ref: 9861f1a92b373a16939fd6f3c167e5dad9f253d3
dir: /sys/src/cmd/gs/lib/gs_dps2.ps/
% Copyright (C) 1990, 1996, 1997, 1998, 2000 Aladdin Enterprises. 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. % % For more information about licensing, please refer to % http://www.ghostscript.com/licensing/. For information on % commercial licensing, go to http://www.artifex.com/licensing/ or % contact Artifex Software, Inc., 101 Lucas Valley Road #110, % San Rafael, CA 94903, U.S.A., +1(415)492-9861. % $Id: gs_dps2.ps,v 1.5 2002/02/21 21:49:28 giles Exp $ % Initialization file for basic Display PostScript functions % that are also included in Level 2. level2dict begin % ------ Halftones ------ % /.makestackdict { { counttomark -1 roll } forall .dicttomark } bind def /currenthalftone % - currenthalftone <dict> { mark .currenthalftone { { exch pop } % halftone { /HalftoneType 1 % screen { /Frequency /Angle /SpotFunction } .makestackdict } { /HalftoneType 2 % colorscreen { /RedFrequency /RedAngle /RedSpotFunction /GreenFrequency /GreenAngle /GreenSpotFunction /BlueFrequency /BlueAngle /BlueSpotFunction /GrayFrequency /GrayAngle /GraySpotFunction } .makestackdict } } exch get exec } odef % Define sethalftone so it converts types 1-4 to type 5. /.makehalftoneRGBV { % <dict> <type> <keys> <keysRGBV> 4 -1 roll exch { 1 index exch get exch } forall 15 1 roll 14 -2 roll mark 15 1 roll { /Gray /Blue /Green /Red } { % stack: v0 v1 v2 type keys comp mark 2 index 0 get 8 -1 roll 4 index 1 get 9 -1 roll 6 index 2 get 10 -1 roll % stack: type keys comp mark k0 v0 k1 v1 k2 v2 /HalftoneType 10 index .dicttomark counttomark 2 roll } forall pop pop /Default 1 index .dicttomark exch pop { .sethalftone5 } } bind def % The value of each entry in .halftonetypes is a procedure: % <setdict> <htdict> <<proc>> <setdict'> <htdict'> <sethalftoneproc> % This allows us to use these procedures both for actually implementing % sethalftone and for converting subsidiary dictionaries of HalftoneType 5 % halftones. systemdict begin 15 dict /.halftonetypes 1 index def begin 1 { mark exch /Default exch .dicttomark { .sethalftone5 } } bind def 2 { 1 { /Frequency /Angle /SpotFunction } { /RedFrequency /RedAngle /RedSpotFunction /GreenFrequency /GreenAngle /GreenSpotFunction /BlueFrequency /BlueAngle /BlueSpotFunction /GrayFrequency /GrayAngle /GraySpotFunction } .makehalftoneRGBV } bind def 3 { mark exch /Default exch .dicttomark { .sethalftone5 } } bind def 4 { 3 { /Width /Height /Thresholds } { /RedWidth /RedHeight /RedThresholds /GreenWidth /GreenHeight /GreenThresholds /BlueWidth /BlueHeight /BlueThresholds /GrayWidth /GrayHeight /GrayThresholds } .makehalftoneRGBV } bind def 5 { pop dup length dict copy mark 1 index { % Even HalftoneType 5 dictionaries have entries other than % subsidiary halftone dictionaries. dup type /dicttype ne { 0 } { dup /HalftoneType .knownget not { 0 } if } ifelse dup 5 gt { % Stack: dict mark ... keyN dictN httypeN % Assume that all HalftoneTypes > 5 convert to 5. 1 index 3 1 roll //.halftonetypes exch get exec pop /Default get % Stack: dict mark ... keyN setdict'N htdict'N counttomark 1 add index 3 index 4 -1 roll put } { pop } ifelse } forall .dicttomark { .sethalftone5 } } bind def end end /sethalftone { % <dict> sethalftone - % We must create the new dictionary in the same VM as the % operand; otherwise, invalidaccess errors may occur. .currentglobal 1 index dup gcheck .setglobal dup //.halftonetypes 1 index /HalftoneType get get exec exec .setglobal pop } odef % Redefine setscreen and setcolorscreen to recognize halftone dictionaries, % and to insert the Frequency and Angle into Type 1 halftones, per % Adobe TN 5085. /.fixsethalftonescreen % <freq> <angle> <dict> .fix...screen % <freq> <angle> <dict> <dict'> { dup dup /HalftoneType get 1 eq { dup wcheck not { dup length .copydict } if dup /Frequency 5 index put dup /Angle 4 index put } if } bind def /setscreen % <ignore*2> <dict> setscreen - { dup type /dicttype eq { .fixsethalftonescreen sethalftone pop pop pop } { //setscreen } ifelse } odef /setcolorscreen % <ignore*11> <dict> setcolorscreen - { dup type /dicttype eq { .fixsethalftonescreen sethalftone 12 { pop } repeat } { //setcolorscreen } ifelse } odef % Redefine currentscreen and currentcolorscreen to extract the Frequency % and Angle from Type 1 halftones, per Adobe TN 5085. /.fixcurrenthalftonescreen % <dict> .fix... <freq> <angle> <proc> { dup /HalftoneType get 1 eq { dup /Frequency get 1 index /Angle get } { 60 0 } ifelse 3 2 roll } bind def /currentscreen % - currentscreen 60 0 <dict> { .currenthalftone { { .fixcurrenthalftonescreen } % halftone { } % screen { 12 3 roll 9 { pop } repeat % colorscreen dup type /dicttype eq { .fixcurrenthalftonescreen } if } } exch get exec } odef /currentcolorscreen % - currentcolorscreen (60 0 <dict>)*4 { .currenthalftone { { .fixcurrenthalftonescreen 3 copy 6 copy } % halftone { 3 copy 6 copy } % screen { } % colorscreen } exch get exec } odef % ------ User objects ------ % /.UserObjects { .userdict /UserObjects } odef % In order to get proper error recovery behavior, we need to be careful % not to pop any operands from the stack until we're done. % The code below faithfully duplicates the apparent array-growing % behavior of Adobe interpreters. /defineuserobject { % <index> <value> defineuserobject - .UserObjects .knownget { length dup 3 index le { % Stack: index value len 2 index eq { 1 index 2 mul } { 1 index 1 add } ifelse .localvmarray .UserObjects get 1 index copy pop .UserObjects 3 -1 roll put } { pop } ifelse } { .UserObjects 3 index 1 add 10 .max .localvmarray put } ifelse .UserObjects get 2 index 2 index put pop pop } odef /execuserobject { % <index> execuserobject - .UserObjects get 1 index get exch pop exec } odef /undefineuserobject { % <index> undefineuserobject - .UserObjects get 1 index null put pop } odef % ------ Cache control ------ % % Dummy definitions for cache control operators /ucachestatus { % - ucachestatus -mark- ? ? ? ? <size> mark 0 0 0 0 .userdict /.ucachesize .knownget not { 0 } if } odef /setucacheparams { % -mark- ... <size> setucacheparams - % Provoke an appropriate error if needed. counttomark 1 lt { () 0 get } if 0 or .userdict /.ucachesize 2 index 0 .max put cleartomark } odef end % level2dict