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% Copyright (C) 2001-2023 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., 39 Mesa Street, Suite 108A, San Francisco,
% CA 94129, USA, for further information.
%
% viewpbm.ps
% Display a PBM/PGM/PPM file.
% Requires the Level 2 `image' operator (to handle variable pixel widths).
% If SCALE is defined, maps input pixels to output pixels with that scale;
% if SCALE is undefined, scales the image to fit the page.
% If FITPAGE true, it fits the output page size to the image, honouring SCALE
% When the input is PAM (P7) RGBTAG from bitrgbtags device, -dTAG will show
% the tags is pseudo color:
% TEXT=1, IMAGE=2, PATH=4, UNTOUCHED=8
% red green blue gray
/s 100 string def/readmaxv { % <file> readmaxv -
10 string readline pop cvx exec /maxv exch def} bind def/readrow { % <file> <row> readrow <row>
0 1 2 index length 1 sub { 1 index exch 3 index token pop put } for exch pop} bind def/read01 { % <file> <count> read01 <byte>
0 exch { 1 index read pop 48 xor dup 1 le { exch dup add add } { pop } ifelse } repeat} bind def/readrow01 { % <file> <row> readrow01 <row>
0 1 w 8 idiv { 1 index exch 3 index 8 read01 put } for wrem 0 ne { dup rsize 1 sub wrem read01 8 wrem sub bitshift put } if exch pop} bind def/readwh { % <file> readwh <w> <h>
dup s readline pop % check for comment
(#) anchorsearch { pop pop dup s readline pop } if cvx exec} bind def/pbmtypes mark% The procedures in this dictionary are called as
% <file> Pn <w> <h> <readproc>
/P1 { % ASCII 1-bit white/black
/bpc 1 def /maxv 1 def /rsize w 7 add 8 idiv def /wrem w 8 mod def /ncomp 1 def /invert true def /DeviceGray setcolorspace readwh { readrow01 }} bind/P2 { % ASCII 8-bit gray
readwh /bpc 8 def 2 index readmaxv /rsize 2 index def /ncomp 1 def /invert false def /DeviceGray setcolorspace { readrow }} bind/P3 { % ASCII 8-bit RGB
readwh /bpc 8 def 2 index readmaxv /rsize 2 index 3 mul def /ncomp 3 def /invert false def /DeviceRGB setcolorspace { readrow }} bind/P4 { % Binary 1-bit white/black
readwh /bpc 1 def /maxv 1 def /rsize 2 index 7 add 8 idiv def /ncomp 1 def /invert true def /DeviceGray setcolorspace { readstring pop }} bind/P5 { % Binary 8-bit gray
readwh /bpc 8 def 2 index readmaxv /rsize 2 index def /ncomp 1 def /invert false def /DeviceGray setcolorspace { readstring pop }} bind/P6 { % Binary 8-bit RGB
readwh /bpc 8 def 2 index readmaxv /rsize 2 index 3 mul def /ncomp 3 def /invert false def /DeviceRGB setcolorspace { readstring pop }} bind/P7 { % Assume Binary 8-bit CMYK -- assumes 'pf' is the input file
% P7
% WIDTH 612 %% used to set rsize and w
% HEIGHT 792 %% used to set h
% DEPTH 4 %% if present and not 1 or 4, then bail
% MAXVAL 255 %% used to set maxv
% TUPLTYPE CMYK | RGB_TAG | RGB_ALPHA | GRAYSCALE %% if present and not one of these, then bail
% ENDHDR %% skip everything else up to this
/P7KEYS << /WIDTH { /w pf token pop def } /HEIGHT { /h pf token pop def } /DEPTH { /d pf token pop def d 4 eq d 1 eq or not { (*** Only DEPTH 1 or 4 PAM files supported at this time. ***) = quit } if } /MAXVAL { /maxv pf token pop def } /TUPLTYPE { pf token pop dup /CMYK eq 1 index /RGB_TAG eq or 1 index /RGB_ALPHA eq or 1 index /GRAYSCALE eq or not { (*** Only CMYK, RGB_TAG, RGB_ALPHA and GRAYSCALE files supported at this time. ***) = quit } if /T exch def } /ENDHDR { exit } (#) cvn { pf 255 string readline pop pop } >> def { pf token not { exit } if P7KEYS exch .knownget { exec } if } loop /bpc 8 def /rsize w 4 mul def % same bytes per line for CMYK or RGB_TAG
/T load /CMYK eq { /ncomp 4 def /invert false def /DeviceCMYK setcolorspace w h { readstring pop } } if /T load /RGB_ALPHA eq { /ncomp 4 def /invert false def /DeviceCMYK setcolorspace w h { readstring pop } } if /T load /GRAYSCALE eq { /ncomp 1 def /invert false def /DeviceGray setcolorspace w h { readstring pop } } if /T load /RGB_TAG eq { % not CMYK, must be RGB_TAG since was checked above
/TAG where { pop % show the tags as pseudo-color image
/ncomp 1 def /invert false def /maxv 1 def [ /Indexed /DeviceRGB 255 % UNTOUCHED=0, TEXT=1, IMAGE=2, PATH=4
% gray red green blue
768 string dup 0 <cccccc ff0000 00ff00 ffff00 0000ff ff00ff 00ffff ffffff 000000> putinterval ] setcolorspace w h { readstring pop % discard all but the tag
dup length 4 div cvi string % destination string
0 1 2 index length 1 sub { 2 index 1 index 4 mul get 2 index exch 2 index exch put pop % done with pixel#
} for exch pop } } { % show the image as RGB (ignore tags)
/ncomp 3 def /invert false def /DeviceRGB setcolorspace w h { readstring pop % re-pack the RGB, discard the tag
dup length 4 div 3 mul cvi string % destination string
0 1 2 index length 3 idiv 1 sub { % stack: RGBTstring destRGBstring pixel#
2 index 1 index 4 mul 4 getinterval 1 3 getinterval % RGB values
% stack RGBTstring destRGBstring pixel# RGBstring
2 index exch 2 index 3 mul exch putinterval pop % done with pixel#
} for exch pop } } ifelse } if} bind
.dicttomark readonly def/pbmsetup { % <file> <w> <h> <readproc> pbmsetup <imagedict>
/readproc exch def /h exch def /w exch def /f exch def 20 dict begin % image dictionary
/ImageType 1 def /Width w def /Height h def /ImageMatrix [w 0 0 h neg 0 h] def /BitsPerComponent bpc def /Decode [ 0 255 maxv div invert { exch } if ncomp 1 sub { 2 copy } repeat ] def /DataSource [ f rsize string /readproc load /exec load ] cvx def currentdict end} def/imagescale { % <imagedict> imagescale -
begin /SCALE where { pop /FITPAGE where {/FITPAGE get}{false} ifelse { Width SCALE mul Height SCALE mul } { % Map pixels SCALE-for-1. Assume orthogonal transformation.
Width 1 0 dtransform add abs div SCALE mul Height 0 1 dtransform add abs div SCALE mul } ifelse } { /FITPAGE where {/FITPAGE get}{false} ifelse { % Scale the image (uniformly) to fit the page.
clippath pathbbox pop pop translate % offset to the printable origin
pathbbox 3 -1 roll sub exch 3 -1 roll sub exch % stack printable_width printable_height
2 copy gt 3 1 roll .min exch % stack: min(printable_w, printable_h) landscape?
{ % printable height is less than width (landscape)
dup Height Width gt { Width mul Height div exch } { Height mul Width div } ifelse } { % printable width is less than height (portrait)
dup Height Width lt { Width mul Height div exch } { Height mul Width div } ifelse } ifelse } { 0 0 translate 612 792 } ifelse } ifelse scale end} def
% Image a PBM file page by page.
/viewpbm { % <filename> viewpbm -
20 dict begin (r) file /pf exch def { pf token not { exit } if pbmtypes exch get pf exch exec pbmsetup currentcolorspace % preserve colorspace around setpagedevice
/FITPAGE where { /FITPAGE get { /SCALE where { pop << /PageSize [ 1 1 dtransform h SCALE mul exch abs div exch w SCALE mul exch abs div exch ] >> } { << /PageSize [ 1 1 dtransform h exch abs div exch w exch abs div exch ] >> } ifelse setpagedevice } if } if setcolorspace % restore colorspave in case we did setpagedevice
dup imagescale image showpage } loop end} def
% Reassemble a composite PBM file from the CMYK separations.
/viewpsm { 20 dict begin /fname exch def /sources [ 0 1 3 { /plane exch def /pf fname (r) file def pf pbmtypes pf token pop get exec % Stack: pf w h readproc
plane { /readproc exch def /h exch def /w exch def pop /row rsize string def h { pf row readproc pop } repeat pf pbmtypes pf token pop get exec } repeat pbmsetup } for ] def /datas [ sources { /DataSource get 0 get } forall ] def /decode sources 0 get /Decode get dup 0 get exch 1 get add cvi 0 exch 2 copy 4 copy 8 array astore def sources 0 get dup /MultipleDataSources true put dup /DataSource datas put dup /Decode decode put /DeviceCMYK setcolorspace /FITPAGE where { /FITPAGE get { /SCALE where { <</PageSize [w SCALE mul h SCALE mul]>> } { <</PageSize [w h]>> }ifelse setpagedevice } if } if dup imagescale image showpage end} def
% If the program was invoked from the command line, run it now.
[ .shellarguments { counttomark 1 ge { ] { viewpbm } forall } { cleartomark (Usage: gs [-dSCALE=#.#] [-dFITPAGE] [--] viewpbm.ps filename.p*m ...\n) print ( e.g.: gs [-dSCALE=#.#] [-dFITPAGE] [--] viewpbm.ps my.ppm another.ppm\n) print flush ( also -dTAG option can be used to show the pseudo-color tag image from a\n) print flush ( P7 RGB_TAG PAM file created by the bitrgbtags device.\n) print flush (From version 9.50 you must supply permissions for this program to read the input file(s)\n) print flush (either by using -dNOSAFER or by supplying --permit-file-read=<filename>\n) = flush } ifelse } { pop }ifelse
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