[ViewVC] Diff of: cvs/rxvt-unicode/src/perl/background

Comparing rxvt-unicode/src/perl/background (file contents):
Revision 1.69 by root, Mon Jul 2 01:32:26 2012 UTC vs.
Revision 1.92 by sf-exg, Thu Jul 14 05:33:26 2016 UTC

…		…
1	#! perl	1	#! perl
2		2
3	#:META:X_RESOURCE:%.expr:string:background expression	3	#:META:RESOURCE:%.expr:string:background expression
4	#:META:X_RESOURCE:%.border:boolean:respect the terminal border	4	#:META:RESOURCE:%.border:boolean:respect the terminal border
5	#:META:X_RESOURCE:%.interval:seconds:minimum time between updates	5	#:META:RESOURCE:%.interval:seconds:minimum time between updates
		6	#:META:RESOURCE:pixmap:file[;geom]:set image as background
		7	#:META:RESOURCE:backgroundPixmap:file[;geom]:set image as background
		8	#:META:RESOURCE:tr:boolean:set root pixmap as background
		9	#:META:RESOURCE:transparent:boolean:set root pixmap as background
		10	#:META:RESOURCE:tint:color:tint background with color
		11	#:META:RESOURCE:tintColor:color:tint background with color
		12	#:META:RESOURCE:sh:number:shade background by number %
		13	#:META:RESOURCE:shading:number:shade background by number %
		14	#:META:RESOURCE:blr:HxV:gaussian-blur background with radii
		15	#:META:RESOURCE:blurRadius:HxV:gaussian-blur background with radii
6		16
7	=head1 NAME	17	=head1 NAME
8		18
9	background - manage terminal background	19	background - manage terminal background
10		20
11	=head1 SYNOPSIS	21	=head1 SYNOPSIS
12		22
13	urxvt --background-expr 'background expression'	23	urxvt --background-expr 'background expression'
14	--background-border	24	--background-border
15	--background-interval seconds	25	--background-interval seconds
16		26
		27	=head1 QUICK AND DIRTY CHEAT SHEET
		28
		29	Just load a random jpeg image and tile the background with it without
		30	scaling or anything else:
		31
		32	load "/path/to/img.jpg"
		33
		34	The same, but use mirroring/reflection instead of tiling:
		35
		36	mirror load "/path/to/img.jpg"
		37
		38	Load an image and scale it to exactly fill the terminal window:
		39
		40	scale keep { load "/path/to/img.jpg" }
		41
		42	Implement pseudo-transparency by using a suitably-aligned root pixmap
		43	as window background:
		44
		45	rootalign root
		46
		47	Likewise, but keep a blurred copy:
		48
		49	rootalign keep { blur 10, root }
		50
17	=head1 DESCRIPTION	51	=head1 DESCRIPTION
18		52
19	This extension manages the terminal background by creating a picture that	53	This extension manages the terminal background by creating a picture that
20	is behind the text, replacing the normal background colour.	54	is behind the text, replacing the normal background colour.
21		55
30		64
31	urxvt --background-expr 'scale keep { load "/path/to/mybg.png" }'	65	urxvt --background-expr 'scale keep { load "/path/to/mybg.png" }'
32		66
33	Or specified as a X resource:	67	Or specified as a X resource:
34		68
35	URxvt.background-expr: scale keep { load "/path/to/mybg.png" }	69	URxvt.background.expr: scale keep { load "/path/to/mybg.png" }
36		70
37	=head1 THEORY OF OPERATION	71	=head1 THEORY OF OPERATION
38		72
39	At startup, just before the window is mapped for the first time, the	73	At startup, just before the window is mapped for the first time, the
40	expression is evaluated and must yield an image. The image is then	74	expression is evaluated and must yield an image. The image is then
…		…
74	return load "$HOME/sunday.png";	108	return load "$HOME/sunday.png";
75	}	109	}
76	}	110	}
77		111
78	This inner expression is evaluated once per hour (and whenever the	112	This inner expression is evaluated once per hour (and whenever the
79	temrinal window is resized). It sets F<sunday.png> as background on	113	terminal window is resized). It sets F<sunday.png> as background on
80	Sundays, and F<weekday.png> on all other days.	114	Sundays, and F<weekday.png> on all other days.
81		115
82	Fortunately, we expect that most expressions will be much simpler, with	116	Fortunately, we expect that most expressions will be much simpler, with
83	little Perl knowledge needed.	117	little Perl knowledge needed.
84		118
…		…
108	get a percentage):	142	get a percentage):
109		143
110	scale 2, load "$HOME/mypic.png"	144	scale 2, load "$HOME/mypic.png"
111		145
112	This enlarges the image by a factor of 2 (200%). As you can see, C<scale>	146	This enlarges the image by a factor of 2 (200%). As you can see, C<scale>
113	has now two arguments, the C<200> and the C<load> expression, while	147	has now two arguments, the C<2> and the C<load> expression, while
114	C<load> only has one argument. Arguments are separated from each other by	148	C<load> only has one argument. Arguments are separated from each other by
115	commas.	149	commas.
116		150
117	Scale also accepts two arguments, which are then separate factors for both	151	Scale also accepts two arguments, which are then separate factors for both
118	horizontal and vertical dimensions. For example, this halves the image	152	horizontal and vertical dimensions. For example, this halves the image
119	width and doubles the image height:	153	width and doubles the image height:
120		154
121	scale 0.5, 2, load "$HOME/mypic.png"	155	scale 0.5, 2, load "$HOME/mypic.png"
122		156
123	IF you try out these expressions, you might suffer from some sluggishness,	157	IF you try out these expressions, you might suffer from some sluggishness,
124	because each time the terminal is resized, it loads the PNG image agin	158	because each time the terminal is resized, it loads the PNG image again
125	and scales it. Scaling is usually fast (and unavoidable), but loading the	159	and scales it. Scaling is usually fast (and unavoidable), but loading the
126	image can be quite time consuming. This is where C<keep> comes in handy:	160	image can be quite time consuming. This is where C<keep> comes in handy:
127		161
128	scale 0.5, 2, keep { load "$HOME/mypic.png" }	162	scale 0.5, 2, keep { load "$HOME/mypic.png" }
129		163
…		…
156		190
157	This one first takes a snapshot of the screen background image, and then	191	This one first takes a snapshot of the screen background image, and then
158	moves it to the upper left corner of the screen (as opposed to the upper	192	moves it to the upper left corner of the screen (as opposed to the upper
159	left corner of the terminal window)- the result is pseudo-transparency:	193	left corner of the terminal window)- the result is pseudo-transparency:
160	the image seems to be static while the window is moved around.	194	the image seems to be static while the window is moved around.
		195
		196	=head2 COLOUR SPECIFICATIONS
		197
		198	Whenever an operator expects a "colour", then this can be specified in one
		199	of two ways: Either as string with an X11 colour specification, such as:
		200
		201	"red" # named colour
		202	"#f00" # simple rgb
		203	"[50]red" # red with 50% alpha
		204	"TekHVC:300/50/50" # anything goes
		205
		206	OR as an array reference with one, three or four components:
		207
		208	[0.5] # 50% gray, 100% alpha
		209	[0.5, 0, 0] # dark red, no green or blur, 100% alpha
		210	[0.5, 0, 0, 0.7] # same with explicit 70% alpha
161		211
162	=head2 CACHING AND SENSITIVITY	212	=head2 CACHING AND SENSITIVITY
163		213
164	Since some operations (such as C<load> and C<blur>) can take a long time,	214	Since some operations (such as C<load> and C<blur>) can take a long time,
165	caching results can be very important for a smooth operation. Caching can	215	caching results can be very important for a smooth operation. Caching can
…		…
239	=cut	289	=cut
240		290
241	our %_IMG_CACHE;	291	our %_IMG_CACHE;
242	our $HOME;	292	our $HOME;
243	our ($self, $frame);	293	our ($self, $frame);
244	our ($x, $y, $w, $h);	294	our ($x, $y, $w, $h, $focus);
245		295
246	# enforce at least this interval between updates	296	# enforce at least this interval between updates
247	our $MIN_INTERVAL = 6/59.951;	297	our $MIN_INTERVAL = 6/59.951;
248		298
249	{	299	{
…		…
268		318
269	Loads the image at the given C<$path>. The image is set to plane tiling	319	Loads the image at the given C<$path>. The image is set to plane tiling
270	mode.	320	mode.
271		321
272	If the image is already in memory (e.g. because another terminal instance	322	If the image is already in memory (e.g. because another terminal instance
273	uses it), then the in-memory copy us returned instead.	323	uses it), then the in-memory copy is returned instead.
274		324
275	=item load_uc $path	325	=item load_uc $path
276		326
277	Load uncached - same as load, but does not cache the image, which means it	327	Load uncached - same as load, but does not cache the image, which means it
278	is I<always> loaded from the filesystem again.	328	is I<always> loaded from the filesystem again, even if another copy of it
		329	is in memory at the time.
279		330
280	=cut	331	=cut
		332
		333	sub load_uc($) {
		334	$self->new_img_from_file ($_[0])
		335	}
281		336
282	sub load($) {	337	sub load($) {
283	my ($path) = @_;	338	my ($path) = @_;
284		339
285	$_IMG_CACHE{$path} \|\| do {	340	$_IMG_CACHE{$path} \|\| do {
286	my $img = $self->new_img_from_file ($path);	341	my $img = load_uc $path;
287	Scalar::Util::weaken ($_IMG_CACHE{$path} = $img);	342	Scalar::Util::weaken ($_IMG_CACHE{$path} = $img);
288	$img	343	$img
289	}	344	}
290	}	345	}
291		346
…		…
376	$base->draw ($_)	431	$base->draw ($_)
377	for @_;	432	for @_;
378		433
379	$base	434	$base
380	}	435	}
		436
		437	=back
381		438
382	=head2 TILING MODES	439	=head2 TILING MODES
383		440
384	The following operators modify the tiling mode of an image, that is, the	441	The following operators modify the tiling mode of an image, that is, the
385	way that pixels outside the image area are painted when the image is used.	442	way that pixels outside the image area are painted when the image is used.
…		…
477		534
478	Return the X and Y coordinates of the terminal window (the terminal	535	Return the X and Y coordinates of the terminal window (the terminal
479	window is the full window by default, and the character area only when in	536	window is the full window by default, and the character area only when in
480	border-respect mode).	537	border-respect mode).
481		538
482	Using these functions make your expression sensitive to window moves.	539	Using these functions makes your expression sensitive to window moves.
483		540
484	These functions are mainly useful to align images to the root window.	541	These functions are mainly useful to align images to the root window.
485		542
486	Example: load an image and align it so it looks as if anchored to the	543	Example: load an image and align it so it looks as if anchored to the
487	background (that's exactly what C<rootalign> does btw.):	544	background (that's exactly what C<rootalign> does btw.):
488		545
489	move -TX, -TY, keep { load "mybg.png" }	546	move -TX, -TY, keep { load "mybg.png" }
490		547
491	=item TW	548	=item TW
		549
		550	=item TH
492		551
493	Return the width (C<TW>) and height (C<TH>) of the terminal window (the	552	Return the width (C<TW>) and height (C<TH>) of the terminal window (the
494	terminal window is the full window by default, and the character area only	553	terminal window is the full window by default, and the character area only
495	when in border-respect mode).	554	when in border-respect mode).
496		555
497	Using these functions make your expression sensitive to window resizes.	556	Using these functions makes your expression sensitive to window resizes.
498		557
499	These functions are mainly useful to scale images, or to clip images to	558	These functions are mainly useful to scale images, or to clip images to
500	the window size to conserve memory.	559	the window size to conserve memory.
501		560
502	Example: take the screen background, clip it to the window size, blur it a	561	Example: take the screen background, clip it to the window size, blur it a
503	bit, align it to the window position and use it as background.	562	bit, align it to the window position and use it as background.
504		563
505	clip move -TX, -TY, keep { blur 5, root }	564	clip move -TX, -TY, keep { blur 5, root }
506		565
507	=cut	566	=item FOCUS
508		567
		568	Returns a boolean indicating whether the terminal window has keyboard
		569	focus, in which case it returns true.
		570
		571	Using this function makes your expression sensitive to focus changes.
		572
		573	A common use case is to fade the background image when the terminal loses
		574	focus, often together with the C<-fade> command line option. In fact,
		575	there is a special function for just that use case: C<focus_fade>.
		576
		577	Example: use two entirely different background images, depending on
		578	whether the window has focus.
		579
		580	FOCUS ? keep { load "has_focus.jpg" } : keep { load "no_focus.jpg" }
		581
		582	=cut
		583
509	sub TX() { $frame->[FR_AGAIN]{position} = 1; $x }	584	sub TX () { $frame->[FR_AGAIN]{position} = 1; $x }
510	sub TY() { $frame->[FR_AGAIN]{position} = 1; $y }	585	sub TY () { $frame->[FR_AGAIN]{position} = 1; $y }
511	sub TW() { $frame->[FR_AGAIN]{size} = 1; $w }	586	sub TW () { $frame->[FR_AGAIN]{size} = 1; $w }
512	sub TH() { $frame->[FR_AGAIN]{size} = 1; $h }	587	sub TH () { $frame->[FR_AGAIN]{size} = 1; $h }
		588	sub FOCUS() { $frame->[FR_AGAIN]{focus} = 1; $focus }
513		589
514	=item now	590	=item now
515		591
516	Returns the current time as (fractional) seconds since the epoch.	592	Returns the current time as (fractional) seconds since the epoch.
517		593
…		…
564	Clips an image to the given rectangle. If the rectangle is outside the	640	Clips an image to the given rectangle. If the rectangle is outside the
565	image area (e.g. when C<$x> or C<$y> are negative) or the rectangle is	641	image area (e.g. when C<$x> or C<$y> are negative) or the rectangle is
566	larger than the image, then the tiling mode defines how the extra pixels	642	larger than the image, then the tiling mode defines how the extra pixels
567	will be filled.	643	will be filled.
568		644
569	If C<$x> an C<$y> are missing, then C<0> is assumed for both.	645	If C<$x> and C<$y> are missing, then C<0> is assumed for both.
570		646
571	If C<$width> and C<$height> are missing, then the window size will be	647	If C<$width> and C<$height> are missing, then the window size will be
572	assumed.	648	assumed.
573		649
574	Example: load an image, blur it, and clip it to the window size to save	650	Example: load an image, blur it, and clip it to the window size to save
…		…
592	=item scale $width_factor, $height_factor, $img	668	=item scale $width_factor, $height_factor, $img
593		669
594	Scales the image by the given factors in horizontal	670	Scales the image by the given factors in horizontal
595	(C<$width>) and vertical (C<$height>) direction.	671	(C<$width>) and vertical (C<$height>) direction.
596		672
597	If only one factor is give, it is used for both directions.	673	If only one factor is given, it is used for both directions.
598		674
599	If no factors are given, scales the image to the window size without	675	If no factors are given, scales the image to the window size without
600	keeping aspect.	676	keeping aspect.
601		677
602	=item resize $width, $height, $img	678	=item resize $width, $height, $img
…		…
727	=item rotate $center_x, $center_y, $degrees, $img	803	=item rotate $center_x, $center_y, $degrees, $img
728		804
729	Rotates the image clockwise by C<$degrees> degrees, around the point at	805	Rotates the image clockwise by C<$degrees> degrees, around the point at
730	C<$center_x> and C<$center_y> (specified as factor of image width/height).	806	C<$center_x> and C<$center_y> (specified as factor of image width/height).
731		807
732	Example: rotate the image by 90 degrees around it's center.	808	Example: rotate the image by 90 degrees around its center.
733		809
734	rotate 0.5, 0.5, 90, keep { load "$HOME/mybg.png" }	810	rotate 0.5, 0.5, 90, keep { load "$HOME/mybg.png" }
735		811
736	=cut	812	=cut
737		813
…		…
750		826
751	The following operators change the pixels of the image.	827	The following operators change the pixels of the image.
752		828
753	=over 4	829	=over 4
754		830
		831	=item tint $color, $img
		832
		833	Tints the image in the given colour.
		834
		835	Example: tint the image red.
		836
		837	tint "red", load "rgb.png"
		838
		839	Example: the same, but specify the colour by component.
		840
		841	tint [1, 0, 0], load "rgb.png"
		842
		843	=cut
		844
		845	sub tint($$) {
		846	$_[1]->tint ($_[0])
		847	}
		848
		849	=item shade $factor, $img
		850
		851	Shade the image by the given factor.
		852
		853	=cut
		854
		855	sub shade($$) {
		856	$_[1]->shade ($_[0])
		857	}
		858
755	=item contrast $factor, $img	859	=item contrast $factor, $img
756		860
757	=item contrast $r, $g, $b, $img	861	=item contrast $r, $g, $b, $img
758		862
759	=item contrast $r, $g, $b, $a, $img	863	=item contrast $r, $g, $b, $a, $img
…		…
788	latter in a white picture.	892	latter in a white picture.
789		893
790	Due to idiosyncrasies in the underlying XRender extension, biases less	894	Due to idiosyncrasies in the underlying XRender extension, biases less
791	than zero can be I<very> slow.	895	than zero can be I<very> slow.
792		896
		897	You can also try the experimental(!) C<muladd> operator.
		898
793	=cut	899	=cut
794		900
795	sub contrast($$;$$;$) {	901	sub contrast($$;$$;$) {
796	my $img = pop;	902	my $img = pop;
797	my ($r, $g, $b, $a) = @_;	903	my ($r, $g, $b, $a) = @_;
…		…
812	$a = 1 if @_ < 4;	918	$a = 1 if @_ < 4;
813		919
814	$img = $img->clone;	920	$img = $img->clone;
815	$img->brightness ($r, $g, $b, $a);	921	$img->brightness ($r, $g, $b, $a);
816	$img	922	$img
		923	}
		924
		925	=item muladd $mul, $add, $img # EXPERIMENTAL
		926
		927	First multiplies the pixels by C<$mul>, then adds C<$add>. This can be used
		928	to implement brightness and contrast at the same time, with a wider value
		929	range than contrast and brightness operators.
		930
		931	Due to numerous bugs in XRender implementations, it can also introduce a
		932	number of visual artifacts.
		933
		934	Example: increase contrast by a factor of C<$c> without changing image
		935	brightness too much.
		936
		937	muladd $c, (1 - $c) * 0.5, $img
		938
		939	=cut
		940
		941	sub muladd($$$) {
		942	$_[2]->muladd ($_[0], $_[1])
817	}	943	}
818		944
819	=item blur $radius, $img	945	=item blur $radius, $img
820		946
821	=item blur $radius_horz, $radius_vert, $img	947	=item blur $radius_horz, $radius_vert, $img
…		…
831	=cut	957	=cut
832		958
833	sub blur($$;$) {	959	sub blur($$;$) {
834	my $img = pop;	960	my $img = pop;
835	$img->blur ($_[0], @_ >= 2 ? $_[1] : $_[0])	961	$img->blur ($_[0], @_ >= 2 ? $_[1] : $_[0])
		962	}
		963
		964	=item focus_fade $img
		965
		966	=item focus_fade $factor, $img
		967
		968	=item focus_fade $factor, $color, $img
		969
		970	Fades the image by the given factor (and colour) when focus is lost (the
		971	same as the C<-fade>/C<-fadecolor> command line options, which also supply
		972	the default values for C<factor> and C<$color>. Unlike with C<-fade>, the
		973	C<$factor> is a real value, not a percentage value (that is, 0..1, not
		974	0..100).
		975
		976	Example: do the right thing when focus fading is requested.
		977
		978	focus_fade load "mybg.jpg";
		979
		980	=cut
		981
		982	sub focus_fade($;$$) {
		983	my $img = pop;
		984
		985	return $img
		986	if FOCUS;
		987
		988	my $fade = @_ >= 1 ? $_[0] : defined $self->resource ("fade") ? $self->resource ("fade") * 0.01 : 0;
		989	my $color = @_ >= 2 ? $_[1] : $self->resource ("color+" . urxvt::Color_fade);
		990
		991	$img = $img->tint ($color) if $color ne "rgb:00/00/00";
		992	$img = $img->muladd (1 - $fade, 0) if $fade;
		993
		994	$img
836	}	995	}
837		996
838	=back	997	=back
839		998
840	=head2 OTHER STUFF	999	=head2 OTHER STUFF
…		…
866	C<keep> block so it only is reevaluated as required.	1025	C<keep> block so it only is reevaluated as required.
867		1026
868	Putting the blur into a C<keep> block will make sure the blur is only done	1027	Putting the blur into a C<keep> block will make sure the blur is only done
869	once, while the C<rootalign> is still done each time the window moves.	1028	once, while the C<rootalign> is still done each time the window moves.
870		1029
871	rootlign keep { blur 10, root }	1030	rootalign keep { blur 10, root }
872		1031
873	This leaves the question of how to force reevaluation of the block,	1032	This leaves the question of how to force reevaluation of the block,
874	in case the root background changes: If expression inside the block	1033	in case the root background changes: If expression inside the block
875	is sensitive to some event (root background changes, window geometry	1034	is sensitive to some event (root background changes, window geometry
876	changes), then it will be reevaluated automatically as needed.	1035	changes), then it will be reevaluated automatically as needed.
		1036
		1037	=back
		1038
		1039	=head1 OLD BACKGROUND IMAGE SETTINGS
		1040
		1041	This extension also provides support for the old options/resources and
		1042	OSC sequences for setting a background image. These settings are
		1043	B<deprecated> and will be removed in future versions.
		1044
		1045	=head2 OPTIONS AND RESOURCES
		1046
		1047	=over 4
		1048
		1049	=item B<-pixmap> I<file[;oplist]>
		1050
		1051	=item B<backgroundPixmap:> I<file[;oplist]>
		1052
		1053	Use the specified image file as the window's background and also
		1054	optionally specify a colon separated list of operations to modify it.
		1055	Note that you may need to quote the C<;> character when using the
		1056	command line option, as C<;> is usually a metacharacter in shells.
		1057	Supported operations are:
		1058
		1059	=over 4
		1060
		1061	=item B<WxH+X+Y>
		1062
		1063	sets scale and position. B<"W" / "H"> specify the horizontal/vertical
		1064	scale (percent), and B<"X" / "Y"> locate the image centre (percent). A
		1065	scale of 0 disables scaling.
		1066
		1067	=item B<op=tile>
		1068
		1069	enables tiling
		1070
		1071	=item B<op=keep-aspect>
		1072
		1073	maintain the image aspect ratio when scaling
		1074
		1075	=item B<op=root-align>
		1076
		1077	use the position of the terminal window relative to the root window as
		1078	the image offset, simulating a root window background
		1079
		1080	=back
		1081
		1082	The default scale and position setting is C<100x100+50+50>.
		1083	Alternatively, a predefined set of templates can be used to achieve
		1084	the most common setups:
		1085
		1086	=over 4
		1087
		1088	=item B<style=tiled>
		1089
		1090	the image is tiled with no scaling. Equivalent to 0x0+0+0:op=tile
		1091
		1092	=item B<style=aspect-stretched>
		1093
		1094	the image is scaled to fill the whole window maintaining the aspect
		1095	ratio and centered. Equivalent to 100x100+50+50:op=keep-aspect
		1096
		1097	=item B<style=stretched>
		1098
		1099	the image is scaled to fill the whole window. Equivalent to 100x100
		1100
		1101	=item B<style=centered>
		1102
		1103	the image is centered with no scaling. Equivalent to 0x0+50+50
		1104
		1105	=item B<style=root-tiled>
		1106
		1107	the image is tiled with no scaling and using 'root' positioning.
		1108	Equivalent to 0x0:op=tile:op=root-align
		1109
		1110	=back
		1111
		1112	If multiple templates are specified the last one wins. Note that a
		1113	template overrides all the scale, position and operations settings.
		1114
		1115	If used in conjunction with pseudo-transparency, the specified image
		1116	will be blended over the transparent background using alpha-blending.
		1117
		1118	=item B<-tr>\|B<+tr>
		1119
		1120	=item B<transparent:> I<boolean>
		1121
		1122	Turn on/off pseudo-transparency by using the root pixmap as background.
		1123
		1124	=item B<-tint> I<colour>
		1125
		1126	=item B<tintColor:> I<colour>
		1127
		1128	Tint the transparent background with the given colour. Note that a
		1129	black tint yields a completely black image while a white tint yields
		1130	the image unchanged.
		1131
		1132	=item B<-sh> I<number>
		1133
		1134	=item B<shading:> I<number>
		1135
		1136	Darken (0 .. 99) or lighten (101 .. 200) the transparent background.
		1137	A value of 100 means no shading.
		1138
		1139	=item B<-blr> I<HxV>
		1140
		1141	=item B<blurRadius:> I<HxV>
		1142
		1143	Apply gaussian blur with the specified radius to the transparent
		1144	background. If a single number is specified, the vertical and
		1145	horizontal radii are considered to be the same. Setting one of the
		1146	radii to 1 and the other to a large number creates interesting effects
		1147	on some backgrounds. The maximum radius value is 128. An horizontal or
		1148	vertical radius of 0 disables blurring.
		1149
		1150	=back
		1151
		1152	=head2 OSC sequences
		1153
		1154	=over 4
		1155
		1156	=item B<< C<ESC ] 705 ; Pt ST> >> Change transparent background tint colour to B<< C<Pt> >>.
		1157
		1158	=item B<< C<ESC ] 20 ; Pt ST> >> Change/Query background image
		1159	parameters: the value of B<< C<Pt> >> can be one of the following
		1160	commands:
		1161
		1162	=over 4
		1163
		1164	=item B<< C<?> >>
		1165
		1166	display scale and position in the title
		1167
		1168	=item B<< C<;WxH+X+Y> >>
		1169
		1170	change scale and/or position
		1171
		1172	=item B<< C<FILE;WxH+X+Y> >>
		1173
		1174	change background image
		1175
		1176	=back
877		1177
878	=cut	1178	=cut
879		1179
880	sub keep(&) {	1180	sub keep(&) {
881	my $id = $_[0]+0;	1181	my $id = $_[0]+0;
…		…
928		1228
929	# compiles a parsed expression	1229	# compiles a parsed expression
930	sub set_expr {	1230	sub set_expr {
931	my ($self, $expr) = @_;	1231	my ($self, $expr) = @_;
932		1232
933	$self->{root} = [];	1233	$self->{root} = []; # the outermost frame
934	$self->{expr} = $expr;	1234	$self->{expr} = $expr;
935	$self->recalculate;	1235	$self->recalculate;
936	}	1236	}
937		1237
938	# takes a hash of sensitivity indicators and installs watchers	1238	# takes a hash of sensitivity indicators and installs watchers
…		…
979	if ($again->{rootpmap}) {	1279	if ($again->{rootpmap}) {
980	$state->{rootpmap} = $self->on (rootpmap_change => $cb);	1280	$state->{rootpmap} = $self->on (rootpmap_change => $cb);
981	} else {	1281	} else {
982	delete $state->{rootpmap};	1282	delete $state->{rootpmap};
983	}	1283	}
		1284
		1285	if ($again->{focus}) {
		1286	$state->{focus} = $self->on (focus_in => $cb, focus_out => $cb);
		1287	} else {
		1288	delete $state->{focus};
		1289	}
984	}	1290	}
985		1291
986	# evaluate the current bg expression	1292	# evaluate the current bg expression
987	sub recalculate {	1293	sub recalculate {
988	my ($arg_self) = @_;	1294	my ($arg_self) = @_;
…		…
1000		1306
1001	# set environment to evaluate user expression	1307	# set environment to evaluate user expression
1002		1308
1003	local $self = $arg_self;	1309	local $self = $arg_self;
1004	local $HOME = $ENV{HOME};	1310	local $HOME = $ENV{HOME};
1005	local $frame = [];	1311	local $frame = $self->{root};
1006		1312
1007	($x, $y, $w, $h) = $self->background_geometry ($self->{border});	1313	($x, $y, $w, $h) = $self->background_geometry ($self->{border});
		1314	$focus = $self->focus;
1008		1315
1009	# evaluate user expression	1316	# evaluate user expression
1010		1317
1011	my @img = eval { $self->{expr}->() };	1318	my @img = eval { $self->{expr}->() };
1012	die $@ if $@;	1319	die $@ if $@;
…		…
1030	# }	1337	# }
1031		1338
1032	# set background pixmap	1339	# set background pixmap
1033		1340
1034	$self->set_background ($img, $self->{border});	1341	$self->set_background ($img, $self->{border});
1035	$self->scr_recolour (0);	1342	$self->scr_recolor (0);
1036	$self->want_refresh;	1343	$self->want_refresh;
1037	}	1344	}
1038		1345
		1346	sub old_bg_opts {
		1347	my ($self, $arg) = @_;
		1348
		1349	$arg or return;
		1350
		1351	my @str = split /;/, $arg;
		1352
		1353	return unless $str[0] or $self->{bg_opts}->{path};
		1354
		1355	my $bg_opts = $self->{bg_opts};
		1356
		1357	if ($str[0]) {
		1358	$bg_opts->{tile} = 0;
		1359	$bg_opts->{keep_aspect} = 0;
		1360	$bg_opts->{root_align} = 0;
		1361	$bg_opts->{h_scale} = $bg_opts->{v_scale} = 100;
		1362	$bg_opts->{h_align} = $bg_opts->{v_align} = 50;
		1363	$bg_opts->{path} = unpack "H*", $str[0];
		1364	}
		1365
		1366	my @oplist = split /:/, $str[1];
		1367
		1368	for (@oplist) {
		1369	if (/style=tiled/i) {
		1370	$bg_opts->{tile} = 1;
		1371	$bg_opts->{keep_aspect} = 0;
		1372	$bg_opts->{root_align} = 0;
		1373	$bg_opts->{h_scale} = $bg_opts->{v_scale} = 0;
		1374	$bg_opts->{h_align} = $bg_opts->{v_align} = 0;
		1375	} elsif (/style=aspect-stretched/i) {
		1376	$bg_opts->{tile} = 0;
		1377	$bg_opts->{keep_aspect} = 1;
		1378	$bg_opts->{root_align} = 0;
		1379	$bg_opts->{h_scale} = $bg_opts->{v_scale} = 100;
		1380	$bg_opts->{h_align} = $bg_opts->{v_align} = 50;
		1381	} elsif (/style=stretched/i) {
		1382	$bg_opts->{tile} = 0;
		1383	$bg_opts->{keep_aspect} = 0;
		1384	$bg_opts->{root_align} = 0;
		1385	$bg_opts->{h_scale} = $bg_opts->{v_scale} = 100;
		1386	$bg_opts->{h_align} = $bg_opts->{v_align} = 50;
		1387	} elsif (/style=centered/i) {
		1388	$bg_opts->{tile} = 0;
		1389	$bg_opts->{keep_aspect} = 0;
		1390	$bg_opts->{root_align} = 0;
		1391	$bg_opts->{h_scale} = $bg_opts->{v_scale} = 0;
		1392	$bg_opts->{h_align} = $bg_opts->{v_align} = 50;
		1393	} elsif (/style=root-tiled/i) {
		1394	$bg_opts->{tile} = 1;
		1395	$bg_opts->{keep_aspect} = 0;
		1396	$bg_opts->{root_align} = 1;
		1397	$bg_opts->{h_scale} = $bg_opts->{v_scale} = 0;
		1398	$bg_opts->{h_align} = $bg_opts->{v_align} = 0;
		1399	} elsif (/op=tile/i) {
		1400	$bg_opts->{tile} = 1;
		1401	} elsif (/op=keep_aspect/i) {
		1402	$bg_opts->{keep_aspect} = 1;
		1403	} elsif (/op=root_align/i) {
		1404	$bg_opts->{root_align} = 1;
		1405	} elsif (/^ =? ([0-9]+)? (?:[xX] ([0-9]+))? ([+-][0-9]+)? ([+-][0-9]+)? $/x) {
		1406	my ($w, $h, $x, $y) = ($1, $2, $3, $4);
		1407
		1408	if ($str[0]) {
		1409	$w = $h unless defined $w;
		1410	$h = $w unless defined $h;
		1411	$y = $x unless defined $y;
		1412	}
		1413
		1414	$bg_opts->{h_scale} = $w if defined $w;
		1415	$bg_opts->{v_scale} = $h if defined $h;
		1416	$bg_opts->{h_align} = $x if defined $x;
		1417	$bg_opts->{v_align} = $y if defined $y;
		1418	}
		1419	}
		1420	}
		1421
		1422	sub old_bg_expr {
		1423	my ($self) = @_;
		1424
		1425	my $expr;
		1426
		1427	my $bg_opts = $self->{bg_opts};
		1428
		1429	if ($bg_opts->{root}) {
		1430	$expr .= "tile (";
		1431
		1432	my $shade = $bg_opts->{shade};
		1433
		1434	if ($shade) {
		1435	$shade = List::Util::min $shade, 200;
		1436	$shade = List::Util::max $shade, -100;
		1437	$shade = 200 - (100 + $shade) if $shade < 0;
		1438
		1439	$shade = $shade * 0.01 - 1;
		1440	$expr .= "shade $shade, ";
		1441	}
		1442
		1443	my $tint = $bg_opts->{tint};
		1444
		1445	if ($tint) {
		1446	$expr .= "tint $tint, ";
		1447	}
		1448
		1449	my $blur = $bg_opts->{blur};
		1450
		1451	if ($blur and $blur =~ /^ =? ([0-9]+)? (?:[xX] ([0-9]+))? $/x) {
		1452	my $hr = defined $1 ? $1 : 1;
		1453	my $vr = defined $2 ? $2 : $hr;
		1454
		1455	if ($hr != 0 and $vr != 0) {
		1456	$expr .= "blur $hr, $vr, ";
		1457	}
		1458	}
		1459
		1460	$expr .= "rootalign root)";
		1461	}
		1462
		1463	if ($bg_opts->{path}) {
		1464	my $file_expr;
		1465	my $h_scale = $bg_opts->{h_scale} * 0.01;
		1466	my $v_scale = $bg_opts->{v_scale} * 0.01;
		1467	my $h_align = $bg_opts->{h_align} * 0.01;
		1468	my $v_align = $bg_opts->{v_align} * 0.01;
		1469
		1470	if (!$bg_opts->{tile}) {
		1471	$file_expr .= "pad (";
		1472	} else {
		1473	$file_expr .= "tile (";
		1474	}
		1475
		1476	if ($bg_opts->{root_align}) {
		1477	$file_expr .= "rootalign ";
		1478	} else {
		1479	$file_expr .= "align $h_align, $v_align, ";
		1480	}
		1481
		1482	if ($h_scale != 0 and $v_scale != 0) {
		1483	my $op = $bg_opts->{keep_aspect} ? "fit" : "resize";
		1484	$file_expr .= "$op TW * $h_scale, TH * $v_scale, ";
		1485	}
		1486
		1487	$file_expr .= "keep { load pack \"H*\", \"$bg_opts->{path}\" })";
		1488
		1489	if ($expr) {
		1490	$expr .= ", tint (\"[50]white\", $file_expr)";
		1491	} else {
		1492	$expr = $file_expr;
		1493	}
		1494	}
		1495
		1496	$expr
		1497	}
		1498
		1499	sub on_osc_seq {
		1500	my ($self, $op, $arg) = @_;
		1501
		1502	$self->{bg_opts} or return;
		1503
		1504	$op =~ /^(20\|705)$/ or return;
		1505
		1506	if ($op eq "20") {
		1507	if ($arg eq "?") {
		1508	my $h_scale = $self->{bg_opts}->{h_scale};
		1509	my $v_scale = $self->{bg_opts}->{v_scale};
		1510	my $h_align = $self->{bg_opts}->{h_align};
		1511	my $v_align = $self->{bg_opts}->{v_align};
		1512	$self->cmd_parse ("\033]2;[${h_scale}x${v_scale}+${h_align}+${v_align}]\007");
		1513	} else {
		1514	$self->old_bg_opts ($arg);
		1515	my $expr = $self->old_bg_expr;
		1516	$self->set_expr (parse_expr $expr) if $expr;
		1517	}
		1518	} elsif ($op eq "705") {
		1519	$self->{bg_opts}->{tint} = $arg;
		1520	my $expr = $self->old_bg_expr;
		1521	$self->set_expr (parse_expr $expr) if $expr;
		1522	}
		1523
		1524	1
		1525	}
		1526
		1527	sub find_resource {
		1528	my ($self, $a, $b) = @_;
		1529
		1530	my $v = $self->x_resource ($a);
		1531	$v = $self->x_resource ($b) unless defined $v;
		1532
		1533	$v
		1534	}
		1535
1039	sub on_start {	1536	sub on_start {
1040	my ($self) = @_;	1537	my ($self) = @_;
1041		1538
1042	my $expr = $self->x_resource ("%.expr")	1539	my $expr = $self->x_resource ("%.expr");
		1540
		1541	if (!$expr) {
		1542	$self->{bg_opts} = { h_scale => 100, v_scale => 100,
		1543	h_align => 50, v_align => 50 };
		1544
		1545	$self->{bg_opts}->{shade} = $self->find_resource ("shading", "sh");
		1546	$self->{bg_opts}->{tint} = $self->find_resource ("tintColor", "tint");
		1547	$self->{bg_opts}->{blur} = $self->find_resource ("blurRadius", "blr");
		1548	if ($self->x_resource_boolean ("transparent")
		1549	or $self->x_resource_boolean ("tr")) {
		1550	$self->{bg_opts}->{root} = 1;
		1551	}
		1552
		1553	$self->old_bg_opts ($self->find_resource ("backgroundPixmap", "pixmap"));
		1554	$expr = $self->old_bg_expr;
		1555	}
		1556
1043	or return;	1557	$expr or return;
1044		1558
1045	$self->has_render	1559	$self->has_render
1046	or die "background extension needs RENDER extension 0.10 or higher, ignoring background-expr.\n";	1560	or die "background extension needs RENDER extension 0.10 or higher, ignoring background-expr.\n";
1047		1561
1048	$self->set_expr (parse_expr $expr);	1562	$self->set_expr (parse_expr $expr);

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Comparing rxvt-unicode/src/perl/background (file contents): Revision 1.69 by root, Mon Jul 2 01:32:26 2012 UTC vs. Revision 1.92 by sf-exg, Thu Jul 14 05:33:26 2016 UTC

Diff Legend

Comparing rxvt-unicode/src/perl/background (file contents):
Revision 1.69 by root, Mon Jul 2 01:32:26 2012 UTC vs.
Revision 1.92 by sf-exg, Thu Jul 14 05:33:26 2016 UTC