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Sun, Nov 17, 18:51
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Tue, Nov 19, 18:51 (1 d, 23 h)
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%!PS-Adobe-2.0
%%Title: pdos.eps
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%%CreationDate: Mon Aug 2 22:48:59 2010
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%%Orientation: Landscape
%%Pages: (atend)
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{
72
rotate
0
hpt
L
}
repeat
closepath
stroke
grestore
}
def
/CircE
{
stroke
[]
0
setdash
hpt
0
360
arc
stroke
}
def
/Opaque
{
gsave
closepath
1
setgray
fill
grestore
0
setgray
closepath
}
def
/DiaW
{
stroke
[]
0
setdash
vpt
add
M
hpt
neg
vpt
neg
V
hpt
vpt
neg
V
hpt
vpt
V
hpt
neg
vpt
V
Opaque
stroke
}
def
/BoxW
{
stroke
[]
0
setdash
exch
hpt
sub
exch
vpt
add
M
0
vpt2
neg
V
hpt2
0
V
0
vpt2
V
hpt2
neg
0
V
Opaque
stroke
}
def
/TriUW
{
stroke
[]
0
setdash
vpt
1.12
mul
add
M
hpt
neg
vpt
-1.62
mul
V
hpt
2
mul
0
V
hpt
neg
vpt
1.62
mul
V
Opaque
stroke
}
def
/TriDW
{
stroke
[]
0
setdash
vpt
1.12
mul
sub
M
hpt
neg
vpt
1.62
mul
V
hpt
2
mul
0
V
hpt
neg
vpt
-1.62
mul
V
Opaque
stroke
}
def
/PentW
{
stroke
[]
0
setdash
gsave
translate
0
hpt
M
4
{
72
rotate
0
hpt
L
}
repeat
Opaque
stroke
grestore
}
def
/CircW
{
stroke
[]
0
setdash
hpt
0
360
arc
Opaque
stroke
}
def
/BoxFill
{
gsave
Rec
1
setgray
fill
grestore
}
def
/Density
{
/Fillden
exch
def
currentrgbcolor
/ColB
exch
def
/ColG
exch
def
/ColR
exch
def
/ColR
ColR
Fillden
mul
Fillden
sub
1
add
def
/ColG
ColG
Fillden
mul
Fillden
sub
1
add
def
/ColB
ColB
Fillden
mul
Fillden
sub
1
add
def
ColR
ColG
ColB
setrgbcolor
}
def
/BoxColFill
{
gsave
Rec
PolyFill
}
def
/PolyFill
{
gsave
Density
fill
grestore
grestore
}
def
/h
{
rlineto
rlineto
rlineto
gsave
closepath
fill
grestore
}
bind
def
%
% PostScript Level 1 Pattern Fill routine for rectangles
% Usage: x y w h s a XX PatternFill
% x,y = lower left corner of box to be filled
% w,h = width and height of box
% a = angle in degrees between lines and x-axis
% XX = 0/1 for no/yes cross-hatch
%
/PatternFill
{
gsave
/PFa
[
9
2
roll
]
def
PFa
0
get
PFa
2
get
2
div
add
PFa
1
get
PFa
3
get
2
div
add
translate
PFa
2
get
-2
div
PFa
3
get
-2
div
PFa
2
get
PFa
3
get
Rec
gsave
1
setgray
fill
grestore
clip
currentlinewidth
0.5
mul
setlinewidth
/PFs
PFa
2
get
dup
mul
PFa
3
get
dup
mul
add
sqrt
def
0
0
M
PFa
5
get
rotate
PFs
-2
div
dup
translate
0
1
PFs
PFa
4
get
div
1
add
floor
cvi
{
PFa
4
get
mul
0
M
0
PFs
V
}
for
0
PFa
6
get
ne
{
0
1
PFs
PFa
4
get
div
1
add
floor
cvi
{
PFa
4
get
mul
0
2
1
roll
M
PFs
0
V
}
for
}
if
stroke
grestore
}
def
%
/languagelevel
where
{
pop
languagelevel
}
{
1
}
ifelse
2
lt
{
/InterpretLevel1
true
def
}
{
/InterpretLevel1
Level1
def
}
ifelse
%
% PostScript level 2 pattern fill definitions
%
/Level2PatternFill
{
/Tile8x8
{
/PaintType
2
/PatternType
1
/TilingType
1
/BBox
[
0
0
8
8
]
/XStep
8
/YStep
8
}
bind
def
/KeepColor
{
currentrgbcolor
[
/Pattern
/DeviceRGB
]
setcolorspace
}
bind
def
<<
Tile8x8
/PaintProc
{
0.5
setlinewidth
pop
0
0
M
8
8
L
0
8
M
8
0
L
stroke
}
>>
matrix
makepattern
/Pat1
exch
def
<<
Tile8x8
/PaintProc
{
0.5
setlinewidth
pop
0
0
M
8
8
L
0
8
M
8
0
L
stroke
0
4
M
4
8
L
8
4
L
4
0
L
0
4
L
stroke
}
>>
matrix
makepattern
/Pat2
exch
def
<<
Tile8x8
/PaintProc
{
0.5
setlinewidth
pop
0
0
M
0
8
L
8
8
L
8
0
L
0
0
L
fill
}
>>
matrix
makepattern
/Pat3
exch
def
<<
Tile8x8
/PaintProc
{
0.5
setlinewidth
pop
-4
8
M
8
-4
L
0
12
M
12
0
L
stroke
}
>>
matrix
makepattern
/Pat4
exch
def
<<
Tile8x8
/PaintProc
{
0.5
setlinewidth
pop
-4
0
M
8
12
L
0
-4
M
12
8
L
stroke
}
>>
matrix
makepattern
/Pat5
exch
def
<<
Tile8x8
/PaintProc
{
0.5
setlinewidth
pop
-2
8
M
4
-4
L
0
12
M
8
-4
L
4
12
M
10
0
L
stroke
}
>>
matrix
makepattern
/Pat6
exch
def
<<
Tile8x8
/PaintProc
{
0.5
setlinewidth
pop
-2
0
M
4
12
L
0
-4
M
8
12
L
4
-4
M
10
8
L
stroke
}
>>
matrix
makepattern
/Pat7
exch
def
<<
Tile8x8
/PaintProc
{
0.5
setlinewidth
pop
8
-2
M
-4
4
L
12
0
M
-4
8
L
12
4
M
0
10
L
stroke
}
>>
matrix
makepattern
/Pat8
exch
def
<<
Tile8x8
/PaintProc
{
0.5
setlinewidth
pop
0
-2
M
12
4
L
-4
0
M
12
8
L
-4
4
M
8
10
L
stroke
}
>>
matrix
makepattern
/Pat9
exch
def
/Pattern1
{
PatternBgnd
KeepColor
Pat1
setpattern
}
bind
def
/Pattern2
{
PatternBgnd
KeepColor
Pat2
setpattern
}
bind
def
/Pattern3
{
PatternBgnd
KeepColor
Pat3
setpattern
}
bind
def
/Pattern4
{
PatternBgnd
KeepColor
Landscape
{
Pat5
}
{
Pat4
}
ifelse
setpattern
}
bind
def
/Pattern5
{
PatternBgnd
KeepColor
Landscape
{
Pat4
}
{
Pat5
}
ifelse
setpattern
}
bind
def
/Pattern6
{
PatternBgnd
KeepColor
Landscape
{
Pat9
}
{
Pat6
}
ifelse
setpattern
}
bind
def
/Pattern7
{
PatternBgnd
KeepColor
Landscape
{
Pat8
}
{
Pat7
}
ifelse
setpattern
}
bind
def
}
def
%
%
%End of PostScript Level 2 code
%
/PatternBgnd
{
TransparentPatterns
{}
{
gsave
1
setgray
fill
grestore
}
ifelse
}
def
%
% Substitute for Level 2 pattern fill codes with
% grayscale if Level 2 support is not selected.
%
/Level1PatternFill
{
/Pattern1
{
0.250
Density
}
bind
def
/Pattern2
{
0.500
Density
}
bind
def
/Pattern3
{
0.750
Density
}
bind
def
/Pattern4
{
0.125
Density
}
bind
def
/Pattern5
{
0.375
Density
}
bind
def
/Pattern6
{
0.625
Density
}
bind
def
/Pattern7
{
0.875
Density
}
bind
def
}
def
%
% Now test for support of Level 2 code
%
Level1
{
Level1PatternFill
}
{
Level2PatternFill
}
ifelse
%
/Symbol-Oblique
/Symbol
findfont
[
1
0
.167
1
0
0
]
makefont
dup
length
dict
begin
{
1
index
/FID
eq
{
pop
pop
}
{
def
}
ifelse
}
forall
currentdict
end
definefont
pop
/MFshow
{
{
dup
5
get
3
ge
{
5
get
3
eq
{
gsave
}
{
grestore
}
ifelse
}
{
dup
dup
0
get
findfont
exch
1
get
scalefont
setfont
[
currentpoint
]
exch
dup
2
get
0
exch
R
dup
5
get
2
ne
{
dup
dup
6
get
exch
4
get
{
show
}
{
stringwidth
pop
0
R
}
ifelse
}
if
dup
5
get
0
eq
{
dup
3
get
{
2
get
neg
0
exch
R
pop
}
{
pop
aload
pop
M
}
ifelse
}
{
dup
5
get
1
eq
{
dup
2
get
exch
dup
3
get
exch
6
get
stringwidth
pop
-2
div
dup
0
R
}
{
dup
6
get
stringwidth
pop
-2
div
0
R
6
get
show
2
index
{
aload
pop
M
neg
3
-1
roll
neg
R
pop
pop
}
{
pop
pop
pop
pop
aload
pop
M
}
ifelse
}
ifelse
}
ifelse
}
ifelse
}
forall
}
bind
def
/MFwidth
{
0
exch
{
dup
5
get
3
ge
{
5
get
3
eq
{
0
}
{
pop
}
ifelse
}
{
dup
3
get
{
dup
dup
0
get
findfont
exch
1
get
scalefont
setfont
6
get
stringwidth
pop
add
}
{
pop
}
ifelse
}
ifelse
}
forall
}
bind
def
/MLshow
{
currentpoint
stroke
M
0
exch
R
Blacktext
{
gsave
0
setgray
MFshow
grestore
}
{
MFshow
}
ifelse
}
bind
def
/MRshow
{
currentpoint
stroke
M
exch
dup
MFwidth
neg
3
-1
roll
R
Blacktext
{
gsave
0
setgray
MFshow
grestore
}
{
MFshow
}
ifelse
}
bind
def
/MCshow
{
currentpoint
stroke
M
exch
dup
MFwidth
-2
div
3
-1
roll
R
Blacktext
{
gsave
0
setgray
MFshow
grestore
}
{
MFshow
}
ifelse
}
bind
def
/XYsave
{
[
( )
1
2
true
false
3
()
]
}
bind
def
/XYrestore
{
[
( )
1
2
true
false
4
()
]
}
bind
def
end
%%EndProlog
%%Page: 1 1
gnudict
begin
gsave
50
50
translate
0.100
0.100
scale
90
rotate
0
-5040
translate
0
setgray
newpath
(Helvetica)
findfont
200
scalefont
setfont
1.000
UL
LTb
640
640
M
0
63
V
0
4097
R
0
-63
V
stroke
640
440
M
[
[
(Helvetica)
200.0
0.0
true
true
0
( 0)
]
]
-66.7
MCshow
1.000
UL
LTb
1433
640
M
0
63
V
0
4097
R
0
-63
V
stroke
1433
440
M
[
[
(Helvetica)
200.0
0.0
true
true
0
( 1)
]
]
-66.7
MCshow
1.000
UL
LTb
2225
640
M
0
63
V
0
4097
R
0
-63
V
stroke
2225
440
M
[
[
(Helvetica)
200.0
0.0
true
true
0
( 2)
]
]
-66.7
MCshow
1.000
UL
LTb
3018
640
M
0
63
V
0
4097
R
0
-63
V
stroke
3018
440
M
[
[
(Helvetica)
200.0
0.0
true
true
0
( 3)
]
]
-66.7
MCshow
1.000
UL
LTb
3810
640
M
0
63
V
0
4097
R
0
-63
V
stroke
3810
440
M
[
[
(Helvetica)
200.0
0.0
true
true
0
( 4)
]
]
-66.7
MCshow
1.000
UL
LTb
4603
640
M
0
63
V
0
4097
R
0
-63
V
stroke
4603
440
M
[
[
(Helvetica)
200.0
0.0
true
true
0
( 5)
]
]
-66.7
MCshow
1.000
UL
LTb
5395
640
M
0
63
V
0
4097
R
0
-63
V
stroke
5395
440
M
[
[
(Helvetica)
200.0
0.0
true
true
0
( 6)
]
]
-66.7
MCshow
1.000
UL
LTb
6188
640
M
0
63
V
0
4097
R
0
-63
V
stroke
6188
440
M
[
[
(Helvetica)
200.0
0.0
true
true
0
( 7)
]
]
-66.7
MCshow
1.000
UL
LTb
6980
640
M
0
63
V
0
4097
R
0
-63
V
stroke
6980
440
M
[
[
(Helvetica)
200.0
0.0
true
true
0
( 8)
]
]
-66.7
MCshow
1.000
UL
LTb
1.000
UL
LTb
640
4800
N
640
640
L
6340
0
V
0
4160
V
-6340
0
V
Z
stroke
LCb
setrgbcolor
440
2720
M
currentpoint
gsave
translate
90
rotate
0
0
moveto
[
[
(Helvetica)
200.0
0.0
true
true
0
(g
\(
)
]
[
(Symbol)
200.0
0.0
true
true
0
(n)
]
[
(Helvetica)
200.0
0.0
true
true
0
(
\)
)
]
]
-66.7
MCshow
grestore
LTb
LCb
setrgbcolor
3810
140
M
[
[
(Symbol)
200.0
0.0
true
true
0
(n)
]
[
(Helvetica)
200.0
0.0
true
true
0
(
\(
THz
\)
)
]
]
-66.7
MCshow
LTb
1.000
UP
1.000
UL
LTb
1.000
UL
LTb
1240
4637
M
[
[
(Helvetica)
200.0
0.0
true
true
0
(LD)
]
]
-66.7
MRshow
1360
4637
M
543
0
V
672
640
M
64
1
V
64
1
V
64
5
V
64
2
V
64
6
V
64
9
V
64
5
V
64
4
V
64
14
V
64
0
V
64
23
V
65
11
V
64
4
V
64
21
V
64
18
V
64
0
V
64
38
V
64
21
V
64
-4
V
64
48
V
64
14
V
64
-1
V
64
73
V
64
-17
V
64
54
V
64
39
V
64
10
V
64
57
V
64
34
V
64
53
V
64
32
V
64
42
V
64
58
V
64
72
V
64
65
V
64
42
V
65
124
V
64
103
V
64
104
V
64
257
V
64
163
V
64
-58
V
64
110
V
64
-20
V
64
84
V
64
-37
V
64
51
V
64
19
V
64
-7
V
64
62
V
64
-21
V
64
132
V
64
-44
V
64
0
V
64
53
V
64
-4
V
64
46
V
64
13
V
64
20
V
64
70
V
64
-55
V
65
140
V
64
-97
V
64
-591
V
64
-225
V
64
2
V
64
52
V
64
-101
V
64
82
V
64
-37
V
64
-11
V
64
12
V
64
2
V
64
-25
V
64
-18
V
64
71
V
64
-114
V
64
-37
V
64
3
V
64
-32
V
64
-131
V
64
-54
V
64
286
V
64
402
V
64
235
V
64
306
V
65
133
V
64
318
V
64
220
V
64
-382
V
64
-580
V
64
-321
V
64
-269
V
64
-270
V
64
-310
V
64
-409
V
64
-260
V
64
-9
V
32
0
V
stroke
2.000
UL
LT1
LTb
1240
4437
M
[
[
(Helvetica)
200.0
0.0
true
true
0
(MD)
]
]
-66.7
MRshow
LT1
1360
4437
M
543
0
V
670
641
M
59
-1
V
60
4
V
59
-2
V
59
0
V
60
12
V
59
0
V
60
3
V
59
4
V
60
8
V
59
11
V
60
19
V
59
20
V
59
7
V
60
28
V
59
3
V
60
37
V
59
-5
V
60
54
V
59
-9
V
59
26
V
60
32
V
59
17
V
60
30
V
59
32
V
60
12
V
59
82
V
60
3
V
59
38
V
59
75
V
60
13
V
59
57
V
60
65
V
59
27
V
60
122
V
59
-10
V
59
111
V
60
106
V
59
81
V
60
218
V
59
182
V
60
54
V
59
196
V
60
8
V
59
-60
V
59
54
V
60
72
V
59
-14
V
60
75
V
59
-43
V
60
76
V
59
23
V
59
-6
V
60
67
V
59
-38
V
60
42
V
59
70
V
60
-50
V
59
70
V
60
-15
V
59
27
V
59
25
V
60
-36
V
59
-14
V
60
-456
V
59
-257
V
60
-33
V
59
-25
V
59
-24
V
60
38
V
59
-73
V
60
67
V
59
-75
V
60
35
V
59
-15
V
60
-12
V
59
1
V
59
-32
V
60
-14
V
59
-45
V
60
-68
V
59
-79
V
60
-66
V
59
-30
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59
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