_selected( o );
unlock();
}
void
Grid::crop ( int l, int r )
{
lock();
if ( (uint)r < ts_to_x( _rw->length ) )
delete_time( r, ts_to_x( _rw->length ) );
if ( l > 0 )
delete_time( 0, l );
trim();
unlock();
}
void
Grid::_relink ( void )
{
_rw->events.relink();
}
void
Grid::record_event ( event *e )
{
WARNING( "unimplemented" );
/* lock(); */
/* _rw->events.push_back( *e ); */
/* _rw->events.sort(); */
/* unlock(); */
}
/* Dump the event list -- used by pattern / phrase dumppers */
void
Grid::dump ( smf *f, int channel, bool translate ) const
{
data *d = const_cast<data *>(_rd);
midievent me;
for ( event *e = d->events.first(); e; e = e->next() )
{
// e->print();
me = *e;
me.channel( channel );
/* if ( me.is_note_on() || me.is_note_off() ) */
/* if ( translate ) */
/* d->mapping.translate( &me ); */
f->write_event( &me );
}
}
void
Grid::print ( void ) const
{
data *d = const_cast<data *>(_rd);
for ( event *e = d->events.first(); e; e = e->next() )
e->print();
}
void
Grid::draw ( Canvas *c, int bx, int by, int bw, int bh )
{
c->clear();
tick_t start = x_to_ts( bx );
tick_t end = x_to_ts( bx + bw );
data *d = const_cast< data *>( _rd );
for ( event *e = d->events.first(); e; e = e->next() )
{
if ( ! e->is_note_on() )
continue;
tick_t ts = e->timestamp();
ASSERT( e->link(), "found a non-linked note" );
tick_t tse = e->link()->timestamp();
// if ( ts >= start && ts <= end )
if ( tse >= start && ts <= end )
c->draw_dash( ts_to_x( ts ), note_to_y( e->note() ), ts_to_x( tse - ts ),
_draw_shape, e->note_velocity(), e->selected() );
}
c->flip();
}
/*******************************************/
/* Generic accessors -- boy C++ is verbose */
/*******************************************/
/** Returns the index (playhead) for this grid */
tick_t
Grid::index ( void ) const
{
/* FIXME: considering the type of tick_t, we really need some kind
of locking here to insure that this thread doesn't read _index
while the RT thread is writing it. */
return _index;
}
bool
Grid::playing ( void ) const
{
return _playing;
}
int
Grid::height ( void ) const
{
return _height;
}
void
Grid::height ( int h )
{
_height = h;
}
tick_t
Grid::length ( void ) const
{
return _rd->length;
}
void
Grid::length ( tick_t l )
{
lock();
_rw->length = l;
unlock();
}
int
Grid::bars ( void ) const
{
return ts_to_x( _rd->length ) / (_ppqn * _bpb);
}
int
Grid::beats ( void ) const
{
return ts_to_x( _rd->length ) / _ppqn;
}
int
Grid::division ( void ) const
{
return _bpb * _ppqn;
}
int
Grid::subdivision ( void ) const
{
return _ppqn;
}
int
Grid::ppqn ( void ) const
{
return _ppqn;
}
/** set grid resolution to /n/, where 0 is 1/4 note, 1 is 1/8 note 2 is 1/16 note, etc. */
void
Grid::resolution ( unsigned int n )
{
if ( n < 4 )
ASSERTION( "bad resolution: %d", n );
_ppqn = n / 4;
DEBUG( "%d setting resolution to %d", n, _ppqn );
signal_events_change();
}
int
Grid::resolution ( void ) const
{
return _ppqn * 4;
}
int
Grid::number ( void ) const
{
return _number;
}
void
Grid::name ( char *s )
{
if ( _name ) free ( _name );
_name = s;
}
const char *
Grid::name ( void ) const
{
return _name;
}
void
Grid::notes ( char *s )
{
if ( _notes ) free ( _notes );
_notes = s;
}
char *
Grid::notes ( void ) const
{
return _notes;
}
void
Grid::mode ( int m )
{
_mode = m;
signal_settings_change();
}
int
Grid::mode ( void ) const
{
return _mode;
}
int
Grid::draw_shape ( void ) const
{
return _draw_shape;
}
/** return a pointer to a copy of grid's event list in raw form */
event_list *
Grid::events ( void ) const
{
data * d = const_cast< data * >( _rd );
return new event_list( d->events );
}
/** replace event list with a copy of /el/ */
void
Grid::events ( const event_list * el )
{
lock();
_rw->events = *el;
unlock();
}