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Current Path : /proc/self/root/proc/self/root/proc/self/root/usr/share/ghostscript/lib/ |
Current File : //proc/self/root/proc/self/root/proc/self/root/usr/share/ghostscript/lib/image-qa.ps |
%!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. % % % Tests for the image operators % Specifications for Image operator testing. % % 1. All 8 standard orientations (0, 90, 180, 270 degree rotations with % and without reflection); ditto those orientations perturbed by +/- % 10 degrees, and by 45 degrees. % % Enough space is provided around images on a test page to allow % these permutations to use the same page layout. This will make % test page construction easier and simplify page checking. % % 2. All 9 image types (ImageType 1 mask, ImageType 1 opaque, % ImageType 3 with all 3 InterleaveTypes and with unequal scaling % for InterleaveType 2 and 3, ImageType 4 with both range and % single-point matching). % % 3. DeviceGray, DeviceRGB, and DeviceN color, both direct and Indexed. % Indexed color will use the common pallete size of 256 colors. % % 4. For simple masks, both colored and uncolored Patterns. % % 5. CombineWithColor true and false; several different colors for the % true case (including black, white, other solid colors, halftones, % and patterns). % % 6. Source transparency true and false. % % 7. Texture transparency true and false. % % 8. Different RasterOp values. % % 9. For ImageType 4, different color keys (out-of-range, specific % color other than white, range without white). % % 10. String, file, and procedure data sources; for multi-component % color spaces, MultipleDataSources = true. This is tested by % constructing string data sources that are used as input to % SubFileDecode filter to create a filetype data source. These % filters are read into scratch strings for the procedure data % source case. The procedure data source scratch string length % does not match the raster width, and the width x height is % not an integer multiple of the string length. % % Also for the File case, the number of bytes consumed is % checked after the image operator to verify that the exact % amount of data is used. This is particularly important when % the currentfile is used as a source (possibly through a % filter. % % Image bytes per line are < 500 bytes to exercise direct and % buffer copy gs_image_next_planes mode with the default stream % buffer size of 512 bytes. Procedure string size is greater % than the image bytes per line for the same reason (sM and sD). % % Total string size is kept below 65535. /WidthRGB 83 def /HeightRGB 89 def % % 11. Banded and non-banded rendering. This can be tested by running % test files throuch with different page device parameters to % force banding vs. page mode. % % ------------------------------------------------------------------------- % % Testing the RasterOp-related functions (5/6/7/8) is not necessary at this % time. They are well isolated logically. % % Testing orientation (1) and color masking (9) would be a good idea at some % point, because this code has broken many times in the past and has had a % long bug tail. % % The really important things to test are 2 (image type), 3/4 (color space -- % but only with regard to number of components, plus DeviceN and simple masks % with a Pattern, which exercise special control paths), 10 (data source), % and 11 (banding modes). % % ========================================================================== % % Procedure to generate test mask data % % WM and HM must be defined prior to invocation % MaskGen - % % The mask data is stored into a string named /MaskData % % The mask consists of a "target". Bits past width WM are % filled with 1's to make sure that pad bits are ignored. % /MaskGen { /H8 HM 8 div def /X0 WM 2 div def /Y0 HM 2 div def /WB WM 7 add 8 div cvi def /MaskData WB HM mul string def /MB [ 128 64 32 16 8 4 2 1 ] def 0 1 HM 1 sub { /Y exch def 0 1 WB 1 sub { /B exch def % byte within the row /C B Y WB mul add def /P 0 def 0 1 7 { /b exch def % bit within the character /X b B 8 mul add def X WM lt { X Y eq X HM 1 sub Y sub eq or Y Y0 gt X X0 sub abs 2 le and or X X0 sub WM div dup mul Y Y0 sub HM div dup mul add sqrt 9 mul cvi 2 mod 1 eq or } { true } % pad bits are always set ifelse % stack: true if pixel is set { MB b get P or /P exch def } if } for % Bits within a byte MaskData C P put } for % Bytes within the row } for % Rows in the mask } bind def % MaskGen % % WM and HM must be defined prior to invocation % BPC MaskGenBPC - % % The mask data is stored into a string named /MaskData % % The mask consists of a "target". BPC is the size of the elements % in the MaskData string (must be 4, 8 or 12) % /MaskGenBPC { /BPC exch def /X0 WM 2 div def /Y0 HM 2 div def /WB WM BPC mul 7 add 8 div cvi def % Width in Bytes /MaskData WB HM mul string def 0 1 HM 1 sub { /Y exch def 0 1 WM 1 sub { /X exch def MaskData % Target string X Y eq X HM 1 sub Y sub eq or Y Y0 gt X X0 sub abs 2 le and or X X0 sub WM div dup mul Y Y0 sub HM div dup mul add sqrt 9 mul cvi 2 mod 1 eq or X BPC mul 8 div Y WB mul add exch [ { } % BPC = 0 { { 1 } { 0 } ifelse put4bit } % BPC = 4 { { 255 } { 0 } ifelse exch cvi exch put } % BPC = 8 { { 1 } { 0 } ifelse put12bit } % BPC = 12 ] BPC 4 div cvi get exec } for } for % Rows in the mask } bind def % ----------------------------------------------------------------------- % Procedure to generate image data % % WD and HD must be defined prior to invocation % { proc } ImageGen - % % The procedure is called once for each pixel % Local definitions are R, G, B, X and Y % Example: Generate RGB Chunky pixel data (single data source) BPC = 8 % /WD WidthRGB def % /HD HeightRGB def % /RGBData WD HD mul 3 mul string def % { X Y WD mul add 3 mul RGBData % dup 2 index R 255 mul cvi put % dup 2 index 1 add G 255 mul cvi put % exch 2 add B 255 mul cvi put % } ImageGen /ImageGen { gsave 0 1 HD 1 sub { /Y exch def 0 1 WD 1 sub { /X exch def /D X WD 2 div sub WD div dup mul Y HD 2 div sub HD div dup mul add sqrt def /D D .6 div def /A X WD 2 div sub Y HD 2 div sub atan 360 div def A % Hue .7 D .3 sub .60 div sub % Saturation dup 0.05 lt { .95 D .8 sub 3 mul sub 3 mul cvi 3 div sqrt } % Level once Saturation < 0 { .7 D .25 sub .75 div add } % Level inside ifelse X WD 2 div gt Y HD 2 div sub abs 2 le and { pop 0 } if % asymmetric marker sethsbcolor currentrgbcolor /B exch def /G exch def /R exch def dup exec } for } for pop % discard the procedure grestore } bind def % ----------------------------------------------------------------------- % % Procedures for ImageMatrix creation /IMLRTB { [ WD 0 0 HD neg 0 HD ] } def /IMLRBT { [ WD 0 0 HD 0 0 ] } def /IMRLTB { [ WD neg 0 0 HD neg WD HD ] } def /IMRLBT { [ WD neg 0 0 HD WD 0 ] } def % ----------------------------------------------------------------------- % % Procedure to make invocation of image operators more concise % % YY, SX, SY, WD and HD should be defined prior to invocation % X matrix source decode DoImageMask - % /DoImageMask { gsave /D exch def /S exch def /M exch def /XX 1 index def YY translate SX SY scale 0 setlinewidth 0 0 moveto 1 0 lineto 1 1 lineto 0 1 lineto 0 0 lineto stroke .5 .5 translate IR rotate -.5 -.5 translate << /ImageType 1 /Width WM /Height HM /ImageMatrix M /MultipleDataSources false /DataSource S /Decode D /BitsPerComponent 1 >> imagemask grestore } bind def % YY, SX, SY, WD and HD should be defined prior to invocation % X Y BPC matrix source multi decode DoImage1 - % /DoImage1 { gsave CSpace setcolorspace /D exch def /MS exch def /S exch def % May be an array of sources /M exch def /BPC exch def /XX 1 index def YY translate SX SY scale 0 setlinewidth 0 0 moveto 1 0 lineto 1 1 lineto 0 1 lineto 0 0 lineto stroke .5 .5 translate IR rotate -.5 -.5 translate << /ImageType 1 /Width WD /Height HD /ImageMatrix M /MultipleDataSources MS /DataSource S /BitsPerComponent BPC /Decode D >> image grestore } bind def % YY, SX, SY, WD and HD should be defined prior to invocation % X Y BPC matrix source multi decode MaskColor DoImage4 - % /DoImage4 { gsave CSpace setcolorspace /MC exch def /D exch def /MS exch def /S exch def % May be an array of sources /M exch def /BPC exch def /XX 1 index def YY translate SX SY scale 0 setlinewidth 0 0 moveto 1 0 lineto 1 1 lineto 0 1 lineto 0 0 lineto stroke .5 .5 translate IR rotate -.5 -.5 translate << /ImageType 4 /Width WD /Height HD /ImageMatrix M /MultipleDataSources MS /DataSource S /BitsPerComponent BPC /Decode D /MaskColor MC >> image grestore } bind def % YY, SX, SY, W, HD (Data) WM, HM (Mask) should be defined prior to invocation % (IT is InterleaveType) % X Y BPC matrix source multi MaskDecode DataDecode IT DoImage3 - % /DoImage3 { gsave CSpace setcolorspace /IT exch def /DD exch def /DM exch def /MS exch def /S exch def % May be an array of sources - For InterleaveType 3 % S[0] is the Mask DataSource /M exch def /BPC exch def /XX 1 index def YY translate SX SY scale 0 setlinewidth 0 0 moveto 1 0 lineto 1 1 lineto 0 1 lineto 0 0 lineto stroke .5 .5 translate IR rotate -.5 -.5 translate /DataImage << /ImageType 1 /Width WD /Height HD /ImageMatrix M /MultipleDataSources MS /DataSource IT 3 ne { S } { S 1 get exec } ifelse /BitsPerComponent BPC /Decode DD >> def /MaskImage << /ImageType 1 /Width WM /Height HM /ImageMatrix % construct the mask matrix using signs from the DataImage matrix /M0 M 0 get WD abs div cvi def /M3 M 3 get HD abs div cvi def /M4 M 4 get WD abs div cvi def /M5 M 5 get HD abs div cvi def [ WM M0 mul 0 0 HM M3 mul WM M4 mul HM M5 mul ] IT 3 eq { /DataSource S 0 get exec % DataSource only allowed for InterleaveType 3 } if /BitsPerComponent IT 1 eq { BPC } { 1 } ifelse /Decode DM >> def << /ImageType 3 /DataDict DataImage /MaskDict MaskImage /InterleaveType IT >> image grestore } bind def % ----------------------------------------------------------------------- % /Helvetica-Bold findfont 20 scalefont /TitleFont exch def /FontSize 10 def /Helvetica-Narrow findfont FontSize scalefont /LegendFont exch def /blockshow { % like "show" but '\n' causes new-line dup = flush %DEBUG currentpoint /showY exch def /showX exch def { dup 10 ne { 1 string dup 0 4 -1 roll put show } { pop showX showY FontSize sub dup /showY exch def moveto } ifelse } forall } bind def /TX 013 def % Title left X /SX 036 def /XA 060 def /XB XA SX 1.5 mul add def /XC XA SX 3.0 mul add def /XD XA SX 4.5 mul add def /XE XA SX 6.0 mul add def /XF XA SX 7.5 mul add def /XG XA SX 9.0 mul add def /XH XA SX 10.5 mul add def /XI XA SX 12.0 mul add def /XJ XA SX 13.5 mul add def /BY 036 def % Bottom Title Top line /SY 037 def /YA 050 def /YB YA SY 1.8 mul add def /YC YA SY 3.6 mul add def /YD YA SY 5.4 mul add def /YE YA SY 7.2 mul add def /YF YA SY 9.0 mul add def /YG YA SY 10.8 mul add def /YH YA SY 12.6 mul add def /YI YA SY 14.4 mul add def /YJ YA SY 16.2 mul add def /YK YA SY 18.0 mul add def % ----------------------------------------------------------------------- % % Utility procedures to support storing 4 and 12 bit elements in % strings. % % <string> <index> <value> put##bit - % % <index> will have a fractional part ( .5 ) if the element % starts on a 4-bit boundary. % % <value> is between 0 and 1 and is scaled 0 to 15 (4bit) or % 0 to 4095 (12 bit) /put4bit { 15 mul cvi exch dup cvi dup 3 1 roll eq 3 -1 roll exch { % integer index means high nibble. 16 mul put } { % low nibble -- combine with high nibble 2 index 2 index get or put } ifelse } bind def /put12bit { 1 index cvi /I exch def 2 index /S exch def 4095 mul cvi exch dup dup cvi eq { % integer index means high byte is aligned cvi exch 3 copy 16 div cvi put exch 1 add exch 15 and 16 mul put } { % low nibble -- combine with high nibble cvi exch 3 copy 2 index 2 index get exch 256 div cvi or put 255 and exch 1 add exch put } ifelse } bind def % ----------------------------------------------------------------------- % % Procedures to use generated string data as procedure or files /WD WidthRGB def /HD HeightRGB def /sM WidthRGB 2 mul 1 sub string def % long enough to hold more than one mask line /sD WidthRGB 7 mul 1 sub string def % long enough to hold more than one 12 bit RGB line % worst case is 12bit ImageType3 InterleaveType 1 == 48 bits /MaskDProc { /FM MaskData dup length () /SubFileDecode filter def { { FM sM readstring pop } } } bind def /FileTailString (12345) def % Marker string to check file data usage /AppendFileTail { % <string> AppendFileTail <string_with_tail> <original_length> dup length FileTailString length add string dup 0 3 index putinterval dup 2 index length FileTailString putinterval exch length } bind def /MaskDFile { MaskData dup length () /SubFileDecode filter /MDF 1 index def } bind def /RGBDProc { /FD RGBData dup length () /SubFileDecode filter def { { FD sD readstring pop } } } bind def /RGBDFile { RGBData dup length () /SubFileDecode filter /RGBDF 1 index def } bind def /sR WidthRGB 2 mul 1 sub string def % long enough to hold more than one line of 12 bit data /sG WidthRGB 2 mul 1 sub string def /sB WidthRGB 2 mul 1 sub string def /RDProc { /FR RData dup length () /SubFileDecode filter def { FR sR readstring pop } } bind def /GDProc { /FG GData dup length () /SubFileDecode filter def { FG sG readstring pop } } bind def /BDProc { /FB BData dup length () /SubFileDecode filter def { FB sB readstring pop } } bind def /RDFile { RData dup length () /SubFileDecode filter /RDF 1 index def } bind def /GDFile { GData dup length () /SubFileDecode filter /GDF 1 index def } bind def /BDFile { BData dup length () /SubFileDecode filter /BDF 1 index def } bind def % ----------------------------------------------------------------------- % % Procedure to handle fileposition. Ghostscript has a private % operator .fileposition that works when fileposition does not % % <file> tryfilepos % Returns: fileposition true if successful % 0 false if not /tryfilepos { /.fileposition where { pop /.fileposition load } % most likely to succeed { /fileposition load } ifelse stopped { pop 0 false } { true } ifelse } bind def % ----------------------------------------------------------------------- % % Procedure to provide =only operator if not present. Suggested % by Alex Cherepanov to use =print operator present on some Adobe % implementations. /=only where { pop } { /=print where { pop /=print load } { /print load } ifelse /=only exch def } ifelse % ----------------------------------------------------------------------- % % Procedure to make sure that the file is at the EOF. % added above (string == FileTailString. % % If not, it will mark the image area with a red "F" % % <string> <title> <file> CheckFileTail - XX is the horizontal position % YY is the vertical position % SX,SY determine size of "F" if fail /CheckFileTail { dup status not dup % status false says no longer valid { (Unexpected EOF: XX,YY=) print XX =only (,) print YY = false } { 1 index tryfilepos not exch 5 index length ne or dup { 3 index print ( fileposition = ) print 2 index tryfilepos pop =only ( doesn't match expected = ) print 4 index length = flush } if } ifelse or { gsave .8 0 0 setrgbcolor SX 4 div setlinewidth XX YY moveto 0 SY rlineto SX 0 rlineto stroke XX YY SY .5 mul add moveto SX .5 mul 0 rlineto stroke grestore } if pop pop pop } bind def /CSpaceName { % - CSpaceName <string> CSpace dup type /arraytype eq { 0 get } if 15 string cvs } bind def % ----------------------------------------------------------------------- % % tests /CheckImage { /IR 0 def /CSpace /DeviceRGB def % Use an unusual (unpleasant?) underlying color .6 .95 .4 setrgbcolor clippath fill 0 0 0 setrgbcolor TitleFont setfont 200 760 moveto (Image Type 3 Tests) show 200 740 moveto (Rotation Angle = ) show IR 3 string cvs show 170 720 moveto (Colorspace = ) show CSpaceName show LegendFont setfont .4 .1 .7 setrgbcolor % contrasting color for stencil masking /SX SX 2 mul def /SY SY 2 mul def /YY 780 SY sub def MaskGen TX IMLRTB MaskData [1 0] DoImageMask /RGBData WD HD mul 3 mul string def { X Y WD mul add 3 mul RGBData dup 2 index R 255 mul cvi put dup 2 index 1 add G 255 mul cvi put exch 2 add B 255 mul cvi put } ImageGen % X BPC matrix source multi decode XI 8 IMLRTB RGBData false [0 1 0 1 0 1] DoImage1 /SX SX 2 div def /SY SY 2 div def showpage } def % ----------------------------------------------------------------------- % % Type 1 and Type 4 Tests % /CSpace and /IR are defined in order to generate various pages /T1T4Tests { % % Use an unusual (unpleasant?) underlying color .6 .95 .4 setrgbcolor clippath fill 0 0 0 setrgbcolor TitleFont setfont 120 760 moveto (Image Type 1 and ImageType 4 Tests) show 200 740 moveto (Rotation Angle = ) show IR 3 string cvs show 170 720 moveto (Colorspace = ) show CSpaceName show LegendFont setfont XA BY moveto (Decode\nInverted) blockshow XB BY moveto ( IMLRTB\nDS=string) blockshow XC BY moveto ( IMLRBT\nDS=string) blockshow XD BY moveto ( IMRLTB\nDS=string) blockshow XE BY moveto ( IMRLBT\nDS=string) blockshow XF BY moveto (IMLRTB\nDS=proc) blockshow XG BY moveto (IMLRTB\nDS=file) blockshow XH BY moveto ( Multi\nDS=string) blockshow XI BY moveto ( Multi\nDS=proc) blockshow XJ BY moveto ( Multi\nDS=file) blockshow .4 .1 .7 setrgbcolor % contrasting color for stencil masking /WM WD def /HM HD def /SX SX 2 mul def /SY SY 2 mul def /YY 780 SY sub def MaskGen TX IMLRTB MaskData [1 0] DoImageMask /RGBData WD HD mul 3 mul string def { X Y WD mul add 3 mul RGBData dup 2 index R 255 mul cvi put dup 2 index 1 add G 255 mul cvi put exch 2 add B 255 mul cvi put } ImageGen % X BPC matrix source multi decode XI 8 IMLRTB RGBData false [0 1 0 1 0 1] DoImage1 /SX SX 2 div def /SY SY 2 div def % ---------------------------------------------------------------------- % Type 1 Stencil Mask Images /YY YA def TX YA SY add moveto (\nType 1\nStencil\nMask) blockshow MaskGen % X matrix source decode XA IMLRTB MaskData [0 1] DoImageMask XB IMLRTB MaskData [1 0] DoImageMask XC IMLRBT MaskData [1 0] DoImageMask XD IMRLTB MaskData [1 0] DoImageMask XE IMRLBT MaskData [1 0] DoImageMask XF IMLRTB MaskDProc [1 0] DoImageMask XG IMLRTB MaskDFile [1 0] DoImageMask MaskData (Mask) MDF CheckFileTail % Check that the correct amount of data was consumed % ---------------------------------------------------------------------- % Type 1 RGB Single Data Sources, BPC==8 /YY YB def TX YY SY add moveto (\nType 1\nRGB\nBPC=8) blockshow /RGBData WD HD mul 3 mul string def { X Y WD mul add 3 mul RGBData dup 2 index R 255 mul cvi put dup 2 index 1 add G 255 mul cvi put exch 2 add B 255 mul cvi put } ImageGen % X BPC matrix source multi decode XA 8 IMLRTB RGBData false [1 0 1 0 1 0] DoImage1 XB 8 IMLRTB RGBData false [0 1 0 1 0 1] DoImage1 XC 8 IMLRBT RGBData false [0 1 0 1 0 1] DoImage1 XD 8 IMRLTB RGBData false [0 1 0 1 0 1] DoImage1 XE 8 IMRLBT RGBData false [0 1 0 1 0 1] DoImage1 XF 8 IMLRTB RGBDProc false [0 1 0 1 0 1] DoImage1 XG 8 IMLRTB RGBDFile false [0 1 0 1 0 1] DoImage1 RGBData (RGB) RGBDF CheckFileTail % Check that the correct amount of data was consumed % ---------------------------------------------------------------------- % Type 1 RGB Multiple Data Sources, BPC==8 WD HD mul /RData 1 index string def /GData 1 index string def /BData exch string def { X Y WD mul add RData 1 index R 255 mul cvi put GData 1 index G 255 mul cvi put BData exch B 255 mul cvi put } ImageGen % X BPC matrix source multi decode XH 8 IMLRTB [ RData GData BData ] true [0 1 0 1 0 1] DoImage1 XI 8 IMLRTB [ RDProc GDProc BDProc ] true [0 1 0 1 0 1] DoImage1 XJ 8 IMLRTB [ RDFile GDFile BDFile ] true [0 1 0 1 0 1] DoImage1 RData (Red) RDF CheckFileTail % Check that the correct amount of data was consumed GData (Grn) GDF CheckFileTail % Check that the correct amount of data was consumed BData (Blu) BDF CheckFileTail % Check that the correct amount of data was consumed % ---------------------------------------------------------------------- % Type 4 RGB Single Data Sources, BPC==8, mask black /YY YE def TX YY SY add moveto (\nType 4\nBPC=8\nmask=black) blockshow % X BPC matrix source multi decode MaskColor XA 8 IMLRTB RGBData false [1 0 1 0 1 0] [ 000 000 000 ] DoImage4 XB 8 IMLRTB RGBData false [0 1 0 1 0 1] [ 000 000 000 ] DoImage4 XC 8 IMLRBT RGBData false [0 1 0 1 0 1] [ 000 000 000 ] DoImage4 XD 8 IMRLTB RGBData false [0 1 0 1 0 1] [ 000 000 000 ] DoImage4 XE 8 IMRLBT RGBData false [0 1 0 1 0 1] [ 000 000 000 ] DoImage4 XF 8 IMLRTB RGBDProc false [0 1 0 1 0 1] [ 000 000 000 ] DoImage4 XG 8 IMLRTB RGBDFile false [0 1 0 1 0 1] [ 000 000 000 ] DoImage4 RGBData (RGB) RGBDF CheckFileTail % Check that the correct amount of data was consumed % ---------------------------------------------------------------------- % Type 4 RGB Multiple Data Sources, BPC==8, mask black % X BPC matrix source multi decode MaskColor XH 8 IMLRTB [ RData GData BData ] true [0 1 0 1 0 1] [ 000 000 000 ] DoImage4 XI 8 IMLRTB [ RDProc GDProc BDProc ] true [0 1 0 1 0 1] [ 000 000 000 ] DoImage4 XJ 8 IMLRTB [ RDFile GDFile BDFile ] true [0 1 0 1 0 1] [ 000 000 000 ] DoImage4 RData (Red) RDF CheckFileTail % Check that the correct amount of data was consumed GData (Grn) GDF CheckFileTail % Check that the correct amount of data was consumed BData (Blu) BDF CheckFileTail % Check that the correct amount of data was consumed % ---------------------------------------------------------------------- % Type 4 RGB Single Data Sources, BPC==8, mask white /YY YF def TX YY SY add moveto (\nType 4\nBPC=8\nmask=white) blockshow % X BPC matrix source multi decode MaskColor XA 8 IMLRTB RGBData false [1 0 1 0 1 0] [ 255 255 255 ] DoImage4 gsave .5 .2 .2 setrgbcolor XB YY SX 13 mul SY rectfill grestore XB 8 IMLRTB RGBData false [0 1 0 1 0 1] [ 255 255 255 ] DoImage4 XC 8 IMLRBT RGBData false [0 1 0 1 0 1] [ 255 255 255 ] DoImage4 XD 8 IMRLTB RGBData false [0 1 0 1 0 1] [ 255 255 255 ] DoImage4 XE 8 IMRLBT RGBData false [0 1 0 1 0 1] [ 255 255 255 ] DoImage4 XF 8 IMLRTB RGBDProc false [0 1 0 1 0 1] [ 255 255 255 ] DoImage4 XG 8 IMLRTB RGBDFile false [0 1 0 1 0 1] [ 255 255 255 ] DoImage4 RGBData (RGB) RGBDF CheckFileTail % Check that the correct amount of data was consumed % ---------------------------------------------------------------------- % Type 4 RGB Multiple Data Sources, BPC==8, mask white % X BPC matrix source multi decode MaskColor XH 8 IMLRTB [ RData GData BData ] true [0 1 0 1 0 1] [ 255 255 255 ] DoImage4 XI 8 IMLRTB [ RDProc GDProc BDProc ] true [0 1 0 1 0 1] [ 255 255 255 ] DoImage4 XJ 8 IMLRTB [ RDFile GDFile BDFile ] true [0 1 0 1 0 1] [ 255 255 255 ] DoImage4 RData (Red) RDF CheckFileTail % Check that the correct amount of data was consumed GData (Grn) GDF CheckFileTail % Check that the correct amount of data was consumed BData (Blu) BDF CheckFileTail % Check that the correct amount of data was consumed % ---------------------------------------------------------------------- % Type 4 RGB Single Data Sources, BPC==8, mask gray /YY YG def TX YY SY add moveto (\nType 4\nBPC=8\nmask=gray) blockshow % X BPC matrix source multi decode MaskColor XA 8 IMLRTB RGBData false [1 0 1 0 1 0] [ 147 147 147 ] DoImage4 XB 8 IMLRTB RGBData false [0 1 0 1 0 1] [ 147 147 147 ] DoImage4 XC 8 IMLRBT RGBData false [0 1 0 1 0 1] [ 147 147 147 ] DoImage4 XD 8 IMRLTB RGBData false [0 1 0 1 0 1] [ 147 147 147 ] DoImage4 XE 8 IMRLBT RGBData false [0 1 0 1 0 1] [ 147 147 147 ] DoImage4 XF 8 IMLRTB RGBDProc false [0 1 0 1 0 1] [ 147 147 147 ] DoImage4 XG 8 IMLRTB RGBDFile false [0 1 0 1 0 1] [ 147 147 147 ] DoImage4 RGBData (RGB) RGBDF CheckFileTail % Check that the correct amount of data was consumed % ---------------------------------------------------------------------- % Type 4 RGB Multiple Data Sources, BPC==8, mask gray % X BPC matrix source multi decode MaskColor XH 8 IMLRTB [ RData GData BData ] true [0 1 0 1 0 1] [ 147 147 147 ] DoImage4 XI 8 IMLRTB [ RDProc GDProc BDProc ] true [0 1 0 1 0 1] [ 147 147 147 ] DoImage4 XJ 8 IMLRTB [ RDFile GDFile BDFile ] true [0 1 0 1 0 1] [ 147 147 147 ] DoImage4 RData (Red) RDF CheckFileTail % Check that the correct amount of data was consumed GData (Grn) GDF CheckFileTail % Check that the correct amount of data was consumed BData (Blu) BDF CheckFileTail % Check that the correct amount of data was consumed % ---------------------------------------------------------------------- % Type 4 RGB Single Data Sources, BPC==8, mask range /YY YH def TX YY SY add moveto (\nType 4\nBPC=8\nmask range) blockshow % X BPC matrix source multi decode MaskColor XA 8 IMLRTB RGBData false [1 0 1 0 1 0] [ 020 200 020 200 020 200 ] DoImage4 XB 8 IMLRTB RGBData false [0 1 0 1 0 1] [ 020 200 020 200 020 200 ] DoImage4 XC 8 IMLRBT RGBData false [0 1 0 1 0 1] [ 020 200 020 200 020 200 ] DoImage4 XD 8 IMRLTB RGBData false [0 1 0 1 0 1] [ 020 200 020 200 020 200 ] DoImage4 XE 8 IMRLBT RGBData false [0 1 0 1 0 1] [ 020 200 020 200 020 200 ] DoImage4 XF 8 IMLRTB RGBDProc false [0 1 0 1 0 1] [ 020 200 020 200 020 200 ] DoImage4 XG 8 IMLRTB RGBDFile false [0 1 0 1 0 1] [ 020 200 020 200 020 200 ] DoImage4 RGBData (RGB) RGBDF CheckFileTail % Check that the correct amount of data was consumed % ---------------------------------------------------------------------- % Type 4 RGB Multiple Data Sources, BPC==8, mask range % X Y SX SY BPC matrix source multi decode MaskColor XH 8 IMLRTB [ RData GData BData ] true [0 1 0 1 0 1] [ 020 200 020 200 020 200 ] DoImage4 XI 8 IMLRTB [ RDProc GDProc BDProc ] true [0 1 0 1 0 1] [ 020 200 020 200 020 200 ] DoImage4 XJ 8 IMLRTB [ RDFile GDFile BDFile ] true [0 1 0 1 0 1] [ 020 200 020 200 020 200 ] DoImage4 RData (Red) RDF CheckFileTail % Check that the correct amount of data was consumed GData (Grn) GDF CheckFileTail % Check that the correct amount of data was consumed BData (Blu) BDF CheckFileTail % Check that the correct amount of data was consumed % ---------------------------------------------------------------------- % Type 1 RGB Single Data Sources, BPC==12 /YY YC def TX YY SY add moveto (\nType 1\nRGB\nBPC=12) blockshow /RGBData WD 36 mul 7 add 8 div cvi HD mul string def { X 36 mul 8 div Y WD 36 mul 7 add 8 div cvi mul add RGBData 1 index R put12bit RGBData 1 index 1.5 add G put12bit RGBData exch 3 add B put12bit } ImageGen % X BPC matrix source multi decode XA 12 IMLRTB RGBData false [1 0 1 0 1 0] DoImage1 XB 12 IMLRTB RGBData false [0 1 0 1 0 1] DoImage1 XC 12 IMLRBT RGBData false [0 1 0 1 0 1] DoImage1 XD 12 IMRLTB RGBData false [0 1 0 1 0 1] DoImage1 XE 12 IMRLBT RGBData false [0 1 0 1 0 1] DoImage1 XF 12 IMLRTB RGBDProc false [0 1 0 1 0 1] DoImage1 XG 12 IMLRTB RGBDFile false [0 1 0 1 0 1] DoImage1 RGBData (RGB) RGBDF CheckFileTail % Check that the correct amount of data was consumed % ---------------------------------------------------------------------- % Type 1 RGB Multiple Data Sources, BPC==12 WD 3 mul 1 add 2 div cvi HD mul /RData 1 index string def /GData 1 index string def /BData exch string def { X 3 mul 2 div Y WD 3 mul 1 add 2 div cvi mul add RData 1 index R put12bit GData 1 index G put12bit BData exch B put12bit } ImageGen % X BPC matrix source multi decode XH 12 IMLRTB [ RData GData BData ] true [0 1 0 1 0 1] DoImage1 XI 12 IMLRTB [ RDProc GDProc BDProc ] true [0 1 0 1 0 1] DoImage1 XJ 12 IMLRTB [ RDFile GDFile BDFile ] true [0 1 0 1 0 1] DoImage1 RData (Red) RDF CheckFileTail % Check that the correct amount of data was consumed GData (Grn) GDF CheckFileTail % Check that the correct amount of data was consumed BData (Blu) BDF CheckFileTail % Check that the correct amount of data was consumed % ---------------------------------------------------------------------- % Type 4 RGB Single Data Sources, BPC==12, mask range /YY YI def TX YY SY add moveto (\nType 4\nBPC=12\nmask range) blockshow % X BPC matrix source multi decode MaskColor XA 12 IMLRTB RGBData false [1 0 1 0 1 0] [ 300 3000 300 3000 300 3000 ] DoImage4 XB 12 IMLRTB RGBData false [0 1 0 1 0 1] [ 300 3000 300 3000 300 3000 ] DoImage4 XC 12 IMLRBT RGBData false [0 1 0 1 0 1] [ 300 3000 300 3000 300 3000 ] DoImage4 XD 12 IMRLTB RGBData false [0 1 0 1 0 1] [ 300 3000 300 3000 300 3000 ] DoImage4 XE 12 IMRLBT RGBData false [0 1 0 1 0 1] [ 300 3000 300 3000 300 3000 ] DoImage4 XF 12 IMLRTB RGBDProc false [0 1 0 1 0 1] [ 300 3000 300 3000 300 3000 ] DoImage4 XG 12 IMLRTB RGBDFile false [0 1 0 1 0 1] [ 300 3000 300 3000 300 3000 ] DoImage4 RGBData (RGB) RGBDF CheckFileTail % Check that the correct amount of data was consumed % ---------------------------------------------------------------------- % Type 4 RGB Multiple Data Sources, BPC==12, mask range % X BPC matrix source multi decode MaskColor XH 12 IMLRTB [ RData GData BData ] true [0 1 0 1 0 1] [ 300 3000 300 3000 300 3000 ] DoImage4 XI 12 IMLRTB [ RDProc GDProc BDProc ] true [0 1 0 1 0 1] [ 300 3000 300 3000 300 3000 ] DoImage4 XJ 12 IMLRTB [ RDFile GDFile BDFile ] true [0 1 0 1 0 1] [ 300 3000 300 3000 300 3000 ] DoImage4 RData (Red) RDF CheckFileTail % Check that the correct amount of data was consumed GData (Grn) GDF CheckFileTail % Check that the correct amount of data was consumed BData (Blu) BDF CheckFileTail % Check that the correct amount of data was consumed % ---------------------------------------------------------------------- % Type 1 RGB Single Data Sources, BPC==4 /YY YD def TX YY SY add moveto (\nType 1\nRGB\nBPC=4) blockshow /RGBData WD 12 mul 7 add 8 div cvi HD mul string def { X 12 mul 8 div Y WD 12 mul 7 add 8 div cvi mul add RGBData 1 index R put4bit RGBData 1 index 0.5 add G put4bit RGBData exch 1.0 add B put4bit } ImageGen % X BPC matrix source multi decode XA 4 IMLRTB RGBData false [1 0 1 0 1 0] DoImage1 XB 4 IMLRTB RGBData false [0 1 0 1 0 1] DoImage1 XC 4 IMLRBT RGBData false [0 1 0 1 0 1] DoImage1 XD 4 IMRLTB RGBData false [0 1 0 1 0 1] DoImage1 XE 4 IMRLBT RGBData false [0 1 0 1 0 1] DoImage1 XF 4 IMLRTB RGBDProc false [0 1 0 1 0 1] DoImage1 XG 4 IMLRTB RGBDFile false [0 1 0 1 0 1] DoImage1 RGBData (RGB) RGBDF CheckFileTail % Check that the correct amount of data was consumed % ---------------------------------------------------------------------- % Type 1 RGB Multiple Data Sources, BPC==4 WD 1 add 2 div cvi HD mul /RData 1 index string def /GData 1 index string def /BData exch string def { X 2 div Y WD 1 add 2 div cvi mul add RData 1 index R put4bit GData 1 index G put4bit BData exch B put4bit } ImageGen % X BPC matrix source multi decode XH 4 IMLRTB [ RData GData BData ] true [0 1 0 1 0 1] DoImage1 XI 4 IMLRTB [ RDProc GDProc BDProc ] true [0 1 0 1 0 1] DoImage1 XJ 4 IMLRTB [ RDFile GDFile BDFile ] true [0 1 0 1 0 1] DoImage1 RData (Red) RDF CheckFileTail % Check that the correct amount of data was consumed GData (Grn) GDF CheckFileTail % Check that the correct amount of data was consumed BData (Blu) BDF CheckFileTail % Check that the correct amount of data was consumed % ---------------------------------------------------------------------- % Type 4 RGB Single Data Sources, BPC==4, mask range /YY YJ def TX YY SY add moveto (\nType 4\nBPC=4\nmask range) blockshow % X BPC matrix source multi decode MaskColor XA 4 IMLRTB RGBData false [1 0 1 0 1 0] [ 1 10 1 10 1 10 ] DoImage4 XB 4 IMLRTB RGBData false [0 1 0 1 0 1] [ 1 10 1 10 1 10 ] DoImage4 XC 4 IMLRBT RGBData false [0 1 0 1 0 1] [ 1 10 1 10 1 10 ] DoImage4 XD 4 IMRLTB RGBData false [0 1 0 1 0 1] [ 1 10 1 10 1 10 ] DoImage4 XE 4 IMRLBT RGBData false [0 1 0 1 0 1] [ 1 10 1 10 1 10 ] DoImage4 XF 4 IMLRTB RGBDProc false [0 1 0 1 0 1] [ 1 10 1 10 1 10 ] DoImage4 XG 4 IMLRTB RGBDFile false [0 1 0 1 0 1] [ 1 10 1 10 1 10 ] DoImage4 RGBData (RGB) RGBDF CheckFileTail % Check that the correct amount of data was consumed % ---------------------------------------------------------------------- % Type 4 RGB Multiple Data Sources, BPC==4, mask range % X BPC matrix source multi decode MaskColor XH 4 IMLRTB [ RData GData BData ] true [0 1 0 1 0 1] [ 1 10 1 10 1 10 ] DoImage4 XI 4 IMLRTB [ RDProc GDProc BDProc ] true [0 1 0 1 0 1] [ 1 10 1 10 1 10 ] DoImage4 XJ 4 IMLRTB [ RDFile GDFile BDFile ] true [0 1 0 1 0 1] [ 1 10 1 10 1 10 ] DoImage4 RData (Red) RDF CheckFileTail % Check that the correct amount of data was consumed GData (Grn) GDF CheckFileTail % Check that the correct amount of data was consumed BData (Blu) BDF CheckFileTail % Check that the correct amount of data was consumed showpage } bind def % T1T4Tests % ----------------------------------------------------------------------- % % Type 3 Tests /T3Tests { % Use an unusual (unpleasant?) underlying color .6 .95 .4 setrgbcolor clippath fill 0 0 0 setrgbcolor TitleFont setfont 200 760 moveto (Image Type 3 Tests) show 200 740 moveto (Rotation Angle = ) show IR 3 string cvs show 170 720 moveto (Colorspace = ) show CSpaceName show LegendFont setfont .4 .1 .7 setrgbcolor % contrasting color for stencil masking /WM WD def /HM HD def /SX SX 2 mul def /SY SY 2 mul def /YY 780 SY sub def MaskGen XA IMLRTB MaskData [1 0] DoImageMask /RGBData WD HD mul 3 mul string def { X Y WD mul add 3 mul RGBData dup 2 index R 255 mul cvi put dup 2 index 1 add G 255 mul cvi put exch 2 add B 255 mul cvi put } ImageGen % X BPC matrix source multi decode XH 8 IMLRTB RGBData false [0 1 0 1 0 1] DoImage1 /SX SX 2 div def /SY SY 2 div def % ---------------------------------------------------------------------- % InterleaveType 1, BPC==8, WM=WD, HM=HD % IT 1 is what GS calls "chunky pixel" /YY YA def TX YY SY add moveto (\nIntType 1\nBPC=8) blockshow % Generate the MaskData first 8 MaskGenBPC % Generate the Data Image (uses the MaskData) /RGBData WD HD mul 4 mul string def { X Y WD mul add 4 mul % 4 bytes Mask,Red,Green,Blue RGBData dup 2 index MaskData X Y WB mul add get put dup 2 index 1 add R 255 mul cvi put dup 2 index 2 add G 255 mul cvi put exch 3 add B 255 mul cvi put } ImageGen % X BPC matrix source multi MaskDecode DataDecode IT DoImage3 - XA 8 IMLRTB RGBData false [0 1] [1 0 1 0 1 0] 1 DoImage3 XB 8 IMLRTB RGBData false [1 0] [1 0 1 0 1 0] 1 DoImage3 XC 8 IMLRTB RGBData false [0 1] [0 1 0 1 0 1] 1 DoImage3 XD 8 IMLRTB RGBData false [1 0] [0 1 0 1 0 1] 1 DoImage3 XE 8 IMLRBT RGBData false [1 0] [0 1 0 1 0 1] 1 DoImage3 XF 8 IMRLTB RGBData false [1 0] [0 1 0 1 0 1] 1 DoImage3 XG 8 IMRLBT RGBData false [1 0] [0 1 0 1 0 1] 1 DoImage3 XH 8 IMLRTB RGBDProc false [1 0] [0 1 0 1 0 1] 1 DoImage3 XI 8 IMLRTB RGBDFile false [1 0] [0 1 0 1 0 1] 1 DoImage3 RGBData (RGB) RGBDF CheckFileTail % Check that the correct amount of data was consumed % ---------------------------------------------------------------------- % InterleaveType 1, BPC==12, WM=WD, HM=HD % IT 1 is what GS calls "chunky pixel" /YY YB def TX YY SY add moveto (\nIntType 1\nBPC=12) blockshow % Generate the MaskData first 12 MaskGenBPC % Generate the Data Image (uses the MaskData) /RGBData WD HD mul 6 mul string def { X Y WD mul add 6 mul % 6 bytes Mask,Red,Green,Blue RGBData dup 2 index MaskData X 1.5 mul .5 add cvi Y WB mul add get % get the aligned mask byte (hi or lo) 0 eq { 0 } { 1 } ifelse put12bit dup 2 index 1.5 add R put12bit dup 2 index 3.0 add G put12bit exch 4.5 add B put12bit } ImageGen % X BPC matrix source multi MaskDecode DataDecode IT DoImage3 - XA 12 IMLRTB RGBData false [0 1] [1 0 1 0 1 0] 1 DoImage3 XB 12 IMLRTB RGBData false [1 0] [1 0 1 0 1 0] 1 DoImage3 XC 12 IMLRTB RGBData false [0 1] [0 1 0 1 0 1] 1 DoImage3 XD 12 IMLRTB RGBData false [1 0] [0 1 0 1 0 1] 1 DoImage3 XE 12 IMLRBT RGBData false [1 0] [0 1 0 1 0 1] 1 DoImage3 XF 12 IMRLTB RGBData false [1 0] [0 1 0 1 0 1] 1 DoImage3 XG 12 IMRLBT RGBData false [1 0] [0 1 0 1 0 1] 1 DoImage3 XH 12 IMLRTB RGBDProc false [1 0] [0 1 0 1 0 1] 1 DoImage3 XI 12 IMLRTB RGBDFile false [1 0] [0 1 0 1 0 1] 1 DoImage3 RGBData (RGB) RGBDF CheckFileTail % Check that the correct amount of data was consumed % ---------------------------------------------------------------------- % InterleaveType 1, BPC==4, WM=WD, HM=HD % IT 1 is what GS calls "chunky pixel" /YY YC def TX YY SY add moveto (\nIntType 1\nBPC=4) blockshow % Generate the MaskData first 4 MaskGenBPC % Generate the Data Image (uses the MaskData) /RGBData WD HD mul 2 mul string def { X Y WD mul add 2 mul % 2 bytes Mask,Red,Green,Blue RGBData dup 2 index MaskData X 2 div cvi Y WB mul add get X 1 and 0 eq { 128 div cvi } { 1 and } ifelse put4bit dup 2 index 0.5 add R put4bit dup 2 index 1.0 add G put4bit exch 1.5 add B put4bit } ImageGen % X BPC matrix source multi MaskDecode DataDecode IT DoImage3 - XA 4 IMLRTB RGBData false [0 1] [1 0 1 0 1 0] 1 DoImage3 XB 4 IMLRTB RGBData false [1 0] [1 0 1 0 1 0] 1 DoImage3 XC 4 IMLRTB RGBData false [0 1] [0 1 0 1 0 1] 1 DoImage3 XD 4 IMLRTB RGBData false [1 0] [0 1 0 1 0 1] 1 DoImage3 XE 4 IMLRBT RGBData false [1 0] [0 1 0 1 0 1] 1 DoImage3 XF 4 IMRLTB RGBData false [1 0] [0 1 0 1 0 1] 1 DoImage3 XG 4 IMRLBT RGBData false [1 0] [0 1 0 1 0 1] 1 DoImage3 XH 4 IMLRTB RGBDProc false [1 0] [0 1 0 1 0 1] 1 DoImage3 XI 4 IMLRTB RGBDFile false [1 0] [0 1 0 1 0 1] 1 DoImage3 RGBData (RGB) RGBDF CheckFileTail % Check that the correct amount of data was consumed % ---------------------------------------------------------------------- % InterleaveType 2, BPC==8, WM=WD, HM=HD % IT 2 is line interleave -- Mask line follwoed by Data line % RGB Image Data must be chunky (MultipleDatasources==false). /YY YD def TX YY SY add moveto (\nIntType 2\nBPC=8) blockshow % Generate the MaskData first MaskGen % Generate the Data Image (uses the MaskData) /BPL WD 3 mul WB add cvi def % BytesPerLine /RGBData BPL HD mul string def { X 3 mul Y BPL mul add WB add % 3 bytes Red,Green,Blue + Mask Bytes X 0 eq { RGBData 1 index WB sub MaskData Y WB mul WB getinterval putinterval } if RGBData dup 2 index R 255 mul cvi put dup 2 index 1 add G 255 mul cvi put exch 2 add B 255 mul cvi put } ImageGen % X BPC matrix source multi MaskDecode DataDecode IT DoImage3 - XA 8 IMLRTB RGBData false [0 1] [1 0 1 0 1 0] 2 DoImage3 XB 8 IMLRTB RGBData false [1 0] [1 0 1 0 1 0] 2 DoImage3 XC 8 IMLRTB RGBData false [0 1] [0 1 0 1 0 1] 2 DoImage3 XD 8 IMLRTB RGBData false [1 0] [0 1 0 1 0 1] 2 DoImage3 XE 8 IMLRBT RGBData false [1 0] [0 1 0 1 0 1] 2 DoImage3 XF 8 IMRLTB RGBData false [1 0] [0 1 0 1 0 1] 2 DoImage3 XG 8 IMRLBT RGBData false [1 0] [0 1 0 1 0 1] 2 DoImage3 XH 8 IMLRTB RGBDProc false [1 0] [0 1 0 1 0 1] 2 DoImage3 XI 8 IMLRTB RGBDFile false [1 0] [0 1 0 1 0 1] 2 DoImage3 RGBData (RGB) RGBDF CheckFileTail % Check that the correct amount of data was consumed % ---------------------------------------------------------------------- % InterleaveType 2, BPC==12, WM=WD, HM=HD /YY YE def TX YY SY add moveto (\nIntType 2\nBPC=12) blockshow % Generate the Data Image (uses the MaskData) /BPL WD 36 mul 7 add 8 div cvi WB add def % BytesPerLine /RGBData BPL HD mul string def { X 36 mul 8 div Y BPL mul add WB add X 0 eq { RGBData 1 index WB sub cvi MaskData Y WB mul WB getinterval putinterval } if RGBData dup 2 index R put12bit dup 2 index 1.5 add G put12bit exch 3.0 add B put12bit } ImageGen % X BPC matrix source multi MaskDecode DataDecode IT DoImage3 - XA 12 IMLRTB RGBData false [0 1] [1 0 1 0 1 0] 2 DoImage3 XB 12 IMLRTB RGBData false [1 0] [1 0 1 0 1 0] 2 DoImage3 XC 12 IMLRTB RGBData false [0 1] [0 1 0 1 0 1] 2 DoImage3 XD 12 IMLRTB RGBData false [1 0] [0 1 0 1 0 1] 2 DoImage3 XE 12 IMLRBT RGBData false [1 0] [0 1 0 1 0 1] 2 DoImage3 XF 12 IMRLTB RGBData false [1 0] [0 1 0 1 0 1] 2 DoImage3 XG 12 IMRLBT RGBData false [1 0] [0 1 0 1 0 1] 2 DoImage3 XH 12 IMLRTB RGBDProc false [1 0] [0 1 0 1 0 1] 2 DoImage3 XI 12 IMLRTB RGBDFile false [1 0] [0 1 0 1 0 1] 2 DoImage3 RGBData (RGB) RGBDF CheckFileTail % Check that the correct amount of data was consumed % ---------------------------------------------------------------------- % InterleaveType 2, BPC==4, WM=WD, HM=HD /YY YF def TX YY SY add moveto (\nIntType 2\nBPC=4) blockshow % Generate the Data Image (uses the MaskData) /BPL WD 12 mul 7 add 8 div cvi WB add def % BytesPerLine /RGBData BPL HD mul string def { X 12 mul 8 div Y BPL mul add WB add X 0 eq { RGBData 1 index WB sub cvi MaskData Y WB mul WB getinterval putinterval } if RGBData dup 2 index R put4bit dup 2 index 0.5 add G put4bit exch 1.0 add B put4bit } ImageGen % X BPC matrix source multi MaskDecode DataDecode IT DoImage3 - XA 4 IMLRTB RGBData false [0 1] [1 0 1 0 1 0] 2 DoImage3 XB 4 IMLRTB RGBData false [1 0] [1 0 1 0 1 0] 2 DoImage3 XC 4 IMLRTB RGBData false [0 1] [0 1 0 1 0 1] 2 DoImage3 XD 4 IMLRTB RGBData false [1 0] [0 1 0 1 0 1] 2 DoImage3 XE 4 IMLRBT RGBData false [1 0] [0 1 0 1 0 1] 2 DoImage3 XF 4 IMRLTB RGBData false [1 0] [0 1 0 1 0 1] 2 DoImage3 XG 4 IMRLBT RGBData false [1 0] [0 1 0 1 0 1] 2 DoImage3 XH 4 IMLRTB RGBDProc false [1 0] [0 1 0 1 0 1] 2 DoImage3 XI 4 IMLRTB RGBDFile false [1 0] [0 1 0 1 0 1] 2 DoImage3 RGBData (RGB) RGBDF CheckFileTail % Check that the correct amount of data was consumed % ---------------------------------------------------------------------- % InterleaveType 2, BPC==8, WM=.6*WD, HM=HD/2 % IT 2 is line interleave -- Mask line follwoed by Data line % RGB Image Data must be chunky (MultipleDatasources==false). /YY YG def TX YY SY add moveto (\nIntType 2\nBPC=8\nWM=.6*WD\nHM=HD/2) blockshow % Generate the MaskData first /WM WD .6 mul cvi def /HM HD 2 div cvi def /saveHD HD def /HD HM 2 mul def % make HD even for this exercise MaskGen % Generate the Data Image (uses the MaskData) /BPL WD 3 mul def % BytesPerLine RGB Data /RGBData BPL HD mul WB HM mul add string def { X 3 mul Y BPL mul add Y 2 div cvi 1 add WB mul add % 3 bytes Red,Green,Blue + Mask X 0 eq Y 1 and 0 eq and { % Do one row of Mask every other image row RGBData 1 index WB sub MaskData Y 2 div cvi WB mul WB getinterval putinterval } if RGBData dup 2 index R 255 mul cvi put dup 2 index 1 add G 255 mul cvi put exch 2 add B 255 mul cvi put } ImageGen %DEBUG /xx (xx) (w) file def %DEBUG 0 1 HM 1 sub { MaskData exch WB mul WB getinterval xx exch writehexstring xx (\n) writestring } for %DEBUG xx (----------------------------------------------------------------\n) writestring %DEBUG 0 2 HD 1 sub { %DEBUG RGBData 1 index BPL mul 2 index 2 div cvi WB mul add %DEBUG WB getinterval xx exch writehexstring xx (\n) writestring %DEBUG RGBData 1 index BPL mul 2 index 2 div cvi 1 add WB mul add %DEBUG BPL getinterval xx exch writehexstring xx (\n) writestring %DEBUG RGBData 1 index 1 add BPL mul 2 index 2 div cvi 1 add WB mul add %DEBUG BPL getinterval xx exch writehexstring xx (\n) writestring %DEBUG pop %DEBUG } for %DEBUG xx closefile % X BPC matrix source multi MaskDecode DataDecode IT DoImage3 - XA 8 IMLRTB RGBData false [0 1] [1 0 1 0 1 0] 2 DoImage3 XB 8 IMLRTB RGBData false [1 0] [1 0 1 0 1 0] 2 DoImage3 XC 8 IMLRTB RGBData false [0 1] [0 1 0 1 0 1] 2 DoImage3 XD 8 IMLRTB RGBData false [1 0] [0 1 0 1 0 1] 2 DoImage3 XE 8 IMLRBT RGBData false [1 0] [0 1 0 1 0 1] 2 DoImage3 XF 8 IMRLTB RGBData false [1 0] [0 1 0 1 0 1] 2 DoImage3 XG 8 IMRLBT RGBData false [1 0] [0 1 0 1 0 1] 2 DoImage3 XH 8 IMLRTB RGBDProc false [1 0] [0 1 0 1 0 1] 2 DoImage3 XI 8 IMLRTB RGBDFile false [1 0] [0 1 0 1 0 1] 2 DoImage3 RGBData (RGB) RGBDF CheckFileTail % Check that the correct amount of data was consumed /HD saveHD def % put odd HD back % ---------------------------------------------------------------------- % InterleaveType 2, BPC==8, WM=1.3*WD, HM=2*HD % IT 2 is line interleave -- Mask line follwoed by Data line % RGB Image Data must be chunky (MultipleDatasources==false). /YY YH def TX YY SY add moveto (\nIntType 2\nBPC=8\nWM=1.3*WD\nHM=2*HD) blockshow % Generate the MaskData first /WM WD 1.3 mul cvi def /HM HD 2 mul def MaskGen % Generate the Data Image (uses the MaskData) /HR HM HD div cvi def /BPL WD 3 mul WB HR mul add cvi def % BytesPerLine /RGBData BPL HD mul string def { X 3 mul Y BPL mul add WB HR mul add % 3 bytes Red,Green,Blue + Mask Bytes X 0 eq { % Do HM/HD rows of Mask RGBData 1 index WB HR mul sub MaskData Y WB HR mul mul WB HR mul getinterval putinterval } if RGBData dup 2 index R 255 mul cvi put dup 2 index 1 add G 255 mul cvi put exch 2 add B 255 mul cvi put } ImageGen % X BPC matrix source multi MaskDecode DataDecode IT DoImage3 - XA 8 IMLRTB RGBData false [0 1] [1 0 1 0 1 0] 2 DoImage3 XB 8 IMLRTB RGBData false [1 0] [1 0 1 0 1 0] 2 DoImage3 XC 8 IMLRTB RGBData false [0 1] [0 1 0 1 0 1] 2 DoImage3 XD 8 IMLRTB RGBData false [1 0] [0 1 0 1 0 1] 2 DoImage3 XE 8 IMLRBT RGBData false [1 0] [0 1 0 1 0 1] 2 DoImage3 XF 8 IMRLTB RGBData false [1 0] [0 1 0 1 0 1] 2 DoImage3 XG 8 IMRLBT RGBData false [1 0] [0 1 0 1 0 1] 2 DoImage3 XH 8 IMLRTB RGBDProc false [1 0] [0 1 0 1 0 1] 2 DoImage3 XI 8 IMLRTB RGBDFile false [1 0] [0 1 0 1 0 1] 2 DoImage3 RGBData (RGB) RGBDF CheckFileTail % Check that the correct amount of data was consumed % ---------------------------------------------------------------------- % InterleaveType 2, BPC==12, WM=1.3*WD, HM=2*HD /YY YI def TX YY SY add moveto (\nIntType 2\nBPC=12\nWM=1.3*WD\nHM=2*HD) blockshow % Generate the Data Image (uses the MaskData) /HR HM HD div cvi def /BPL WD 36 mul 7 add 8 div cvi WB HR mul add def % BytesPerLine /RGBData BPL HD mul string def { X 36 mul 8 div Y BPL mul add WB HR mul add X 0 eq { RGBData 1 index WB HR mul sub cvi MaskData Y WB HR mul mul WB HR mul getinterval putinterval } if RGBData dup 2 index R put12bit dup 2 index 1.5 add G put12bit exch 3.0 add B put12bit } ImageGen % X BPC matrix source multi MaskDecode DataDecode IT DoImage3 - XA 12 IMLRTB RGBData false [0 1] [1 0 1 0 1 0] 2 DoImage3 XB 12 IMLRTB RGBData false [1 0] [1 0 1 0 1 0] 2 DoImage3 XC 12 IMLRTB RGBData false [0 1] [0 1 0 1 0 1] 2 DoImage3 XD 12 IMLRTB RGBData false [1 0] [0 1 0 1 0 1] 2 DoImage3 XE 12 IMLRBT RGBData false [1 0] [0 1 0 1 0 1] 2 DoImage3 XF 12 IMRLTB RGBData false [1 0] [0 1 0 1 0 1] 2 DoImage3 XG 12 IMRLBT RGBData false [1 0] [0 1 0 1 0 1] 2 DoImage3 XH 12 IMLRTB RGBDProc false [1 0] [0 1 0 1 0 1] 2 DoImage3 XI 12 IMLRTB RGBDFile false [1 0] [0 1 0 1 0 1] 2 DoImage3 RGBData (RGB) RGBDF CheckFileTail % Check that the correct amount of data was consumed % ---------------------------------------------------------------------- % InterleaveType 2, BPC==4, WM=1.3*WD, HM=2*HD /YY YJ def TX YY SY add moveto (\nIntType 2\nBPC=4\nWM=1.3*WD\nHM=2*HD) blockshow % Generate the Data Image (uses the MaskData) /HR HM HD div cvi def /BPL WD 12 mul 7 add 8 div cvi WB HR mul add def % BytesPerLine /RGBData BPL HD mul string def { X 12 mul 8 div Y BPL mul add WB HR mul add X 0 eq { RGBData 1 index WB HR mul sub cvi MaskData Y WB HR mul mul WB HR mul getinterval putinterval } if RGBData dup 2 index R put4bit dup 2 index 0.5 add G put4bit exch 1.0 add B put4bit } ImageGen % X BPC matrix source multi MaskDecode DataDecode IT DoImage3 - XA 4 IMLRTB RGBData false [0 1] [1 0 1 0 1 0] 2 DoImage3 XB 4 IMLRTB RGBData false [1 0] [1 0 1 0 1 0] 2 DoImage3 XC 4 IMLRTB RGBData false [0 1] [0 1 0 1 0 1] 2 DoImage3 XD 4 IMLRTB RGBData false [1 0] [0 1 0 1 0 1] 2 DoImage3 XE 4 IMLRBT RGBData false [1 0] [0 1 0 1 0 1] 2 DoImage3 XF 4 IMRLTB RGBData false [1 0] [0 1 0 1 0 1] 2 DoImage3 XG 4 IMRLBT RGBData false [1 0] [0 1 0 1 0 1] 2 DoImage3 XH 4 IMLRTB RGBDProc false [1 0] [0 1 0 1 0 1] 2 DoImage3 XI 4 IMLRTB RGBDFile false [1 0] [0 1 0 1 0 1] 2 DoImage3 RGBData (RGB) RGBDF CheckFileTail % Check that the correct amount of data was consumed showpage % ---------------------------------------------------------------------- % Use an unusual (unpleasant?) underlying color .6 .95 .4 setrgbcolor clippath fill 0 0 0 setrgbcolor TitleFont setfont 200 760 moveto (Image Type 3 Tests) show 200 740 moveto (Rotation Angle = ) show IR 3 string cvs show 200 720 moveto (InterleaveType 3) show 170 700 moveto (Colorspace = ) show CSpaceName show LegendFont setfont .4 .1 .7 setrgbcolor % contrasting color for stencil masking % ---------------------------------------------------------------------- % InterleaveType 3, BPC==8, WM=WD, HM=HD % IT 3 is line interleave -- Mask and Data in separate sources % RGB Image Data chunky (MultipleDatasources==false). /YY YA def TX YY SY add moveto (BPC=8\nMulti\nfalse) blockshow % Generate the MaskData first /WM WD def /HM HD def MaskGen % Generate the Data Image /RGBData WD HD mul 3 mul string def { X Y WD mul add 3 mul RGBData dup 2 index R 255 mul cvi put dup 2 index 1 add G 255 mul cvi put exch 2 add B 255 mul cvi put } ImageGen % X BPC matrix source multi MaskDecode DataDecode IT DoImage3 - XA 8 IMLRTB [ MaskData RGBData ] false [0 1] [1 0 1 0 1 0] 3 DoImage3 XB 8 IMLRTB [ MaskData RGBData ] false [1 0] [1 0 1 0 1 0] 3 DoImage3 XC 8 IMLRTB [ MaskData RGBData ] false [0 1] [0 1 0 1 0 1] 3 DoImage3 XD 8 IMLRTB [ MaskData RGBData ] false [1 0] [0 1 0 1 0 1] 3 DoImage3 XE 8 IMLRBT [ MaskData RGBData ] false [1 0] [0 1 0 1 0 1] 3 DoImage3 XF 8 IMRLTB [ MaskData RGBData ] false [1 0] [0 1 0 1 0 1] 3 DoImage3 XG 8 IMRLBT [ MaskData RGBData ] false [1 0] [0 1 0 1 0 1] 3 DoImage3 XH 8 IMLRTB [ MaskDProc RGBDProc ] false [1 0] [0 1 0 1 0 1] 3 DoImage3 XI 8 IMLRTB [ MaskDFile RGBDFile ] false [1 0] [0 1 0 1 0 1] 3 DoImage3 MaskData (Mask) MDF CheckFileTail % Check that the correct amount of data was consumed RGBData (RGB) RGBDF CheckFileTail % Check that the correct amount of data was consumed % ---------------------------------------------------------------------- % InterleaveType 3, BPC==12, WM=WD, HM=HD /YY YB def TX YY SY add moveto (BPC=12\nMulti\nfalse) blockshow /RGBData WD 36 mul 7 add 8 div cvi HD mul string def { X 36 mul 8 div Y WD 36 mul 7 add 8 div cvi mul add RGBData 1 index R put12bit RGBData 1 index 1.5 add G put12bit RGBData exch 3 add B put12bit } ImageGen % X BPC matrix source multi MaskDecode DataDecode IT DoImage3 - XA 12 IMLRTB [ MaskData RGBData ] false [0 1] [1 0 1 0 1 0] 3 DoImage3 XB 12 IMLRTB [ MaskData RGBData ] false [1 0] [1 0 1 0 1 0] 3 DoImage3 XC 12 IMLRTB [ MaskData RGBData ] false [0 1] [0 1 0 1 0 1] 3 DoImage3 XD 12 IMLRTB [ MaskData RGBData ] false [1 0] [0 1 0 1 0 1] 3 DoImage3 XE 12 IMLRBT [ MaskData RGBData ] false [1 0] [0 1 0 1 0 1] 3 DoImage3 XF 12 IMRLTB [ MaskData RGBData ] false [1 0] [0 1 0 1 0 1] 3 DoImage3 XG 12 IMRLBT [ MaskData RGBData ] false [1 0] [0 1 0 1 0 1] 3 DoImage3 XH 12 IMLRTB [ MaskDProc RGBDProc ] false [1 0] [0 1 0 1 0 1] 3 DoImage3 XI 12 IMLRTB [ MaskDFile RGBDFile ] false [1 0] [0 1 0 1 0 1] 3 DoImage3 MaskData (Mask) MDF CheckFileTail % Check that the correct amount of data was consumed RGBData (RGB) RGBDF CheckFileTail % Check that the correct amount of data was consumed % ---------------------------------------------------------------------- % InterleaveType 3, BPC==4, WM=WD, HM=HD /YY YC def TX YY SY add moveto (BPC=4\nMulti\nfalse) blockshow /RGBData WD 12 mul 7 add 8 div cvi HD mul string def { X 12 mul 8 div Y WD 12 mul 7 add 8 div cvi mul add RGBData 1 index R put4bit RGBData 1 index 0.5 add G put4bit RGBData exch 1.0 add B put4bit } ImageGen % X BPC matrix source multi MaskDecode DataDecode IT DoImage3 - XA 4 IMLRTB [ MaskData RGBData ] false [0 1] [1 0 1 0 1 0] 3 DoImage3 XB 4 IMLRTB [ MaskData RGBData ] false [1 0] [1 0 1 0 1 0] 3 DoImage3 XC 4 IMLRTB [ MaskData RGBData ] false [0 1] [0 1 0 1 0 1] 3 DoImage3 XD 4 IMLRTB [ MaskData RGBData ] false [1 0] [0 1 0 1 0 1] 3 DoImage3 XE 4 IMLRBT [ MaskData RGBData ] false [1 0] [0 1 0 1 0 1] 3 DoImage3 XF 4 IMRLTB [ MaskData RGBData ] false [1 0] [0 1 0 1 0 1] 3 DoImage3 XG 4 IMRLBT [ MaskData RGBData ] false [1 0] [0 1 0 1 0 1] 3 DoImage3 XH 4 IMLRTB [ MaskDProc RGBDProc ] false [1 0] [0 1 0 1 0 1] 3 DoImage3 XI 4 IMLRTB [ MaskDFile RGBDFile ] false [1 0] [0 1 0 1 0 1] 3 DoImage3 MaskData (Mask) MDF CheckFileTail % Check that the correct amount of data was consumed RGBData (RGB) RGBDF CheckFileTail % Check that the correct amount of data was consumed % ---------------------------------------------------------------------- % InterleaveType 3, BPC==8, WM=WD, HM=HD % IT 3 is line interleave -- Mask and Data in separate sources % RGB Image Data seprate (MultipleDatasources==true). /YY YA def TX YY SY add moveto (BPC=8\nMulti\ntrue) blockshow % Generate the MaskData first MaskGen % Generate the Data Image WD HD mul /RData 1 index string def /GData 1 index string def /BData exch string def { X Y WD mul add RData 1 index R 255 mul cvi put GData 1 index G 255 mul cvi put BData exch B 255 mul cvi put } ImageGen % X BPC matrix source multi MaskDecode DataDecode IT DoImage3 - XA 8 IMLRTB [ MaskData [RData GData BData] ] true [0 1] [1 0 1 0 1 0] 3 DoImage3 XB 8 IMLRTB [ MaskData [RData GData BData] ] true [1 0] [1 0 1 0 1 0] 3 DoImage3 XC 8 IMLRTB [ MaskData [RData GData BData] ] true [0 1] [0 1 0 1 0 1] 3 DoImage3 XD 8 IMLRTB [ MaskData [RData GData BData] ] true [1 0] [0 1 0 1 0 1] 3 DoImage3 XE 8 IMLRBT [ MaskData [RData GData BData] ] true [1 0] [0 1 0 1 0 1] 3 DoImage3 XF 8 IMRLTB [ MaskData [RData GData BData] ] true [1 0] [0 1 0 1 0 1] 3 DoImage3 XG 8 IMRLBT [ MaskData [RData GData BData] ] true [1 0] [0 1 0 1 0 1] 3 DoImage3 XH 8 IMLRTB [ MaskDProc [RDProc GDProc BDProc]] true [1 0] [0 1 0 1 0 1] 3 DoImage3 XI 8 IMLRTB [ MaskDFile [RDFile GDFile BDFile]] true [1 0] [0 1 0 1 0 1] 3 DoImage3 MaskData (Mask) MDF CheckFileTail % Check that the correct amount of data was consumed RData (Red) RDF CheckFileTail % Check that the correct amount of data was consumed GData (Grn) GDF CheckFileTail % Check that the correct amount of data was consumed BData (Blu) BDF CheckFileTail % Check that the correct amount of data was consumed % ---------------------------------------------------------------------- % InterleaveType 3, BPC==8, WM=WD, HM=HD % IT 3 is line interleave -- Mask and Data in separate sources % RGB Image Data seprate (MultipleDatasources==true). /YY YD def TX YY SY add moveto (BPC=8\nMulti\ntrue) blockshow % Generate the MaskData first MaskGen % Generate the Data Image WD HD mul /RData 1 index string def /GData 1 index string def /BData exch string def { X Y WD mul add RData 1 index R 255 mul cvi put GData 1 index G 255 mul cvi put BData exch B 255 mul cvi put } ImageGen % X BPC matrix source multi MaskDecode DataDecode IT DoImage3 - XA 8 IMLRTB [ MaskData [RData GData BData] ] true [0 1] [1 0 1 0 1 0] 3 DoImage3 XB 8 IMLRTB [ MaskData [RData GData BData] ] true [1 0] [1 0 1 0 1 0] 3 DoImage3 XC 8 IMLRTB [ MaskData [RData GData BData] ] true [0 1] [0 1 0 1 0 1] 3 DoImage3 XD 8 IMLRTB [ MaskData [RData GData BData] ] true [1 0] [0 1 0 1 0 1] 3 DoImage3 XE 8 IMLRBT [ MaskData [RData GData BData] ] true [1 0] [0 1 0 1 0 1] 3 DoImage3 XF 8 IMRLTB [ MaskData [RData GData BData] ] true [1 0] [0 1 0 1 0 1] 3 DoImage3 XG 8 IMRLBT [ MaskData [RData GData BData] ] true [1 0] [0 1 0 1 0 1] 3 DoImage3 XH 8 IMLRTB [ MaskDProc [RDProc GDProc BDProc]] true [1 0] [0 1 0 1 0 1] 3 DoImage3 XI 8 IMLRTB [ MaskDFile [RDFile GDFile BDFile]] true [1 0] [0 1 0 1 0 1] 3 DoImage3 MaskData (Mask) MDF CheckFileTail % Check that the correct amount of data was consumed RData (Red) RDF CheckFileTail % Check that the correct amount of data was consumed GData (Grn) GDF CheckFileTail % Check that the correct amount of data was consumed BData (Blu) BDF CheckFileTail % Check that the correct amount of data was consumed % ---------------------------------------------------------------------- % InterleaveType 3, BPC==12, WM=WD, HM=HD /YY YE def TX YY SY add moveto (BPC=12\nMulti\ntrue) blockshow WD 3 mul 1 add 2 div cvi HD mul /RData 1 index string def /GData 1 index string def /BData exch string def { X 3 mul 2 div Y WD 3 mul 1 add 2 div cvi mul add RData 1 index R put12bit GData 1 index G put12bit BData exch B put12bit } ImageGen % X BPC matrix source multi MaskDecode DataDecode IT DoImage3 - XA 12 IMLRTB [ MaskData [RData GData BData] ] true [0 1] [1 0 1 0 1 0] 3 DoImage3 XB 12 IMLRTB [ MaskData [RData GData BData] ] true [1 0] [1 0 1 0 1 0] 3 DoImage3 XC 12 IMLRTB [ MaskData [RData GData BData] ] true [0 1] [0 1 0 1 0 1] 3 DoImage3 XD 12 IMLRTB [ MaskData [RData GData BData] ] true [1 0] [0 1 0 1 0 1] 3 DoImage3 XE 12 IMLRBT [ MaskData [RData GData BData] ] true [1 0] [0 1 0 1 0 1] 3 DoImage3 XF 12 IMRLTB [ MaskData [RData GData BData] ] true [1 0] [0 1 0 1 0 1] 3 DoImage3 XG 12 IMRLBT [ MaskData [RData GData BData] ] true [1 0] [0 1 0 1 0 1] 3 DoImage3 XH 12 IMLRTB [ MaskDProc [RDProc GDProc BDProc]] true [1 0] [0 1 0 1 0 1] 3 DoImage3 XI 12 IMLRTB [ MaskDFile [RDFile GDFile BDFile]] true [1 0] [0 1 0 1 0 1] 3 DoImage3 MaskData (Mask) MDF CheckFileTail % Check that the correct amount of data was consumed RData (Red) RDF CheckFileTail % Check that the correct amount of data was consumed GData (Grn) GDF CheckFileTail % Check that the correct amount of data was consumed BData (Blu) BDF CheckFileTail % Check that the correct amount of data was consumed % ---------------------------------------------------------------------- % InterleaveType 3, BPC==4, WM=WD, HM=HD /YY YF def TX YY SY add moveto (BPC=4\nMulti\ntrue) blockshow WD 1 add 2 div cvi HD mul /RData 1 index string def /GData 1 index string def /BData exch string def { X 2 div Y WD 1 add 2 div cvi mul add RData 1 index R put4bit GData 1 index G put4bit BData exch B put4bit } ImageGen % X BPC matrix source multi MaskDecode DataDecode IT DoImage3 - XA 4 IMLRTB [ MaskData [RData GData BData] ] true [0 1] [1 0 1 0 1 0] 3 DoImage3 XB 4 IMLRTB [ MaskData [RData GData BData] ] true [1 0] [1 0 1 0 1 0] 3 DoImage3 XC 4 IMLRTB [ MaskData [RData GData BData] ] true [0 1] [0 1 0 1 0 1] 3 DoImage3 XD 4 IMLRTB [ MaskData [RData GData BData] ] true [1 0] [0 1 0 1 0 1] 3 DoImage3 XE 4 IMLRBT [ MaskData [RData GData BData] ] true [1 0] [0 1 0 1 0 1] 3 DoImage3 XF 4 IMRLTB [ MaskData [RData GData BData] ] true [1 0] [0 1 0 1 0 1] 3 DoImage3 XG 4 IMRLBT [ MaskData [RData GData BData] ] true [1 0] [0 1 0 1 0 1] 3 DoImage3 XH 4 IMLRTB [ MaskDProc [RDProc GDProc BDProc]] true [1 0] [0 1 0 1 0 1] 3 DoImage3 XI 4 IMLRTB [ MaskDFile [RDFile GDFile BDFile]] true [1 0] [0 1 0 1 0 1] 3 DoImage3 MaskData (Mask) MDF CheckFileTail % Check that the correct amount of data was consumed RData (Red) RDF CheckFileTail % Check that the correct amount of data was consumed GData (Grn) GDF CheckFileTail % Check that the correct amount of data was consumed BData (Blu) BDF CheckFileTail % Check that the correct amount of data was consumed % ---------------------------------------------------------------------- % InterleaveType 3, BPC==8, WM=.9*WD, HM=1.1*HD % IT 3 is line interleave -- Mask and Data in separate sources % RGB Image Data seprate (MultipleDatasources==true). /YY YG def TX YY SY add moveto (BPC=8\nMulti\ntrue\nWM=.9*WD\nHM=1.1*HD) blockshow /WM 0.9 WD mul cvi def /HM 1.1 HD mul cvi def % Generate the MaskData first MaskGen % Generate the Data Image WD HD mul /RData 1 index string def /GData 1 index string def /BData exch string def { X Y WD mul add RData 1 index R 255 mul cvi put GData 1 index G 255 mul cvi put BData exch B 255 mul cvi put } ImageGen % X BPC matrix source multi MaskDecode DataDecode IT DoImage3 - XA 8 IMLRTB [ MaskData [RData GData BData] ] true [0 1] [1 0 1 0 1 0] 3 DoImage3 XB 8 IMLRTB [ MaskData [RData GData BData] ] true [1 0] [1 0 1 0 1 0] 3 DoImage3 XC 8 IMLRTB [ MaskData [RData GData BData] ] true [0 1] [0 1 0 1 0 1] 3 DoImage3 XD 8 IMLRTB [ MaskData [RData GData BData] ] true [1 0] [0 1 0 1 0 1] 3 DoImage3 XE 8 IMLRBT [ MaskData [RData GData BData] ] true [1 0] [0 1 0 1 0 1] 3 DoImage3 XF 8 IMRLTB [ MaskData [RData GData BData] ] true [1 0] [0 1 0 1 0 1] 3 DoImage3 XG 8 IMRLBT [ MaskData [RData GData BData] ] true [1 0] [0 1 0 1 0 1] 3 DoImage3 XH 8 IMLRTB [ MaskDProc [RDProc GDProc BDProc]] true [1 0] [0 1 0 1 0 1] 3 DoImage3 XI 8 IMLRTB [ MaskDFile [RDFile GDFile BDFile]] true [1 0] [0 1 0 1 0 1] 3 DoImage3 MaskData (Mask) MDF CheckFileTail % Check that the correct amount of data was consumed RData (Red) RDF CheckFileTail % Check that the correct amount of data was consumed GData (Grn) GDF CheckFileTail % Check that the correct amount of data was consumed BData (Blu) BDF CheckFileTail % Check that the correct amount of data was consumed % ---------------------------------------------------------------------- % InterleaveType 3, BPC==12, WM=WD, HM=HD /YY YI def TX YY SY add moveto (BPC=12\nMulti\ntrue\nWM=.9*WD\nHM=1.1*HD) blockshow WD 3 mul 1 add 2 div cvi HD mul /RData 1 index string def /GData 1 index string def /BData exch string def { X 3 mul 2 div Y WD 3 mul 1 add 2 div cvi mul add RData 1 index R put12bit GData 1 index G put12bit BData exch B put12bit } ImageGen % X BPC matrix source multi MaskDecode DataDecode IT DoImage3 - XA 12 IMLRTB [ MaskData [RData GData BData] ] true [0 1] [1 0 1 0 1 0] 3 DoImage3 XB 12 IMLRTB [ MaskData [RData GData BData] ] true [1 0] [1 0 1 0 1 0] 3 DoImage3 XC 12 IMLRTB [ MaskData [RData GData BData] ] true [0 1] [0 1 0 1 0 1] 3 DoImage3 XD 12 IMLRTB [ MaskData [RData GData BData] ] true [1 0] [0 1 0 1 0 1] 3 DoImage3 XE 12 IMLRBT [ MaskData [RData GData BData] ] true [1 0] [0 1 0 1 0 1] 3 DoImage3 XF 12 IMRLTB [ MaskData [RData GData BData] ] true [1 0] [0 1 0 1 0 1] 3 DoImage3 XG 12 IMRLBT [ MaskData [RData GData BData] ] true [1 0] [0 1 0 1 0 1] 3 DoImage3 XH 12 IMLRTB [ MaskDProc [RDProc GDProc BDProc]] true [1 0] [0 1 0 1 0 1] 3 DoImage3 XI 12 IMLRTB [ MaskDFile [RDFile GDFile BDFile]] true [1 0] [0 1 0 1 0 1] 3 DoImage3 MaskData (Mask) MDF CheckFileTail % Check that the correct amount of data was consumed RData (Red) RDF CheckFileTail % Check that the correct amount of data was consumed GData (Grn) GDF CheckFileTail % Check that the correct amount of data was consumed BData (Blu) BDF CheckFileTail % Check that the correct amount of data was consumed % ---------------------------------------------------------------------- % InterleaveType 3, BPC==4, WM=WD, HM=HD /YY YJ def TX YY SY add moveto (BPC=4\nMulti\ntrue\nWM=.9*WD\nHM=1.1*HD) blockshow WD 1 add 2 div cvi HD mul /RData 1 index string def /GData 1 index string def /BData exch string def { X 2 div Y WD 1 add 2 div cvi mul add RData 1 index R put4bit GData 1 index G put4bit BData exch B put4bit } ImageGen % X BPC matrix source multi MaskDecode DataDecode IT DoImage3 - XA 4 IMLRTB [ MaskData [RData GData BData] ] true [0 1] [1 0 1 0 1 0] 3 DoImage3 XB 4 IMLRTB [ MaskData [RData GData BData] ] true [1 0] [1 0 1 0 1 0] 3 DoImage3 XC 4 IMLRTB [ MaskData [RData GData BData] ] true [0 1] [0 1 0 1 0 1] 3 DoImage3 XD 4 IMLRTB [ MaskData [RData GData BData] ] true [1 0] [0 1 0 1 0 1] 3 DoImage3 XE 4 IMLRBT [ MaskData [RData GData BData] ] true [1 0] [0 1 0 1 0 1] 3 DoImage3 XF 4 IMRLTB [ MaskData [RData GData BData] ] true [1 0] [0 1 0 1 0 1] 3 DoImage3 XG 4 IMRLBT [ MaskData [RData GData BData] ] true [1 0] [0 1 0 1 0 1] 3 DoImage3 XH 4 IMLRTB [ MaskDProc [RDProc GDProc BDProc]] true [1 0] [0 1 0 1 0 1] 3 DoImage3 XI 4 IMLRTB [ MaskDFile [RDFile GDFile BDFile]] true [1 0] [0 1 0 1 0 1] 3 DoImage3 MaskData (Mask) MDF CheckFileTail % Check that the correct amount of data was consumed RData (Red) RDF CheckFileTail % Check that the correct amount of data was consumed GData (Grn) GDF CheckFileTail % Check that the correct amount of data was consumed BData (Blu) BDF CheckFileTail % Check that the correct amount of data was consumed % ---------------------------------------------------------------------- % InterleaveType 3, BPC==8, WM=1.1*WD, HM=.9*HD % IT 3 is line interleave -- Mask and Data in separate sources % RGB Image Data seprate (MultipleDatasources==true). /YY YH def TX YY SY add moveto (BPC=8\nMulti\ntrue\nWM=1.1*WD\nHM=.9*HD) blockshow /WM 1.1 WD mul cvi def /HM 0.9 HD mul cvi def % Generate the MaskData first MaskGen % Generate the Data Image WD HD mul /RData 1 index string def /GData 1 index string def /BData exch string def { X Y WD mul add RData 1 index R 255 mul cvi put GData 1 index G 255 mul cvi put BData exch B 255 mul cvi put } ImageGen % X BPC matrix source multi MaskDecode DataDecode IT DoImage3 - XA 8 IMLRTB [ MaskData [RData GData BData] ] true [0 1] [1 0 1 0 1 0] 3 DoImage3 XB 8 IMLRTB [ MaskData [RData GData BData] ] true [1 0] [1 0 1 0 1 0] 3 DoImage3 XC 8 IMLRTB [ MaskData [RData GData BData] ] true [0 1] [0 1 0 1 0 1] 3 DoImage3 XD 8 IMLRTB [ MaskData [RData GData BData] ] true [1 0] [0 1 0 1 0 1] 3 DoImage3 XE 8 IMLRBT [ MaskData [RData GData BData] ] true [1 0] [0 1 0 1 0 1] 3 DoImage3 XF 8 IMRLTB [ MaskData [RData GData BData] ] true [1 0] [0 1 0 1 0 1] 3 DoImage3 XG 8 IMRLBT [ MaskData [RData GData BData] ] true [1 0] [0 1 0 1 0 1] 3 DoImage3 XH 8 IMLRTB [ MaskDProc [RDProc GDProc BDProc]] true [1 0] [0 1 0 1 0 1] 3 DoImage3 XI 8 IMLRTB [ MaskDFile [RDFile GDFile BDFile]] true [1 0] [0 1 0 1 0 1] 3 DoImage3 MaskData (Mask) MDF CheckFileTail % Check that the correct amount of data was consumed RData (Red) RDF CheckFileTail % Check that the correct amount of data was consumed GData (Grn) GDF CheckFileTail % Check that the correct amount of data was consumed BData (Blu) BDF CheckFileTail % Check that the correct amount of data was consumed showpage } bind def % T3Tests % ---------------------------------------------------------------------- % Do the various rotations % /CSpace /DeviceRGB def [ 0 10 -10 45 90 180 270 ] pop [ 0 ] % delete this line to enable tests { /IR exch def T1T4Tests } forall [ 0 10 -10 45 90 180 270 ] pop [ 0 ] % delete this line to enable tests { /IR exch def T3Tests } forall /CSpace [ /DeviceN [/Blue /Red /Green] /DeviceRGB { } ] def [ 0 10 -10 45 90 180 270 ] pop [ 0 ] % delete this line to enable tests { /IR exch def T1T4Tests } forall [ 0 10 -10 45 90 180 270 ] pop [ 0 ] % delete this line to enable tests { /IR exch def T3Tests } forall