Failed to save the file to the "xx" directory.

Failed to save the file to the "ll" directory.

Failed to save the file to the "mm" directory.

Failed to save the file to the "wp" directory.

403WebShell
403Webshell
Server IP : 66.29.132.124  /  Your IP : 3.21.44.115
Web Server : LiteSpeed
System : Linux business141.web-hosting.com 4.18.0-553.lve.el8.x86_64 #1 SMP Mon May 27 15:27:34 UTC 2024 x86_64
User : wavevlvu ( 1524)
PHP Version : 7.4.33
Disable Function : NONE
MySQL : OFF  |  cURL : ON  |  WGET : ON  |  Perl : ON  |  Python : ON  |  Sudo : OFF  |  Pkexec : OFF
Directory :  /usr/share/ghostscript/lib/

Upload File :
current_dir [ Writeable ] document_root [ Writeable ]

 

Command :


[ Back ]     

Current File : /usr/share/ghostscript/lib/stcinfo.ps
% Copyright (C) 2001-2019 Artifex Software, Inc.
% All Rights Reserved.
%
% This software is provided AS-IS with no warranty, either express or
% implied.
%
% This software is distributed under license and may not be copied,
% modified or distributed except as expressly authorized under the terms
% of the license contained in the file LICENSE in this distribution.
%
% Refer to licensing information at http://www.artifex.com or contact
% Artifex Software, Inc.,  1305 Grant Avenue - Suite 200, Novato,
% CA 94945, U.S.A., +1(415)492-9861, for further information.
%

% stcinfo.ps
% Epson Stylus-Color Printer-Driver

% The purpose of this file is to print & show Parameters of the
% stcolor-driver. If not run on ghostscript/stcolor, it prints
% something like a color-chart.

% use either existing STCinfo-dictionary, retrieve new one or create dummy

statusdict begin product end
dup (Ghostscript) eq 1 index (Artifex Ghostscript) eq or
exch (AFPL Ghostscript) eq or{

  currentdevice getdeviceprops .dicttomark
  dup /Name get (stcolor) eq /STCi_onstc exch def
  /STCinfo where {/STCinfo get exch pop} if
  /STCinfo exch def

}{

  /STCinfo 10 dict def
  STCinfo begin /Name (unknown) def end
  /STCi_onstc false def

}ifelse

% Next Block are procedures to generate the color-triangles.
% you may wish to separate them, just look ahead for the name
% given in the next line to achieve that.
% Begin: colortri_procedures

% Plot the CIE-XY-triangle (or something like that)

% /colortri_mat   Conversion matrix RGB -> XYZ
% /colortri_bg    procedure, that takes X/Y-Values and delivers the
%                 "background color" as RGB-Values, default is:
%                 {pop pop 0.85 dup dup}

% The default matrix was taken from:
%             Color spaces FAQ - David Bourgin
%             Date: 15/6/94 (items 5.3 and 6 updated)
%             Last update: 29/6/94

   /colortri_mat [ % RGB -> CIE XYZitu601-1 (D65)
         0.4306 0.3415 0.1784
         0.2220 0.7067 0.0713
         0.0202 0.1295 0.9394
   ] def

   /colortri_bg {pop pop 0.85 dup dup} bind def

% +---------------------------------------------------------------------+
% | Besides from fixing bugs, nothing should be changed below this line |
% +---------------------------------------------------------------------+

%  Arbitrary operation on a pair of vectors, *CHANGES* 1st.
%  invoke: Vaccu Vop op vop
   /vop {
      bind 0 1 3 index length 1 sub {
       3 index 1 index get 3 index 2 index get 3 index exec 4 index 3 1 roll put
      } for pop pop
   } bind def

   /vsub { {sub} vop } bind def % subtract two vectors
   /vmul { {mul} vop } bind def % multiply two vectors

%  Compute sum of vectors elements
   /vsum {0.0 exch{add}forall} bind def

%  Sum up products of elements
   /veqn { [ 3 -1 roll {} forall ] exch vmul vsum } bind def

%  Find index of |maximum| in array
   /imax {
      dup 0 get abs 0 exch % array i v[i]
      1 1 4 index length 1 sub {
         3 index 1 index get abs dup 3 index gt {4 2 roll}if pop pop
      } for
      3 -1 roll pop
   } bind def

%  Procedure to *CHANGE*  RGB-Values into XYZ-Values
   /rgb2xyz {
      0 3 6 { colortri_mat exch 3 getinterval 1 index veqn exch } for astore
   } bind def

% Procedure to *CHANGE* transform rgb->xy
   /rgb2xy {
      rgb2xyz
      dup 0 get 1 index 1 get 2 index vsum % XYZ X Y sum
      dup 0 ne {
        exch 1 index div 3 1 roll div      % XYZ y x
        2 index exch 0 exch put            % xYZ y
        1 index exch 1 exch put            % xyZ
      }{
        pop pop pop dup 0 0 put dup 0 1 put
      } ifelse
      0 2 getinterval
   } bind def

% So here we go with our procedure

/colortri { %Usage: box #pixels
   save
   1 index type /arraytype eq {exch 8}{3 1 roll} ifelse % Default scale
   /colortri_scale exch def
   /colortri_box   exch def

%  Prepare some useful constants for xy -> RGB conversion

   /colsum [                              % Array with column-sums
     0 1 2{0 exch 3 1 index 6 add{colortri_mat exch get add}for}for
   ] def

   /Xrow colortri_mat 0 3 getinterval def % two rows from colortri_mat
   /Yrow colortri_mat 3 3 getinterval def

%  Avoid allocating new arrays
   /xcoeff 3 array def
   /ycoeff 3 array def

% Procedure to derive RGB-Values form X,Y
   /xy2rgb{ aload pop
      dup     dup dup ycoeff astore colsum vmul Yrow vsub imax
      3 index dup dup xcoeff astore colsum vmul Xrow vsub imax
      3 -1 roll 1 index 1 index gt{
         xcoeff ycoeff /xcoeff exch def /ycoeff exch def pop 3 -1 roll pop
      }{
        3 1 roll pop pop
      } ifelse
      1e-6 lt { % No Pivot ?
         pop colortri_bg xcoeff astore pop
      }{        % Have a Pivot
         dup ycoeff exch get neg
         0 1 2 { dup ycoeff exch get 2 index div ycoeff 3 1 roll put} for
         pop ycoeff 1 index 0 put

         xcoeff 1 index get
         0 1 2 {
            ycoeff 1 index get 2 index mul xcoeff 2 index get add
            xcoeff 3 1 roll put
         } for
         pop xcoeff 1 index 0 put
         xcoeff imax 1e-6 lt { % no Pivot ?
           pop pop colortri_bg xcoeff astore pop
         }{
           dup 2 index or 3 exch sub
           xcoeff 1 index get xcoeff 3 index get div neg
           xcoeff exch 3 index exch put
           xcoeff 1 index 1 put
           ycoeff exch get ycoeff 2 index get xcoeff 4 -1 roll get mul add
           xcoeff 3 1 roll put
           0 1 2 {
               xcoeff exch get dup -0.0015 lt exch 1.0015 gt or {
                 colortri_bg xcoeff astore dup exit
               } if
           } for
           pop pop xcoeff
         } ifelse
      } ifelse
   } bind def

% Compute the displayed range
   [ 1 1 1 ] rgb2xy
   dup 0 get /colortri_x0 exch def /colortri_dx colortri_x0 def
   1 get     /colortri_y0 exch def /colortri_dy colortri_y0 def
   [[0 0 1][0 1 0][0 1 1][1 0 0][1 0 1][1 1 0]] {
      rgb2xy
      dup 0 get
      dup colortri_x0 lt {/colortri_x0 1 index def}if
      dup colortri_dx gt {/colortri_dx 1 index def}if
      pop 1 get
      dup colortri_y0 lt {/colortri_y0 1 index def}if
      dup colortri_dy gt {/colortri_dy 1 index def}if
      pop
   } forall
   colortri_dx colortri_x0 sub /colortri_dx exch def
   colortri_dy colortri_y0 sub /colortri_dy exch def
%

% determine the scale
   colortri_box 2 get colortri_box 0 get sub colortri_dx div % fx
   colortri_box 3 get colortri_box 1 get sub colortri_dy div % fx fy
   gt { % fy limits
      colortri_box 3 get colortri_box 1 get sub
      dup colortri_dx mul colortri_dy div exch
   }{   % fx limits
      colortri_box 2 get colortri_box 0 get sub
      dup colortri_dy mul colortri_dx div
   } ifelse
   dtransform abs colortri_scale div cvi /colortri_ny exch def
              abs colortri_scale div cvi /colortri_nx exch def
   colortri_nx colortri_scale mul colortri_ny colortri_scale mul
   idtransform abs exch abs exch
   colortri_box 0 get colortri_box 2 get 1 index sub 3 index sub 2 div add
   colortri_box 1 get colortri_box 3 get 1 index sub 3 index sub 2 div add
   transform .5 add cvi exch .5 add cvi exch itransform
   translate scale

%  String & indices
   /colortri_tmp colortri_nx 3 mul string def
   /colortri_dx colortri_dx colortri_nx 1 sub div def
   /colortri_dy colortri_dy colortri_ny 1 sub div def
   /colortri_xy [ colortri_x0 colortri_y0 ] def
   /colortri_ie colortri_tmp length 3 sub def

   colortri_nx colortri_ny 8 [ colortri_nx 0 0 colortri_ny 0 0 ]
   {
     colortri_xy 0 colortri_x0 put
     0 3 colortri_ie {
         colortri_tmp exch   % buf ir
         colortri_xy xy2rgb  % buf ir rgb buf ib
         2 index 2 index 2 add 2 index 2 get 255 mul cvi put
         2 index 2 index 1 add 2 index 1 get 255 mul cvi put
         0     get 255 mul cvi put
         colortri_xy dup 0 exch 0 get colortri_dx add put
     }for
     colortri_xy dup 1 exch 1 get colortri_dy add put
     colortri_tmp
   } bind
   false 3 colorimage
   restore
} bind def

% [ newpath clippath pathbbox ]  colortri showpage % standalone usage

% End:   colortri_procedures

% The next section is a group of procedures, that I for myself
% do no more fully understand, but they do the Job.

% Begin: stcinfo_procedures_1

% fetch a parameter from the dictionary
/STCiget { STCinfo exch get } bind def

% action upon ProcessColorModel
/STCimode {
   /ProcessColorModel STCiget dup
   /DeviceCMYK eq{pop 2}{/DeviceRGB eq{1}{0}ifelse}ifelse get exec
} bind def

% print given number of blanks
/STCipspace {
   dup 0 gt{ 1 exch 1 exch { pop ( ) print}for }{ pop } ifelse
} bind def

% print right or left-justified text
/STCiprint {
   dup 0 gt { dup 2 index length sub STCipspace } if
   1 index print
   dup 0 lt { neg dup 2 index length sub STCipspace } if
   pop pop
} bind def

% floating-point to fixed-length-string conversion

/STCicvs { % number -> string

% Prepare the result
   8 string dup 0 (        ) putinterval
   exch

% Make it unsigned
   dup 0 lt {neg(-)}{( )}ifelse 0 get exch

   dup 1000 lt 1 index 0 eq 2 index 0.001 ge or and { % floating point
     (e+) 0
   }{                                                 % engineering
      0 {
        1 index 1000.0 ge
          {3 add exch 1000 div exch}
          {1 index 1 lt {3 sub exch 1000 mul exch}{exit}ifelse}
        ifelse
      }loop
      dup 0 lt {neg(e-)}{(e+)}ifelse exch
  }ifelse

% string sign num esig e

% always up to three Integer Digits plus sign
   2 index cvi 3 { % string sign num esig e int ind
      1 index 10 div cvi dup 10 mul 3 index exch sub cvi
      (0123456789) exch get 8 index exch 3 index exch put
      3 -2 roll 1 sub exch pop dup 0 eq 2 index 0 eq or {exit} if
   } loop exch pop % string sign num esig e ind
   5 index exch 6 -1 roll put % string num esig e

% print either fraction or exponent
   dup 0 eq { pop pop dup cvi sub % String fraction

      dup 0.0 ne { % Fraction present
         0.0005 add 1 index 4 (.) putinterval
         5 1 7 { % string frac ind
           exch 10 mul dup cvi exch 1 index sub % string ind ic nfrac
           exch (0123456789) exch get 3 -1 roll % string nfrac chr ind
           exch 3 index 3 1 roll put
         } for
      } if
      pop

   }{ 3 -1 roll pop % string esig e

      exch 2 index exch 4 exch putinterval
      7 -1 6 { % string n i
         1 index 10 div cvi dup 10 mul 3 index exch sub cvi % string n i n/10
         (0123456789) exch get 4 index exch 3 index exch put
         exch pop exch pop
      } for
      pop
   } ifelse

} bind def

% compute colorvalue-steps from transfer & coding
/STCisteps { % xfer, coding => X-values, Y-Values
% 2^nbits
   2 /BitsPerComponent STCiget dup 11 gt { pop 11 } if exp cvi

% X & Y - Arrays (stack: xv:4  yv:3 xfer:2  coding:1 2^ni:0)
   dup 1 add array 1 index array 5 2 roll

% compute GS-Color-Value according to the coding-array

   1 index null eq { % no coding present

      0 1 2 index 1 sub {
         dup 6 index exch dup 4 index div put
         4 index exch dup 3 index 1 sub div put
      } for

   }{                % coding-array given

      1.0 1 index 1 sub div % y step
      0                     % current index
      0 1 4 index 1 sub { % over indices
         dup 3 index mul
         {
            dup 3 index 1 add dup 8 index length ge {pop pop exit} if % i y
            7 index exch get le {exit} if
            2 index 1 add 3 1 roll 4 -1 roll pop
         } loop
         5 index 3 index get sub
         5 index 3 index 1 add get 6 index 4 index get sub div
         2 index add 5 index length 1 sub div
         2 copy exch dup 0 eq {
            10 index exch 0.0 put pop
         }{
            dup 10 index exch 1 sub get 3 -1 roll add 2 div
            10 index 3 1 roll put
         }ifelse
         7 index 3 1 roll put
     } for               % over indices
     pop pop
   } ifelse
   4 index 1 index 1.0 put

% Replace the raw y-values by those computed from the transfer-array

   0 1 2 index 1 sub { % over indices, 2nd
      dup 5 index exch get
      dup 5 index length 1 sub mul cvi % -> iy
      5 index 1 index get
      1 index 1 add 7 index length lt {
        dup 7 index 3 index 1 add get exch sub
        3 index 3 index 9 index length 1 sub div sub mul
        7 index length 1 sub mul add
      } if
      exch pop exch pop 5 index 3 1 roll put
   } for               % over indices, 2nd

   pop pop pop
} bind def

/STCibar { % Window X-Values proc => Window
   0 1 3 index length 2 sub {
     dup 3 index exch get exch
     1 add 3 index exch get
     dup 2 index add 2 div 3 index exec % Color to average
     4 index 2 get 5 index 0 get sub exch 1 index mul 5 index 0 get add 3 1 roll
     mul 4 index 0 get add 4 index 3 get 5 index 1 get
     newpath
     2 index 1 index moveto
     3 index 1 index lineto
     3 index 2 index lineto
     2 index 2 index lineto
     closepath fill
     pop pop pop pop
   } for
   pop pop
   0 setgray
   newpath
   dup 0 get 1 index 1 get moveto
   dup 2 get 1 index 1 get lineto
   dup 2 get 1 index 3 get lineto
   dup 0 get 1 index 3 get lineto
   closepath stroke
   pop
} bind def

% End:   stcinfo_procedures_1

% Begin: stcinfo_preparation

% Compute used area from clippath

/STCi_clip [
  newpath clippath pathbbox
  2 sub 4 1 roll 2 sub 4 1 roll 2 add 4 1 roll 2 add 4 1 roll
] def

%
% Perpare the texual messages, assume no stcolor if this fails
%
{
   /STCi_stopped % A Special Mark

% Textual Parameters (an array of pairs of strings)
   /STCi_l1 0 def
   /STCi_l2 0 def
   /STCi_text [
% Driver-Name & Version
      (Parameters of)
         /Name STCiget length /Version STCiget length add 1 add string
         dup 0 /Name STCiget putinterval dup /Name STCiget length (-)putinterval
         dup /Name STCiget length 1 add /Version STCiget putinterval
% Dithering-Algorithm
      (Dithering)
         /Dithering STCiget
         [{( \(Monochrome\))}{( \(RGB\))}{( \(CMYK\))}] STCimode
         dup length 2 index length add string exch 1 index exch
         3 index length exch putinterval dup 3 1 roll exch 0 exch putinterval
% Flags for the algorithm
      (Flag4-0) 5 string
         dup 0 /Flag4 STCiget {(T)}{(f)} ifelse putinterval
         dup 1 /Flag3 STCiget {(T)}{(f)} ifelse putinterval
         dup 2 /Flag2 STCiget {(T)}{(f)} ifelse putinterval
         dup 3 /Flag1 STCiget {(T)}{(f)} ifelse putinterval
         dup 4 /Flag0 STCiget {(T)}{(f)} ifelse putinterval

% Bits Per Pixel & Bits Per Component
      (BitsPerPixel) 10 string % (nn -> nxnn)
         /BitsPerPixel STCiget 1 index cvs length % string used
         dup 2 index exch ( -> ) putinterval 4 add dup 2 add exch 2 index exch
         [{(1x)}{(3x)}{(4x)}] STCimode putinterval % String used
         /BitsPerComponent STCiget 2 index 2 index 2 getinterval cvs length add
         0 exch getinterval

      () ()
% ColorAdjustMatrix
      (ColorAdjustMatrix)
         /ColorAdjustMatrix STCiget dup null eq {
            pop (default)
         }{
            { STCicvs } forall
            [{ % Monochrome
               26 string
               dup  0 6 -1 roll putinterval dup  8 ( ) putinterval
               dup  9 5 -1 roll putinterval dup 17 ( ) putinterval
               dup 18 4 -1 roll putinterval
             }{ % RGB
               26 string
               dup  0 12 -1 roll putinterval dup  8 ( ) putinterval
               dup  9 11 -1 roll putinterval dup 17 ( ) putinterval
               dup 18 10 -1 roll putinterval

               () 26 string
               dup  0 11 -1 roll putinterval dup  8 ( ) putinterval
               dup  9 10 -1 roll putinterval dup 17 ( ) putinterval
               dup 18  9 -1 roll putinterval

               () 26 string
               dup  0 10 -1 roll putinterval dup  8 ( ) putinterval
               dup  9  9 -1 roll putinterval dup 17 ( ) putinterval
               dup 18  8 -1 roll putinterval
             }{
               35 string
               dup  0 19 -1 roll  putinterval dup  8 ( ) putinterval
               dup  9 18 -1 roll putinterval dup 17 ( ) putinterval
               dup 18 17 -1 roll putinterval dup 26 ( ) putinterval
               dup 27 16 -1 roll putinterval

               () 35 string
               dup  0 17 -1 roll putinterval dup  8 ( ) putinterval
               dup  9 16 -1 roll putinterval dup 17 ( ) putinterval
               dup 18 15 -1 roll putinterval dup 26 ( ) putinterval
               dup 27 14 -1 roll putinterval

               () 35 string
               dup  0 15 -1 roll putinterval dup  8 ( ) putinterval
               dup  9 14 -1 roll putinterval dup 17 ( ) putinterval
               dup 18 13 -1 roll putinterval dup 26 ( ) putinterval
               dup 27 12 -1 roll putinterval

               () 35 string
               dup  0 13 -1 roll putinterval dup  8 ( ) putinterval
               dup  9 12 -1 roll putinterval dup 17 ( ) putinterval
               dup 18 11 -1 roll putinterval dup 26 ( ) putinterval
               dup 27 10 -1 roll putinterval

             }
            ] STCimode
         } ifelse
      () ()

% Printer Model
      (Printer-Model)  /Model STCiget

% Resolution
      (Resolution) 15 string % (nnnnnxnnnnn DpI)
         /HWResolution STCiget 0 get cvi 1 index cvs length
         dup 2 index exch (x) putinterval 1 add dup 2 index exch 5 getinterval
         /HWResolution STCiget 1 get cvi exch cvs length add dup 2 index
         exch ( DpI) putinterval 4 add 0 exch getinterval

% HWsize holds entire Page in Pixels,
% .HWMargins is [left,bottom,right,top] in Points
      (Printed Area)   18 string % (nnnnnxnnnnn Pixel)
         /HWSize STCiget 0 get /.HWMargins STCiget dup 0 get exch 2 get add
         /HWResolution STCiget 0 get mul 72.0 div sub cvi 1 index cvs length
         dup 2 index exch (x) putinterval 1 add dup 2 index exch 5 getinterval
         /HWSize STCiget 1 get /.HWMargins STCiget dup 1 get exch 3 get add
         /HWResolution STCiget 1 get mul 72.0 div sub cvi exch cvs length add
         dup 2 index exch ( Pixel) putinterval 6 add 0 exch getinterval

      () ()
% WeaveMode
      (Weave-Mode)
         /noWeave STCiget {
           (noWeave)
         }{
           /Microweave STCiget {(Microweave)}{(Softweave)}ifelse
         }ifelse
% Unidirectional
      (Unidirectional) /Unidirectional STCiget {(ON)}{(off)} ifelse
% Output coding
      (OutputCode)     /OutputCode STCiget
% number of heads
      (escp_Band)   /escp_Band   STCiget 3 string cvs
      (escp_Width)  /escp_Width  STCiget 5 string cvs
      (escp_Height) /escp_Height STCiget 5 string cvs
      (escp_Top)    /escp_Top    STCiget 5 string cvs
      (escp_Bottom) /escp_Bottom STCiget 5 string cvs
   ] def

%
% compute the Proper X & Y-Arrays
%
   [{  % Monochrome
     /Ktransfer STCiget /Kcoding STCiget STCisteps
     /STCi_yv   [ 3 -1 roll ] def
     /STCi_xv   [ 3 -1 roll ] def
     /STCi_col  [[0 0 0]] def
     /STCi_set  [{1.0 exch sub setgray}] def
    }{ % RGB
     /Rtransfer STCiget /Rcoding STCiget STCisteps
     /Gtransfer STCiget /Gcoding STCiget STCisteps
     /Btransfer STCiget /Bcoding STCiget STCisteps
     exch 4 -1 roll 6 -1 roll exch 3 -1 roll
     /STCi_xv [ 5 2 roll ] def
     /STCi_yv [ 5 2 roll ] def
     /STCi_col  [[1 0 0] [0 1 0] [0 0 1]] def
     /STCi_set [
      {1.0 exch sub 1 exch dup setrgbcolor}
      {1.0 exch sub dup 1 exch setrgbcolor}
      {1.0 exch sub dup 1      setrgbcolor}
      ] def
    }{ % CMYK
     /Ctransfer STCiget /Ccoding STCiget STCisteps
     /Mtransfer STCiget /Mcoding STCiget STCisteps exch 3 1 roll
     /Ytransfer STCiget /Ycoding STCiget STCisteps exch 4 1 roll
     /Ktransfer STCiget /Kcoding STCiget STCisteps exch 5 1 roll
     /STCi_yv  [ 6 2 roll ] def
     /STCi_xv  [ 6 2 roll ] def
     /STCi_col [[0 1 1] [1 0 1] [1.0 0.5 0.0] [0 0 0]] def
     /STCi_set [
       { 0 0 0 setcmykcolor }
       { 0 exch 0 0 setcmykcolor }
       { 0 exch 0 exch 0 setcmykcolor }
       { 0 exch 0 exch 0 exch setcmykcolor }
     ] def
    }
   ]STCimode

} stopped

{ {/STCi_stopped eq {exit}if}loop true}
{ {/STCi_stopped eq {exit}if}loop false} ifelse

% End:   stcinfo_preparation

% The Next section does the real job

% Begin: stcinfo_execution
{
   (%%[ stcinfo.ps: currentdevice is not supported -> colortri ]%%\n) print
   STCi_clip  colortri % The default action

}{
%
% Print the text
%
   0 2 STCi_text length 2 sub { dup 1 add exch
     STCi_text exch get length dup STCi_l1 gt{/STCi_l1 exch def}{pop}ifelse
     STCi_text exch get length dup STCi_l2 gt{/STCi_l2 exch def}{pop}ifelse
   } for
   /STCi_l2 STCi_l2 neg def
   0 2 STCi_text length 2 sub {
     dup 1 add STCi_text exch get exch STCi_text exch get
     1 index length 0 gt {
       dup STCi_l1 STCiprint length 0 gt {(: )}{(  )}ifelse print print
     }{
       pop pop
     } ifelse
     (\n) print
   } for
%
% Deactivate a present ColorAdjust Matrix, if any
%
   /ColorAdjustMatrix STCiget null ne STCi_onstc and {
       mark
       /ColorAdjustMatrix null
       currentdevice putdeviceprops pop
   } if
%
% "Show" the text
%
   /Times-Roman findfont 10 scalefont setfont
   /STCi_l1 0 def
   0 2 STCi_text length 2 sub {
       STCi_text exch get stringwidth pop dup STCi_l1 gt {
          /STCi_l1 exch def
       }{
          pop
       } ifelse
   } for
   STCi_l1 STCi_clip 0 get add /STCi_l1 exch def

   STCi_clip 3 get 12 sub
   0 2 STCi_text length 2 sub {
       STCi_text exch get dup length 0 gt {
         dup stringwidth pop STCi_l1 exch sub 2 index moveto show
       }{
          pop
       } ifelse
       12 sub
   } for
   pop

   /Courier findfont 10 scalefont setfont
   /STCi_l2 0 def
   1 2 STCi_text length 1 sub {
       STCi_text exch get stringwidth pop dup STCi_l2 gt {
          /STCi_l2 exch def
       }{
          pop
       } ifelse
   } for

   STCi_clip 3 get 12 sub
   1 2 STCi_text length 1 sub {
       STCi_text exch get dup length 0 gt {
          STCi_l1 12 add 2 index moveto show
       }{
         pop
       } ifelse
       12 sub
   } for
   pop

%
%  compute the space for the graph-window
%
   STCi_l1 12 add STCi_l2 add 12 add dup STCi_clip 2 get exch sub % Extend
   [ 3 -1 roll dup 3 index add STCi_clip 3 get dup 5 index sub 3 1 roll ]
   /STCi_win exch def /STCi_l1 exch def

% The "Axis"
   newpath
   STCi_win 0 get STCi_win 1 get 14 add moveto
   STCi_win 2 get STCi_win 1 get 14 add lineto stroke

   STCi_win 0 get 14 add STCi_win 1 get moveto
   STCi_win 0 get 14 add STCi_win 3 get lineto stroke

% The Labels
   /Times-Roman findfont 10 scalefont setfont
   (Postscript-color) dup stringwidth pop
   STCi_win 2 get STCi_win 0 get sub 14 sub 1 index sub 2 div exch pop
   STCi_win 0 get add 14 add STCi_win 1 get 4 add moveto show

   gsave
     STCi_win 0 get 10 add STCi_win 1 get 14 add translate 90 rotate
     (Device-color) dup stringwidth pop
     STCi_win 3 get STCi_win 1 get sub 14 sub 1 index sub 2 div exch pop
     0 moveto show
   grestore

% The Graphs
  gsave
     STCi_win 0 get 14 add STCi_win 1 get 14 add
     STCi_win 2 get 2 index sub STCi_win 3 get 2 index sub
     4 2 roll translate
     STCi_col 0 1 2 index length 1 sub {
       1 index 1 index get aload pop setrgbcolor
       STCi_xv 1 index get STCi_yv 3 -1 roll get
       newpath
       1 index 0 get 5 index mul 1 index 0 get 5 index mul moveto
       1 index 1 get 5 index mul 1 index 0 get 5 index mul lineto
       1 1 2 index length 1 sub {
         2 index 1 index       get 6 index mul
         2 index 2 index       get 6 index mul lineto
         2 index 1 index 1 add get 6 index mul
         2 index 2 index       get 6 index mul lineto
         pop
       } for
       stroke pop pop
     } for
     pop pop pop
  grestore

%
% Find lowest Y from Text or graph
%
   STCi_win 1 get  STCi_clip 3 get STCi_text length 2 div 12 mul sub
   dup 2 index gt { pop } { exch pop } ifelse 12 sub

%
%  compute the upper bar-window
%
   /STCi_win [
      STCi_clip 0 get 4 -1 roll 36 sub STCi_clip 2 get 1 index 36 add
   ] def

%
% Draw the required number of graphs
%
   [{  % Monochrome
      STCi_win STCi_xv 0 get {setgray} STCibar
    }{ % RGB
      STCi_win STCi_xv 0 get {0 0 setrgbcolor} STCibar
      STCi_win dup 1 exch 1 get 47 sub put
      STCi_win dup 3 exch 3 get 47 sub put
      STCi_win STCi_xv 1 get {0 0 3 1 roll setrgbcolor} STCibar
      STCi_win dup 1 exch 1 get 47 sub put
      STCi_win dup 3 exch 3 get 47 sub put
      STCi_win STCi_xv 2 get {0 0 3 2 roll setrgbcolor} STCibar
    }{ % CMYK
      STCi_win STCi_xv 0 get {0 0 0          setcmykcolor} STCibar
      STCi_win dup 1 exch 1 get 47 sub put
      STCi_win dup 3 exch 3 get 47 sub put
      STCi_win STCi_xv 1 get {0 0 0 4 1 roll setcmykcolor} STCibar
      STCi_win dup 1 exch 1 get 47 sub put
      STCi_win dup 3 exch 3 get 47 sub put
      STCi_win STCi_xv 2 get {0 0 0 4 2 roll setcmykcolor} STCibar
      STCi_win dup 1 exch 1 get 47 sub put
      STCi_win dup 3 exch 3 get 47 sub put
      STCi_win STCi_xv 3 get {0 0 0 4 3 roll setcmykcolor} STCibar
    }
   ] STCimode

   STCi_win 1 STCi_clip 1 get put
   STCi_win dup 3 exch 3 get 47 sub put

%
% Plot either one or two Color-Triangles
%
   /ColorAdjustMatrix STCiget null ne STCi_onstc and {
     STCi_win 0 get STCi_win 2 get add 2 div
     [STCi_win 0 get STCi_win 1 get 3 index STCi_win 3 get ] colortri
     mark /ColorAdjustMatrix dup STCiget currentdevice putdeviceprops pop
     [1 index STCi_win 1 get STCi_win 2 get STCi_win 3 get ] colortri
     pop
   }{
     STCi_win colortri
   } ifelse
   newpath clippath stroke
} ifelse
showpage

Youez - 2016 - github.com/yon3zu
LinuXploit