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/*
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* Copyright ( C ) 2016 - 2017 Paul Davis < paul @ linuxaudiosystems . com >
*
* 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 . ,
* 51 Franklin Street , Fifth Floor , Boston , MA 02110 - 1301 USA .
*/
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# include <cmath>
# include <cairomm/context.h>
# include <cairomm/pattern.h>
# include "ardour/automation_control.h"
# include "ardour/dB.h"
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# include "ardour/utils.h"
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# include "gtkmm2ext/gui_thread.h"
# include "gtkmm2ext/rgb_macros.h"
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# include "gtkmm2ext/colors.h"
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# include "canvas/text.h"
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# include "knob.h"
# include "push2.h"
# include "utils.h"
# include "pbd/i18n.h"
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# ifdef __APPLE__
# define Rect ArdourCanvas::Rect
# endif
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using namespace PBD ;
using namespace ARDOUR ;
using namespace ArdourSurface ;
using namespace ArdourCanvas ;
Push2Knob : : Element Push2Knob : : default_elements = Push2Knob : : Element ( Push2Knob : : Arc ) ;
Push2Knob : : Push2Knob ( Push2 & p , Item * parent , Element e , Flags flags )
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: Container ( parent )
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, p2 ( p )
, _elements ( e )
, _flags ( flags )
, _r ( 0 )
, _val ( 0 )
, _normal ( 0 )
{
Pango : : FontDescription fd ( " Sans 10 " ) ;
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text = new Text ( this ) ;
text - > set_font_description ( fd ) ;
text - > set_position ( Duple ( 0 , - 20 ) ) ; /* changed when radius changes */
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/* typically over-ridden */
text_color = p2 . get_color ( Push2 : : ParameterName ) ;
arc_start_color = p2 . get_color ( Push2 : : KnobArcStart ) ;
arc_end_color = p2 . get_color ( Push2 : : KnobArcEnd ) ;
}
Push2Knob : : ~ Push2Knob ( )
{
}
void
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Push2Knob : : set_text_color ( Gtkmm2ext : : Color c )
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{
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text - > set_color ( c ) ;
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}
void
Push2Knob : : set_radius ( double r )
{
_r = r ;
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text - > set_position ( Duple ( - _r , - _r - 20 ) ) ;
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set_bbox_dirty ( ) ;
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redraw ( ) ;
}
void
Push2Knob : : render ( Rect const & area , Cairo : : RefPtr < Cairo : : Context > context ) const
{
if ( ! _controllable ) {
/* no controllable, nothing to draw */
return ;
}
const float scale = 2.0 * _r ;
const float pointer_thickness = 3.0 * ( scale / 80 ) ; //(if the knob is 80 pixels wide, we want a 3-pix line on it)
const float start_angle = ( ( 180 - 65 ) * G_PI ) / 180 ;
const float end_angle = ( ( 360 + 65 ) * G_PI ) / 180 ;
float zero = 0 ;
if ( _flags & ArcToZero ) {
zero = _normal ;
}
const float value_angle = start_angle + ( _val * ( end_angle - start_angle ) ) ;
const float zero_angle = start_angle + ( zero * ( end_angle - start_angle ) ) ;
float value_x = cos ( value_angle ) ;
float value_y = sin ( value_angle ) ;
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/* translate so that all coordinates are based on the center of the
* knob ( which is also its position ( )
*/
Duple origin = item_to_window ( Duple ( 0 , 0 ) ) ;
context - > translate ( origin . x , origin . y ) ;
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context - > begin_new_path ( ) ;
float center_radius = 0.48 * scale ;
float border_width = 0.8 ;
const bool arc = ( _elements & Arc ) = = Arc ;
const bool flat = false ;
if ( arc ) {
center_radius = scale * 0.33 ;
float inner_progress_radius = scale * 0.38 ;
float outer_progress_radius = scale * 0.48 ;
float progress_width = ( outer_progress_radius - inner_progress_radius ) ;
float progress_radius = inner_progress_radius + progress_width / 2.0 ;
//dark arc background
set_source_rgb ( context , p2 . get_color ( Push2 : : KnobArcBackground ) ) ;
context - > set_line_width ( progress_width ) ;
context - > arc ( 0 , 0 , progress_radius , start_angle , end_angle ) ;
context - > stroke ( ) ;
double red_start , green_start , blue_start , astart ;
double red_end , green_end , blue_end , aend ;
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Gtkmm2ext : : color_to_rgba ( arc_start_color , red_start , green_start , blue_start , astart ) ;
Gtkmm2ext : : color_to_rgba ( arc_end_color , red_end , green_end , blue_end , aend ) ;
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//vary the arc color over the travel of the knob
float intensity = fabsf ( _val - zero ) / std : : max ( zero , ( 1.f - zero ) ) ;
const float intensity_inv = 1.0 - intensity ;
float r = intensity_inv * red_end + intensity * red_start ;
float g = intensity_inv * green_end + intensity * green_start ;
float b = intensity_inv * blue_end + intensity * blue_start ;
//draw the arc
context - > set_source_rgb ( r , g , b ) ;
context - > set_line_width ( progress_width ) ;
if ( zero_angle > value_angle ) {
context - > arc ( 0 , 0 , progress_radius , value_angle , zero_angle ) ;
} else {
context - > arc ( 0 , 0 , progress_radius , zero_angle , value_angle ) ;
}
context - > stroke ( ) ;
//shade the arc
if ( ! flat ) {
//note we have to offset the pattern from our centerpoint
Cairo : : RefPtr < Cairo : : LinearGradient > pattern = Cairo : : LinearGradient : : create ( 0.0 , - _position . y , 0.0 , _position . y ) ;
pattern - > add_color_stop_rgba ( 0.0 , 1 , 1 , 1 , 0.15 ) ;
pattern - > add_color_stop_rgba ( 0.5 , 1 , 1 , 1 , 0.0 ) ;
pattern - > add_color_stop_rgba ( 1.0 , 1 , 1 , 1 , 0.0 ) ;
context - > set_source ( pattern ) ;
context - > arc ( 0 , 0 , outer_progress_radius - 1 , 0 , 2.0 * G_PI ) ;
context - > fill ( ) ;
}
}
if ( ! flat ) {
//knob shadow
context - > save ( ) ;
context - > translate ( pointer_thickness + 1 , pointer_thickness + 1 ) ;
set_source_rgba ( context , p2 . get_color ( Push2 : : KnobShadow ) ) ;
context - > arc ( 0 , 0 , center_radius - 1 , 0 , 2.0 * G_PI ) ;
context - > fill ( ) ;
context - > restore ( ) ;
//inner circle
set_source_rgb ( context , p2 . get_color ( Push2 : : KnobForeground ) ) ;
context - > arc ( 0 , 0 , center_radius , 0 , 2.0 * G_PI ) ;
context - > fill ( ) ;
//radial gradient as a lightness shade
Cairo : : RefPtr < Cairo : : RadialGradient > pattern = Cairo : : RadialGradient : : create ( - center_radius , - center_radius , 1 , - center_radius , - center_radius , center_radius * 2.5 ) ; //note we have to offset the gradient from our centerpoint
pattern - > add_color_stop_rgba ( 0.0 , 0 , 0 , 0 , 0.2 ) ;
pattern - > add_color_stop_rgba ( 1.0 , 1 , 1 , 1 , 0.3 ) ;
context - > set_source ( pattern ) ;
context - > arc ( 0 , 0 , center_radius , 0 , 2.0 * G_PI ) ;
context - > fill ( ) ;
}
//black knob border
context - > set_line_width ( border_width ) ;
set_source_rgba ( context , p2 . get_color ( Push2 : : KnobBorder ) ) ;
context - > set_source_rgba ( 0 , 0 , 0 , 1 ) ;
context - > arc ( 0 , 0 , center_radius , 0 , 2.0 * G_PI ) ;
context - > stroke ( ) ;
//line shadow
if ( ! flat ) {
context - > save ( ) ;
context - > translate ( 1 , 1 ) ;
set_source_rgba ( context , p2 . get_color ( Push2 : : KnobLineShadow ) ) ;
context - > set_line_cap ( Cairo : : LINE_CAP_ROUND ) ;
context - > set_line_width ( pointer_thickness ) ;
context - > move_to ( ( center_radius * value_x ) , ( center_radius * value_y ) ) ;
context - > line_to ( ( ( center_radius * 0.4 ) * value_x ) , ( ( center_radius * 0.4 ) * value_y ) ) ;
context - > stroke ( ) ;
context - > restore ( ) ;
}
//line
set_source_rgba ( context , p2 . get_color ( Push2 : : KnobLine ) ) ;
context - > set_line_cap ( Cairo : : LINE_CAP_ROUND ) ;
context - > set_line_width ( pointer_thickness ) ;
context - > move_to ( ( center_radius * value_x ) , ( center_radius * value_y ) ) ;
context - > line_to ( ( ( center_radius * 0.4 ) * value_x ) , ( ( center_radius * 0.4 ) * value_y ) ) ;
context - > stroke ( ) ;
/* reset all translations, scaling etc. */
context - > set_identity_matrix ( ) ;
render_children ( area , context ) ;
}
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void
Push2Knob : : compute_bounding_box ( ) const
{
if ( ! _canvas | | _r = = 0 ) {
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_bounding_box = Rect ( ) ;
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set_bbox_clean ( ) ;
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return ;
}
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if ( bbox_dirty ( ) ) {
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Rect r = Rect ( _position . x - _r , _position . y - _r , _position . x + _r , _position . y + _r ) ;
_bounding_box = r ;
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set_bbox_clean ( ) ;
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}
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/* Item::bounding_box() will add children */
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}
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void
Push2Knob : : set_controllable ( boost : : shared_ptr < AutomationControl > c )
{
watch_connection . disconnect ( ) ; //stop watching the old controllable
if ( ! c ) {
_controllable . reset ( ) ;
return ;
}
_controllable = c ;
_controllable - > Changed . connect ( watch_connection , invalidator ( * this ) , boost : : bind ( & Push2Knob : : controllable_changed , this ) , & p2 ) ;
controllable_changed ( ) ;
}
void
Push2Knob : : set_pan_azimuth_text ( double pos )
{
/* We show the position of the center of the image relative to the left & right.
This is expressed as a pair of percentage values that ranges from ( 100 , 0 )
( hard left ) through ( 50 , 50 ) ( hard center ) to ( 0 , 100 ) ( hard right ) .
Fix various typos
Found via `codespell -q 3 -S *.po,./.git,./share/patchfiles,./libs,./msvc_extra_headers,./share/web_surfaces,*.patch -L ba,buss,busses,discreet,doubleclick,hsi,ontop,ro,scrollin,seh,siz,sord,sur,te,trough,ue`
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This is pretty weird , but its the way audio engineers expect it . Just remember that
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the center of the USA isn ' t Kansas , its ( 50L A , 50 NY ) and it will all make sense .
*/
char buf [ 64 ] ;
snprintf ( buf , sizeof ( buf ) , _ ( " L:%3d R:%3d " ) , ( int ) rint ( 100.0 * ( 1.0 - pos ) ) , ( int ) rint ( 100.0 * pos ) ) ;
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text - > set ( buf ) ;
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}
void
Push2Knob : : set_pan_width_text ( double val )
{
char buf [ 16 ] ;
snprintf ( buf , sizeof ( buf ) , " %d%% " , ( int ) floor ( val * 100 ) ) ;
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text - > set ( buf ) ;
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}
void
Push2Knob : : set_gain_text ( double )
{
char buf [ 16 ] ;
/* need to ignore argument, because it has already been converted into
the " interface " ( 0. .1 ) range .
*/
snprintf ( buf , sizeof ( buf ) , " %.1f dB " , accurate_coefficient_to_dB ( _controllable - > get_value ( ) ) ) ;
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text - > set ( buf ) ;
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}
void
Push2Knob : : controllable_changed ( )
{
if ( _controllable ) {
_normal = _controllable - > internal_to_interface ( _controllable - > normal ( ) ) ;
_val = _controllable - > internal_to_interface ( _controllable - > get_value ( ) ) ;
switch ( _controllable - > parameter ( ) . type ( ) ) {
case ARDOUR : : PanAzimuthAutomation :
set_pan_azimuth_text ( _val ) ;
break ;
case ARDOUR : : PanWidthAutomation :
set_pan_width_text ( _val ) ;
break ;
case ARDOUR : : GainAutomation :
case ARDOUR : : BusSendLevel :
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case ARDOUR : : TrimAutomation :
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set_gain_text ( _val ) ;
break ;
default :
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text - > set ( std : : string ( ) ) ;
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}
}
redraw ( ) ;
}
void
Push2Knob : : add_flag ( Flags f )
{
_flags = Flags ( _flags | f ) ;
redraw ( ) ;
}
void
Push2Knob : : remove_flag ( Flags f )
{
_flags = Flags ( _flags & ~ f ) ;
redraw ( ) ;
}
void
Push2Knob : : set_arc_start_color ( uint32_t c )
{
arc_start_color = c ;
redraw ( ) ;
}
void
Push2Knob : : set_arc_end_color ( uint32_t c )
{
arc_end_color = c ;
redraw ( ) ;
}