Implemented alias reading/writing via sysfs.
%!PS-Adobe-2.0 EPSF-2.0
%%Title: interrupt.fig
%%Creator: fig2dev Version 3.2 Patchlevel 4
%%CreationDate: Mon Aug 7 13:51:08 2006
%%For: fp@jupiter (Florian Pose)
%%BoundingBox: 0 0 538 278
%%Magnification: 1.0000
%%EndComments
/MyAppDict 100 dict dup begin def
/$F2psDict 200 dict def
$F2psDict begin
$F2psDict /mtrx matrix put
/col-1 {0 setgray} bind def
/col0 {0.000 0.000 0.000 srgb} bind def
/col1 {0.000 0.000 1.000 srgb} bind def
/col2 {0.000 1.000 0.000 srgb} bind def
/col3 {0.000 1.000 1.000 srgb} bind def
/col4 {1.000 0.000 0.000 srgb} bind def
/col5 {1.000 0.000 1.000 srgb} bind def
/col6 {1.000 1.000 0.000 srgb} bind def
/col7 {1.000 1.000 1.000 srgb} bind def
/col8 {0.000 0.000 0.560 srgb} bind def
/col9 {0.000 0.000 0.690 srgb} bind def
/col10 {0.000 0.000 0.820 srgb} bind def
/col11 {0.530 0.810 1.000 srgb} bind def
/col12 {0.000 0.560 0.000 srgb} bind def
/col13 {0.000 0.690 0.000 srgb} bind def
/col14 {0.000 0.820 0.000 srgb} bind def
/col15 {0.000 0.560 0.560 srgb} bind def
/col16 {0.000 0.690 0.690 srgb} bind def
/col17 {0.000 0.820 0.820 srgb} bind def
/col18 {0.560 0.000 0.000 srgb} bind def
/col19 {0.690 0.000 0.000 srgb} bind def
/col20 {0.820 0.000 0.000 srgb} bind def
/col21 {0.560 0.000 0.560 srgb} bind def
/col22 {0.690 0.000 0.690 srgb} bind def
/col23 {0.820 0.000 0.820 srgb} bind def
/col24 {0.500 0.190 0.000 srgb} bind def
/col25 {0.630 0.250 0.000 srgb} bind def
/col26 {0.750 0.380 0.000 srgb} bind def
/col27 {1.000 0.500 0.500 srgb} bind def
/col28 {1.000 0.630 0.630 srgb} bind def
/col29 {1.000 0.750 0.750 srgb} bind def
/col30 {1.000 0.880 0.880 srgb} bind def
/col31 {1.000 0.840 0.000 srgb} bind def
end
save
newpath 0 278 moveto 0 0 lineto 538 0 lineto 538 278 lineto closepath clip newpath
-12.2 386.3 translate
1 -1 scale
% This junk string is used by the show operators
/PATsstr 1 string def
/PATawidthshow { % cx cy cchar rx ry string
% Loop over each character in the string
{ % cx cy cchar rx ry char
% Show the character
dup % cx cy cchar rx ry char char
PATsstr dup 0 4 -1 roll put % cx cy cchar rx ry char (char)
false charpath % cx cy cchar rx ry char
/clip load PATdraw
% Move past the character (charpath modified the
% current point)
currentpoint % cx cy cchar rx ry char x y
newpath
moveto % cx cy cchar rx ry char
% Reposition by cx,cy if the character in the string is cchar
3 index eq { % cx cy cchar rx ry
4 index 4 index rmoveto
} if
% Reposition all characters by rx ry
2 copy rmoveto % cx cy cchar rx ry
} forall
pop pop pop pop pop % -
currentpoint
newpath
moveto
} bind def
/PATcg {
7 dict dup begin
/lw currentlinewidth def
/lc currentlinecap def
/lj currentlinejoin def
/ml currentmiterlimit def
/ds [ currentdash ] def
/cc [ currentrgbcolor ] def
/cm matrix currentmatrix def
end
} bind def
% PATdraw - calculates the boundaries of the object and
% fills it with the current pattern
/PATdraw { % proc
save exch
PATpcalc % proc nw nh px py
5 -1 roll exec % nw nh px py
newpath
PATfill % -
restore
} bind def
% PATfill - performs the tiling for the shape
/PATfill { % nw nh px py PATfill -
PATDict /CurrentPattern get dup begin
setfont
% Set the coordinate system to Pattern Space
PatternGState PATsg
% Set the color for uncolored pattezns
PaintType 2 eq { PATDict /PColor get PATsc } if
% Create the string for showing
3 index string % nw nh px py str
% Loop for each of the pattern sources
0 1 Multi 1 sub { % nw nh px py str source
% Move to the starting location
3 index 3 index % nw nh px py str source px py
moveto % nw nh px py str source
% For multiple sources, set the appropriate color
Multi 1 ne { dup PC exch get PATsc } if
% Set the appropriate string for the source
0 1 7 index 1 sub { 2 index exch 2 index put } for pop
% Loop over the number of vertical cells
3 index % nw nh px py str nh
{ % nw nh px py str
currentpoint % nw nh px py str cx cy
2 index oldshow % nw nh px py str cx cy
YStep add moveto % nw nh px py str
} repeat % nw nh px py str
} for
5 { pop } repeat
end
} bind def
% PATkshow - kshow with the current pattezn
/PATkshow { % proc string
exch bind % string proc
1 index 0 get % string proc char
% Loop over all but the last character in the string
0 1 4 index length 2 sub {
% string proc char idx
% Find the n+1th character in the string
3 index exch 1 add get % string proc char char+1
exch 2 copy % strinq proc char+1 char char+1 char
% Now show the nth character
PATsstr dup 0 4 -1 roll put % string proc chr+1 chr chr+1 (chr)
false charpath % string proc char+1 char char+1
/clip load PATdraw
% Move past the character (charpath modified the current point)
currentpoint newpath moveto
% Execute the user proc (should consume char and char+1)
mark 3 1 roll % string proc char+1 mark char char+1
4 index exec % string proc char+1 mark...
cleartomark % string proc char+1
} for
% Now display the last character
PATsstr dup 0 4 -1 roll put % string proc (char+1)
false charpath % string proc
/clip load PATdraw
neewath
pop pop % -
} bind def
% PATmp - the makepattern equivalent
/PATmp { % patdict patmtx PATmp patinstance
exch dup length 7 add % We will add 6 new entries plus 1 FID
dict copy % Create a new dictionary
begin
% Matrix to install when painting the pattern
TilingType PATtcalc
/PatternGState PATcg def
PatternGState /cm 3 -1 roll put
% Check for multi pattern sources (Level 1 fast color patterns)
currentdict /Multi known not { /Multi 1 def } if
% Font dictionary definitions
/FontType 3 def
% Create a dummy encoding vector
/Encoding 256 array def
3 string 0 1 255 {
Encoding exch dup 3 index cvs cvn put } for pop
/FontMatrix matrix def
/FontBBox BBox def
/BuildChar {
mark 3 1 roll % mark dict char
exch begin
Multi 1 ne {PaintData exch get}{pop} ifelse % mark [paintdata]
PaintType 2 eq Multi 1 ne or
{ XStep 0 FontBBox aload pop setcachedevice }
{ XStep 0 setcharwidth } ifelse
currentdict % mark [paintdata] dict
/PaintProc load % mark [paintdata] dict paintproc
end
gsave
false PATredef exec true PATredef
grestore
cleartomark % -
} bind def
currentdict
end % newdict
/foo exch % /foo newlict
definefont % newfont
} bind def
% PATpcalc - calculates the starting point and width/height
% of the tile fill for the shape
/PATpcalc { % - PATpcalc nw nh px py
PATDict /CurrentPattern get begin
gsave
% Set up the coordinate system to Pattern Space
% and lock down pattern
PatternGState /cm get setmatrix
BBox aload pop pop pop translate
% Determine the bounding box of the shape
pathbbox % llx lly urx ury
grestore
% Determine (nw, nh) the # of cells to paint width and height
PatHeight div ceiling % llx lly urx qh
4 1 roll % qh llx lly urx
PatWidth div ceiling % qh llx lly qw
4 1 roll % qw qh llx lly
PatHeight div floor % qw qh llx ph
4 1 roll % ph qw qh llx
PatWidth div floor % ph qw qh pw
4 1 roll % pw ph qw qh
2 index sub cvi abs % pw ph qs qh-ph
exch 3 index sub cvi abs exch % pw ph nw=qw-pw nh=qh-ph
% Determine the starting point of the pattern fill
%(px, py)
4 2 roll % nw nh pw ph
PatHeight mul % nw nh pw py
exch % nw nh py pw
PatWidth mul exch % nw nh px py
end
} bind def
% Save the original routines so that we can use them later on
/oldfill /fill load def
/oldeofill /eofill load def
/oldstroke /stroke load def
/oldshow /show load def
/oldashow /ashow load def
/oldwidthshow /widthshow load def
/oldawidthshow /awidthshow load def
/oldkshow /kshow load def
% These defs are necessary so that subsequent procs don't bind in
% the originals
/fill { oldfill } bind def
/eofill { oldeofill } bind def
/stroke { oldstroke } bind def
/show { oldshow } bind def
/ashow { oldashow } bind def
/widthshow { oldwidthshow } bind def
/awidthshow { oldawidthshow } bind def
/kshow { oldkshow } bind def
/PATredef {
MyAppDict begin
{
/fill { /clip load PATdraw newpath } bind def
/eofill { /eoclip load PATdraw newpath } bind def
/stroke { PATstroke } bind def
/show { 0 0 null 0 0 6 -1 roll PATawidthshow } bind def
/ashow { 0 0 null 6 3 roll PATawidthshow }
bind def
/widthshow { 0 0 3 -1 roll PATawidthshow }
bind def
/awidthshow { PATawidthshow } bind def
/kshow { PATkshow } bind def
} {
/fill { oldfill } bind def
/eofill { oldeofill } bind def
/stroke { oldstroke } bind def
/show { oldshow } bind def
/ashow { oldashow } bind def
/widthshow { oldwidthshow } bind def
/awidthshow { oldawidthshow } bind def
/kshow { oldkshow } bind def
} ifelse
end
} bind def
false PATredef
% Conditionally define setcmykcolor if not available
/setcmykcolor where { pop } {
/setcmykcolor {
1 sub 4 1 roll
3 {
3 index add neg dup 0 lt { pop 0 } if 3 1 roll
} repeat
setrgbcolor - pop
} bind def
} ifelse
/PATsc { % colorarray
aload length % c1 ... cn length
dup 1 eq { pop setgray } { 3 eq { setrgbcolor } { setcmykcolor
} ifelse } ifelse
} bind def
/PATsg { % dict
begin
lw setlinewidth
lc setlinecap
lj setlinejoin
ml setmiterlimit
ds aload pop setdash
cc aload pop setrgbcolor
cm setmatrix
end
} bind def
/PATDict 3 dict def
/PATsp {
true PATredef
PATDict begin
/CurrentPattern exch def
% If it's an uncolored pattern, save the color
CurrentPattern /PaintType get 2 eq {
/PColor exch def
} if
/CColor [ currentrgbcolor ] def
end
} bind def
% PATstroke - stroke with the current pattern
/PATstroke {
countdictstack
save
mark
{
currentpoint strokepath moveto
PATpcalc % proc nw nh px py
clip newpath PATfill
} stopped {
(*** PATstroke Warning: Path is too complex, stroking
with gray) =
cleartomark
restore
countdictstack exch sub dup 0 gt
{ { end } repeat } { pop } ifelse
gsave 0.5 setgray oldstroke grestore
} { pop restore pop } ifelse
newpath
} bind def
/PATtcalc { % modmtx tilingtype PATtcalc tilematrix
% Note: tiling types 2 and 3 are not supported
gsave
exch concat % tilingtype
matrix currentmatrix exch % cmtx tilingtype
% Tiling type 1 and 3: constant spacing
2 ne {
% Distort the pattern so that it occupies
% an integral number of device pixels
dup 4 get exch dup 5 get exch % tx ty cmtx
XStep 0 dtransform
round exch round exch % tx ty cmtx dx.x dx.y
XStep div exch XStep div exch % tx ty cmtx a b
0 YStep dtransform
round exch round exch % tx ty cmtx a b dy.x dy.y
YStep div exch YStep div exch % tx ty cmtx a b c d
7 -3 roll astore % { a b c d tx ty }
} if
grestore
} bind def
/PATusp {
false PATredef
PATDict begin
CColor PATsc
end
} bind def
% right45
11 dict begin
/PaintType 1 def
/PatternType 1 def
/TilingType 1 def
/BBox [0 0 1 1] def
/XStep 1 def
/YStep 1 def
/PatWidth 1 def
/PatHeight 1 def
/Multi 2 def
/PaintData [
{ clippath } bind
{ 20 20 true [ 20 0 0 -20 0 20 ]
{<0040100080200100400200800401000802001004
0020080040100080200000401000802001004002
0080040100080200100400200800401000802000>}
imagemask } bind
] def
/PaintProc {
pop
exec fill
} def
currentdict
end
/P5 exch def
/cp {closepath} bind def
/ef {eofill} bind def
/gr {grestore} bind def
/gs {gsave} bind def
/sa {save} bind def
/rs {restore} bind def
/l {lineto} bind def
/m {moveto} bind def
/rm {rmoveto} bind def
/n {newpath} bind def
/s {stroke} bind def
/sh {show} bind def
/slc {setlinecap} bind def
/slj {setlinejoin} bind def
/slw {setlinewidth} bind def
/srgb {setrgbcolor} bind def
/rot {rotate} bind def
/sc {scale} bind def
/sd {setdash} bind def
/ff {findfont} bind def
/sf {setfont} bind def
/scf {scalefont} bind def
/sw {stringwidth} bind def
/tr {translate} bind def
/tnt {dup dup currentrgbcolor
4 -2 roll dup 1 exch sub 3 -1 roll mul add
4 -2 roll dup 1 exch sub 3 -1 roll mul add
4 -2 roll dup 1 exch sub 3 -1 roll mul add srgb}
bind def
/shd {dup dup currentrgbcolor 4 -2 roll mul 4 -2 roll mul
4 -2 roll mul srgb} bind def
/reencdict 12 dict def /ReEncode { reencdict begin
/newcodesandnames exch def /newfontname exch def /basefontname exch def
/basefontdict basefontname findfont def /newfont basefontdict maxlength dict def
basefontdict { exch dup /FID ne { dup /Encoding eq
{ exch dup length array copy newfont 3 1 roll put }
{ exch newfont 3 1 roll put } ifelse } { pop pop } ifelse } forall
newfont /FontName newfontname put newcodesandnames aload pop
128 1 255 { newfont /Encoding get exch /.notdef put } for
newcodesandnames length 2 idiv { newfont /Encoding get 3 1 roll put } repeat
newfontname newfont definefont pop end } def
/isovec [
8#055 /minus 8#200 /grave 8#201 /acute 8#202 /circumflex 8#203 /tilde
8#204 /macron 8#205 /breve 8#206 /dotaccent 8#207 /dieresis
8#210 /ring 8#211 /cedilla 8#212 /hungarumlaut 8#213 /ogonek 8#214 /caron
8#220 /dotlessi 8#230 /oe 8#231 /OE
8#240 /space 8#241 /exclamdown 8#242 /cent 8#243 /sterling
8#244 /currency 8#245 /yen 8#246 /brokenbar 8#247 /section 8#250 /dieresis
8#251 /copyright 8#252 /ordfeminine 8#253 /guillemotleft 8#254 /logicalnot
8#255 /hyphen 8#256 /registered 8#257 /macron 8#260 /degree 8#261 /plusminus
8#262 /twosuperior 8#263 /threesuperior 8#264 /acute 8#265 /mu 8#266 /paragraph
8#267 /periodcentered 8#270 /cedilla 8#271 /onesuperior 8#272 /ordmasculine
8#273 /guillemotright 8#274 /onequarter 8#275 /onehalf
8#276 /threequarters 8#277 /questiondown 8#300 /Agrave 8#301 /Aacute
8#302 /Acircumflex 8#303 /Atilde 8#304 /Adieresis 8#305 /Aring
8#306 /AE 8#307 /Ccedilla 8#310 /Egrave 8#311 /Eacute
8#312 /Ecircumflex 8#313 /Edieresis 8#314 /Igrave 8#315 /Iacute
8#316 /Icircumflex 8#317 /Idieresis 8#320 /Eth 8#321 /Ntilde 8#322 /Ograve
8#323 /Oacute 8#324 /Ocircumflex 8#325 /Otilde 8#326 /Odieresis 8#327 /multiply
8#330 /Oslash 8#331 /Ugrave 8#332 /Uacute 8#333 /Ucircumflex
8#334 /Udieresis 8#335 /Yacute 8#336 /Thorn 8#337 /germandbls 8#340 /agrave
8#341 /aacute 8#342 /acircumflex 8#343 /atilde 8#344 /adieresis 8#345 /aring
8#346 /ae 8#347 /ccedilla 8#350 /egrave 8#351 /eacute
8#352 /ecircumflex 8#353 /edieresis 8#354 /igrave 8#355 /iacute
8#356 /icircumflex 8#357 /idieresis 8#360 /eth 8#361 /ntilde 8#362 /ograve
8#363 /oacute 8#364 /ocircumflex 8#365 /otilde 8#366 /odieresis 8#367 /divide
8#370 /oslash 8#371 /ugrave 8#372 /uacute 8#373 /ucircumflex
8#374 /udieresis 8#375 /yacute 8#376 /thorn 8#377 /ydieresis] def
/Helvetica /Helvetica-iso isovec ReEncode
/$F2psBegin {$F2psDict begin /$F2psEnteredState save def} def
/$F2psEnd {$F2psEnteredState restore end} def
$F2psBegin
10 setmiterlimit
0 slj 0 slc
0.06299 0.06299 sc
%
% Fig objects follow
%
%
% here starts figure with depth 50
% Polyline
7.500 slw
gs clippath
3450 4020 m 3450 4080 l 3602 4080 l 3482 4050 l 3602 4020 l cp
eoclip
n 4230 3915 m 3825 3915 l 3960 4050 l
3465 4050 l gs col0 s gr gr
% arrowhead
n 3602 4020 m 3482 4050 l 3602 4080 l col0 s
% Polyline
gs clippath
330 5910 m 390 5910 l 390 5759 l 360 5879 l 330 5759 l cp
eoclip
n 360 2295 m
360 5895 l gs col0 s gr gr
% arrowhead
n 330 5759 m 360 5879 l 390 5759 l 330 5759 l cp gs 0.00 setgray ef gr col0 s
% Polyline
n 3465 2160 m
3465 6120 l gs col0 s gr
% Polyline
n 1215 2160 m
1215 6120 l gs col0 s gr
% Polyline
n 1215 3375 m
3465 3375 l gs col0 s gr
% Polyline
n 1215 4050 m
3465 4050 l gs col0 s gr
% Polyline
n 1215 4770 m
3465 4770 l gs col0 s gr
% Polyline
n 1215 3375 m 3465 3375 l 3465 4050 l 1215 4050 l
cp gs /PC [[1.00 1.00 1.00] [0.00 0.00 0.00]] def
15.00 15.00 sc P5 [16 0 0 -16 81.00 225.00] PATmp PATsp ef gr PATusp gs col0 s gr
% Polyline
n 1215 4410 m
3465 4410 l gs col0 s gr
% Polyline
n 1215 3015 m
3465 3015 l gs col0 s gr
% Polyline
n 855 2295 m
3465 2295 l gs col0 s gr
% Polyline
n 1215 2655 m
3465 2655 l gs col0 s gr
% Polyline
n 1215 4770 m 3465 4770 l 3465 5445 l 1215 5445 l
cp gs /PC [[1.00 1.00 1.00] [0.00 0.00 0.00]] def
15.00 15.00 sc P5 [16 0 0 -16 81.00 318.00] PATmp PATsp ef gr PATusp gs col0 s gr
% Polyline
n 855 5445 m
3465 5445 l gs col0 s gr
% Polyline
n 1215 5805 m
3465 5805 l gs col0 s gr
% Polyline
n 7560 2160 m
7560 6120 l gs col0 s gr
% Polyline
n 5310 2160 m
5310 6120 l gs col0 s gr
% Polyline
n 5310 3375 m
7560 3375 l gs col0 s gr
% Polyline
n 5310 4770 m
7560 4770 l gs col0 s gr
% Polyline
n 5310 3015 m
7560 3015 l gs col0 s gr
% Polyline
n 4950 2295 m
7560 2295 l gs col0 s gr
% Polyline
n 5310 2655 m
7560 2655 l gs col0 s gr
% Polyline
n 5310 5805 m
7560 5805 l gs col0 s gr
% Polyline
n 5310 3735 m
7560 3735 l gs col0 s gr
% Polyline
n 5310 4095 m 7560 4095 l 7560 5445 l 5310 5445 l
cp gs /PC [[1.00 1.00 1.00] [0.00 0.00 0.00]] def
15.00 15.00 sc P5 [16 0 0 -16 354.00 273.00] PATmp PATsp ef gr PATusp gs col0 s gr
% Polyline
n 4950 5445 m
7560 5445 l gs col0 s gr
/Helvetica-iso ff 180.00 scf sf
3555 3870 m
gs 1 -1 sc (Interrupt) col0 sh gr
/Helvetica-iso ff 180.00 scf sf
315 4320 m
gs 1 -1 sc 90.0 rot (Time) col0 sh gr
/Helvetica-iso ff 180.00 scf sf
2340 2880 m
gs 1 -1 sc (Frame Assembly) dup sw pop 2 div neg 0 rm col0 sh gr
/Helvetica-iso ff 180.00 scf sf
2340 3240 m
gs 1 -1 sc (Frame Sending) dup sw pop 2 div neg 0 rm col0 sh gr
/Helvetica-iso ff 180.00 scf sf
2340 4275 m
gs 1 -1 sc (ISR) dup sw pop 2 div neg 0 rm col0 sh gr
/Helvetica-iso ff 180.00 scf sf
2340 4635 m
gs 1 -1 sc (Frame Dissection) dup sw pop 2 div neg 0 rm col0 sh gr
/Helvetica-iso ff 180.00 scf sf
2340 2520 m
gs 1 -1 sc (Data Processing) dup sw pop 2 div neg 0 rm col0 sh gr
/Helvetica-iso ff 180.00 scf sf
2340 5670 m
gs 1 -1 sc (Data Processing) dup sw pop 2 div neg 0 rm col0 sh gr
/Helvetica-iso ff 180.00 scf sf
2340 6030 m
gs 1 -1 sc (...) dup sw pop 2 div neg 0 rm col0 sh gr
/Helvetica-iso ff 180.00 scf sf
2340 2160 m
gs 1 -1 sc (...) dup sw pop 2 div neg 0 rm col0 sh gr
/Helvetica-iso ff 180.00 scf sf
1215 1845 m
gs 1 -1 sc (Interrupt Operation) col0 sh gr
/Helvetica-iso ff 180.00 scf sf
6435 5670 m
gs 1 -1 sc (ISR) dup sw pop 2 div neg 0 rm col0 sh gr
/Helvetica-iso ff 180.00 scf sf
6435 6030 m
gs 1 -1 sc (...) dup sw pop 2 div neg 0 rm col0 sh gr
/Helvetica-iso ff 180.00 scf sf
6435 2160 m
gs 1 -1 sc (...) dup sw pop 2 div neg 0 rm col0 sh gr
/Helvetica-iso ff 180.00 scf sf
6435 3240 m
gs 1 -1 sc (Data Processing) dup sw pop 2 div neg 0 rm col0 sh gr
/Helvetica-iso ff 180.00 scf sf
6435 2520 m
gs 1 -1 sc (ISR) dup sw pop 2 div neg 0 rm col0 sh gr
/Helvetica-iso ff 180.00 scf sf
6435 2880 m
gs 1 -1 sc (Frame Dissection) dup sw pop 2 div neg 0 rm col0 sh gr
/Helvetica-iso ff 180.00 scf sf
6435 3600 m
gs 1 -1 sc (Frame Assembly) dup sw pop 2 div neg 0 rm col0 sh gr
/Helvetica-iso ff 180.00 scf sf
6435 3960 m
gs 1 -1 sc (Frame Sending) dup sw pop 2 div neg 0 rm col0 sh gr
/Helvetica-iso ff 180.00 scf sf
5130 3870 m
gs 1 -1 sc 90.0 rot (Realtime Cycle) dup sw pop 2 div neg 0 rm col0 sh gr
/Helvetica-iso ff 180.00 scf sf
5310 1845 m
gs 1 -1 sc (Interrupt-less Operation) col0 sh gr
/Helvetica-iso ff 180.00 scf sf
1035 3870 m
gs 1 -1 sc 90.0 rot (Realtime Cycle) dup sw pop 2 div neg 0 rm col0 sh gr
% here ends figure;
$F2psEnd
rs
end
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