ref: 9ebd6f860e9d551e8b1c8f0a0c62bb4c1aa2c268
dir: /sys/lib/ghostscript/gs_setpd.ps/
% Copyright (C) 1994, 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_setpd.ps,v 1.27 2005/06/09 19:47:18 ray Exp $ % The current implementation of setpagedevice has the following limitations: % - It doesn't attempt to "interact with the user" for Policy = 2. languagelevel 1 .setlanguagelevel level2dict begin % ---------------- Redefinitions ---------------- % % Redefine .beginpage and .endpage so that they call BeginPage and % EndPage respectively if appropriate. % We have to guard against the BeginPage procedure not popping its operand. % This is really stupid, but the Genoa CET does it. /.beginpage { % - .beginpage - .currentshowpagecount { .currentpagedevice pop dup //null ne { /BeginPage .knownget } { pop //false } ifelse { % Stack: ... pagecount proc count 2 .execn % Stack: ... ..???.. oldcount count 1 add exch sub { pop } repeat } { pop } ifelse } if } bind odef % Guard similarly against EndPage not popping its operand. /.endpage { % <reason> .endpage <print_bool> .currentshowpagecount { 1 index .currentpagedevice pop dup //null ne { /EndPage .knownget } { pop //false } ifelse { % Stack: ... reason pagecount reason proc count 2 .execn % Stack: ... ..???.. print oldcount count 2 add exch sub { exch pop } repeat } { pop pop 2 ne } ifelse } { 2 ne } ifelse } bind odef % Define interpreter callouts for handling gstate-saving operators, % to make sure that they create a page device dictionary for use by % the corresponding gstate-restoring operator. % We'd really like to avoid the cost of doing this, but we don't see how. % The names %gsavepagedevice, %savepagedevice, %gstatepagedevice, % %copygstatepagedevice, and %currentgstatepagedevice are known to the % interpreter. (%gsavepagedevice) cvn { currentpagedevice pop gsave } bind def (%savepagedevice) cvn { currentpagedevice pop save } bind def (%gstatepagedevice) cvn { currentpagedevice pop gstate } bind def (%copygstatepagedevice) cvn { currentpagedevice pop copy } bind def (%currentgstatepagedevice) cvn { currentpagedevice pop currentgstate } bind def % Define interpreter callouts for handling gstate-restoring operators % when the current page device needs to be changed. % The names %grestorepagedevice, %grestoreallpagedevice, % %restorepagedevice, %restore1pagedevice, and %setgstatepagedevice % are known to the interpreter. /.installpagedevice { % Since setpagedevice doesn't create new device objects, % we must (carefully) reinstall the old parameters in % the same device. .currentpagedevice pop //null currentdevice //null .trysetparams dup type /booleantype eq { pop pop } { % This should never happen! SETPDDEBUG { (Error in .trysetparams!) = pstack flush } if cleartomark pop pop pop /.installpagedevice cvx /rangecheck signalerror } ifelse pop pop % A careful reading of the Red Book reveals that an erasepage % should occur, but *not* an initgraphics. erasepage .beginpage } bind def /.uninstallpagedevice { 2 .endpage { .currentnumcopies //false .outputpage } if nulldevice } bind def (%grestorepagedevice) cvn { .uninstallpagedevice grestore .installpagedevice } bind def (%grestoreallpagedevice) cvn { .uninstallpagedevice grestore .installpagedevice grestoreall } bind def (%restore1pagedevice) cvn { .uninstallpagedevice grestore .installpagedevice restore } bind def (%restorepagedevice) cvn { .uninstallpagedevice restore .installpagedevice } bind def (%setgstatepagedevice) cvn { .uninstallpagedevice setgstate .installpagedevice } bind def % Redefine .currentnumcopies so it consults the NumCopies device parameter. /.numcopiesdict mark /NumCopies dup .dicttomark readonly def /.currentnumcopies { currentdevice //.numcopiesdict .getdeviceparams dup type /integertype eq { exch pop exch pop } { cleartomark #copies } ifelse } bind odef % Redefine .currentpagedevice and .setpagedevice so they convert between % null and a fixed empty directionary. /.nullpagedevice 0 dict readonly def /.currentpagedevice { //.currentpagedevice exch dup //null eq { pop //.nullpagedevice } if exch } bind odef /.setpagedevice { dup //.nullpagedevice eq { pop //null } if //.setpagedevice } bind odef % ---------------- Auxiliary definitions ---------------- % % Define the required attributes of all page devices, and their default values. % We don't include attributes such as .MediaSize, which all devices % are guaranteed to supply on their own. /.defaultpolicies mark /PolicyNotFound 1 /PageSize 0 /PolicyReport { dup /.LockSafetyParams known { % Only possible error is invalidaccess /setpagedevice .systemvar /invalidaccess signalerror } if pop } bind .dicttomark readonly def % Note that the values of .requiredattrs are executed, not just fetched. /.requiredattrs mark /PageDeviceName //null /PageOffset [0 0] readonly % We populate InputAttributes with all of the known page sizes % followed by a dummy media type that handles pages of any size. % This will create some duplicates, but that only slightly slows % down the media selection (loop is in zmedia2.c). % % Some PostScript creators assume that slot 0 is the default media % size and some can't handle a non-standard 4-element array which % is a 'range' type page size (always put last). % % Real Devices that can only handle specific page sizes will override this. /InputAttributes { mark % First put the device's default page size in slot 0 % This satifies those that have devices built with a4 as the default 0 mark /PageSize currentdevice /PageSize gsgetdeviceprop .dicttomark statusdict /.pagetypenames get { counttomark 1 sub 2 idiv exch mark exch /PageSize exch % stack: mark --dict-- --dict-- ... key mark /PageSize pagetypename % see note above about pagetype executable array contents. load dup 0 get exch 1 get 2 array astore .dicttomark } forall % If NORANGEPAGESIZE is defined, (-dNORANGEPAGESIZE), then don't add % the 'match any' PageSize entry systemdict /NORANGEPAGESIZE known not { % Add one last entry which is the 4 element range array (non-standard) counttomark 2 idiv % PageSize with either dimension 0 will be detected in % match_page_size, so we can allow it here mark /PageSize [0 dup 16#7ffff dup] .dicttomark } if .dicttomark } (%MediaSource) 0 /OutputAttributes { mark 0 mark .dicttomark readonly .dicttomark } (%MediaDestination) 0 /Install {{.callinstall}} bind /BeginPage {{.callbeginpage}} bind /EndPage {{.callendpage}} bind /Policies .defaultpolicies /ImagingBBox //null % default value /UseCIEColor /.getuseciecolor load .dicttomark readonly def % Define currentpagedevice so it creates the dictionary on demand if needed, % adding all the required entries defined just above. % We have to deal specially with entries that the driver may change % on its own. /.dynamicppkeys mark /.MediaSize dup % because it changes when PageSize is set /PageCount dup /Colors dup /BitsPerPixel dup /ColorValues dup .dicttomark readonly def /.makecurrentpagedevice { % - .makecurrentpagedevice <dict> currentdevice //null .getdeviceparams % Make the dictionary large enough to add defaulted entries. counttomark 2 idiv .requiredattrs length add dict counttomark 2 idiv { dup 4 2 roll put } repeat exch pop % Add any missing required attributes. % Make a writable and (if possible) local copy of any default % dictionaries, to work around a bug in the output of WordPerfect, % which assumes that these dictionaries are writable and local. .currentglobal exch dup gcheck .setglobal .requiredattrs { 2 index 2 index known { 1 index /Policies eq { % Merge policies from the device driver with defaults 2 index % <<>> /key value <<>> 3 2 roll get % <<>> value <<policies>> exch { 2 index 2 index known { pop pop } { 2 index 3 1 roll put } ifelse } forall pop } { pop pop } ifelse } { exec 2 index 3 1 roll put } ifelse } forall exch .setglobal dup .setpagedevice } bind def /currentpagedevice { .currentpagedevice { dup length 0 eq { pop .makecurrentpagedevice } { % If any of the dynamic keys have changed, % we must update the page device dictionary. currentdevice //.dynamicppkeys .getdeviceparams .dicttomark { % Stack: current key value 2 index 2 index .knownget { 1 index ne } { //true } ifelse { 2 index wcheck not { % This is the first entry being updated. % Copy the dictionary to make it writable. 3 -1 roll currentglobal 1 index dup gcheck currentglobal and setglobal length dict exch setglobal .copydict 3 1 roll } if 2 index 3 1 roll put } { pop pop } ifelse } forall % If the device is the distiller device, update distillerparams that % may have been changed by setdistillerparams currentdevice .devicename /pdfwrite eq { currentdistillerparams { % Stack: current key value 2 index 2 index .knownget { 1 index ne } { //true } ifelse { 2 index 3 1 roll put } { pop pop } ifelse } forall } if % If the dictionary was global and is now local, copy % any global subsidiary dictionaries to local VM. This % too is to work around the Word Perfect bug (see above). dup gcheck not { dup { dup type /dicttype eq { dup gcheck } { //false } ifelse { % Copy-on-write, see above. 2 index wcheck not { 3 -1 roll dup length dict .copydict 3 1 roll } if .copytree 2 index 3 1 roll put } { pop pop } ifelse } forall } if % We would like to do a .setpagedevice so we don't keep % re-creating the dictionary. Unfortunately, the effect % of this is that if any dynamic key changes (PageCount % in particular), we will do the equivalent of a % setpagedevice at the next restore or grestore. % Therefore, we make the dictionary read-only, but % we don't store it away. I.e., NOT: % dup wcheck { .setpagedevice .currentpagedevice pop } if readonly } ifelse } if } bind odef % Copy a dictionary recursively. /.copytree { % <dict> .copytree <dict'> dup length dict exch { dup type /dicttype eq { .copytree } if 2 index 3 1 roll put } forall } bind def % The implementation of setpagedevice is quite complex. Currently, % everything but the media matching algorithm is implemented here. % By default, we only present the requested changes to the device, % but there are some parameters that require special merging action. % Define those parameters here, with the procedures that do the merging. % The procedures are called as follows: % <merged> <key> <new_value> -proc- <merged> <key> <new_value'> /.mergespecial mark /InputAttributes { dup //null eq { pop //null } { 3 copy pop .knownget { dup //null eq { pop dup length dict } { dup length 2 index length add dict .copydict } ifelse } { dup length dict } ifelse .copydict readonly } ifelse } bind /OutputAttributes 1 index /Policies { 3 copy pop .knownget { dup length 2 index length add dict .copydict } { dup length dict } ifelse copy readonly } bind .dicttomark readonly def % Define the keys used in input attribute matching. /.inputattrkeys [ /PageSize /MediaColor /MediaWeight /MediaType /InsertSheet /ManualFeed % The following are documented in Adobe's supplement for v2017. /LeadingEdge /MediaClass ] readonly def % Define other keys used in media selection. /.inputselectionkeys [ /MediaPosition /Orientation ] readonly def % Define the keys used in output attribute matching. /.outputattrkeys [ /OutputType ] readonly def % Define all the parameters that should always be copied to the merged % dictionary. /.copiedkeys [ /OutputDevice .mergespecial { pop } forall .inputattrkeys aload pop .inputselectionkeys aload pop .outputattrkeys aload pop ] readonly def % Define the parameters that should not be presented to the device. % The procedures are called as follows: % <merged> <key> <value> -proc- % The procedure leaves all its operands on the stack and returns % true iff the key/value pair should be presented to .putdeviceparams. /.presentspecial mark .dynamicppkeys { pop //false } forall % We must ignore an explicit request for .MediaSize, % because media matching always handles this. /.MediaSize //false /Name //false /OutputDevice //false /PageDeviceName //false /PageOffset //false /PageSize //false % obsolete alias for .MediaSize /InputAttributes //false .inputattrkeys { dup /PageSize eq { pop } { { 2 index /InputAttributes .knownget { //null eq } { //true } ifelse } } ifelse } forall .inputselectionkeys { //false } forall /OutputAttributes //false .outputattrkeys { { 2 index /OutputAttributes .knownget { //null eq } { //true } ifelse } } forall /Install //false /BeginPage //false /EndPage //false /Policies //false % Our extensions: /HWColorMap { % HACK: don't transmit the color map, because % window systems can change the color map on their own % incrementally. Someday we'll have a better % solution for this.... //false } /ViewerPreProcess //false /ImagingBBox //false % This prevents the ImagingBBox value in the setpagedevice % from affecting the device's ImagingBBox parameter, but % does retain a 'shadow' copy at the PostScript level. % This is done for Adobe compatibility since Adobe does % render marks outside the ImagingBBox (and QuarkXpress % relies on it). .dicttomark readonly def % Define access to device defaults. /.defaultdeviceparams { finddevice //null .getdeviceparams } bind def % Select media (input or output). The hard work is done in an operator: % <pagedict> <attrdict> <policydict> <keys> .matchmedia <key> true % <pagedict> <attrdict> <policydict> <keys> .matchmedia false % <pagedict> null <policydict> <keys> .matchmedia null true /.selectmedia % <orig> <request> <merged> <failed> <-- retained % <attrdict> <policydict> <attrkeys> <mediakey> % .selectmedia { 5 index 5 -2 roll 4 index .matchmedia % Stack: orig request merged failed attrkeys mediakey % (key true | false) { 4 index 3 1 roll put pop } { % Adobe's implementations have a "big hairy heuristic" % to choose the set of keys to report as having failed the match. % For the moment, we report any keys that are in the request % and don't have the same value as in the original dictionary. 5 index 1 index .knownget { 4 index 3 1 roll put } { 3 index exch .undef } ifelse { % Stack: <orig> <request> <merged> <failed> <attrkey> 3 index 1 index .knownget { 5 index 2 index .knownget { ne } { pop //true } ifelse } { //true } ifelse % Stack: ... <failed> <attrkey> <report> { 2 copy /rangecheck put } if pop } forall } ifelse } bind def % Apply Policies to any unprocessed failed requests. % As we process each request entry, we replace the error name % in the <failed> dictionary with the policy value, % and we replace the key in the <merged> dictionary with its prior value % (or remove it if it had no prior value). /.policyprocs mark % These procedures are called with the following on the stack: % <orig> <merged> <failed> <Policies> <key> <policy> % They are expected to consume the top 2 operands. % NOTE: we currently treat all values other than 0, 1, or 7 (for PageSize) % the same as 0, i.e., we signal an error. 0 { % Set errorinfo and signal a configurationerror. pop dup 4 index exch get 2 array astore $error /errorinfo 3 -1 roll put cleartomark /setpagedevice load /configurationerror signalerror } bind 1 { % Roll back the failed request to its previous status. SETPDDEBUG { (Rolling back.) = pstack flush } if 3 index 2 index 3 -1 roll put 4 index 1 index .knownget { 4 index 3 1 roll put } { 3 index exch .undef } ifelse } bind 7 { % For PageSize only, just impose the request. 1 index /PageSize eq { pop pop 1 index /PageSize 7 put } { .policyprocs 0 get exec } ifelse } bind .dicttomark readonly def /.applypolicies % <orig> <merged> <failed> .applypolicies % <orig> <merged'> <failed'> { 1 index /Policies get 1 index { type /integertype eq { pop % already processed } { 2 copy .knownget not { 1 index /PolicyNotFound get } if % Stack: <orig> <merged> <failed> <Policies> <key> % <policy> .policyprocs 1 index .knownget not { .policyprocs 0 get } if exec } ifelse } forall pop } bind def % Prepare to present parameters to the device, by spreading them onto the % operand stack and removing any that shouldn't be presented. /.prepareparams % <params> .prepareparams -mark- <key1> <value1> ... { mark exch dup { % Stack: -mark- key1 value1 ... merged key value .presentspecial 2 index .knownget { exec { 3 -1 roll } { pop pop } ifelse } { 3 -1 roll } ifelse } forall pop } bind def % Put device parameters without resetting currentpagedevice. % (.putdeviceparams clears the current page device.) /.putdeviceparamsonly % <device> <Policies|null> <require_all> -mark- % <key1> <value1> ... .putdeviceparamsonly % On success: <device> <eraseflag> % On failure: <device> <Policies|null> <req_all> -mark- % <key1> <error1> ... { .currentpagedevice { counttomark 4 add 1 roll .putdeviceparams dup type /booleantype eq { 3 } { counttomark 5 add } ifelse -1 roll .setpagedevice } { pop .putdeviceparams } ifelse } bind def % Try setting the device parameters from the merged request. /.trysetparams % <merged> <(ignored)> <device> <Policies> % .trysetparams { //true 4 index .prepareparams % Add the computed .MediaSize. % Stack: merged (ignored) device Policies -true- % -mark- key1 value1 ... counttomark 5 add index .computemediasize exch pop exch pop /.MediaSize exch SETPDDEBUG { (Putting.) = pstack flush } if .putdeviceparamsonly SETPDDEBUG { (Result of putting.) = pstack flush } if } bind def % Compute the media size and initial matrix from a merged request (after % media selection). /.computemediasize % <request> .computemediasize % <request> <matrix> <[width height]> { dup /PageSize get % requested page size 1 index /InputAttributes get 2 index (%MediaSource) get get /PageSize get % media size % (may be a range) 2 index /Policies get dup /PageSize .knownget { exch pop } { /PolicyNotFound get } ifelse % PageSize policy, % affects scaling 3 index /Orientation .knownget not { //null } if 4 index /RollFedMedia .knownget not { //false } if matrix .matchpagesize not { % This is a "can't happen" condition! /setpagedevice load /rangecheck signalerror } if 2 array astore } bind def % ---------------- setpagedevice itself ---------------- % /setpagedevice { % We mustn't pop the argument until the very end, % so that the pseudo-operator machinery can restore the stack % if an error occurs. mark 1 index currentpagedevice % Check whether we are changing OutputDevice; % also handle the case where the current device % is not a page device. % Stack: mark <request> <current> SETPDDEBUG { (Checking.) = pstack flush } if dup /OutputDevice .knownget { % Current device is a page device. 2 index /OutputDevice .knownget { % A specific OutputDevice was requested. 2 copy eq { pop pop //null } { exch pop } ifelse } { pop //null } ifelse } { % Current device is not a page device. % Use the default device. 1 index /OutputDevice .knownget not { .defaultdevicename } if } ifelse dup //null eq { pop } { exch pop .defaultdeviceparams % In case of duplicate keys, .dicttomark takes the entry % lower on the stack, so we can just append the defaults here. .requiredattrs { exec } forall .dicttomark } ifelse % Check whether a viewer wants to intervene. % We must check both the request (which takes precedence) % and the current dictionary. % Stack: mark <request> <orig> exch dup /ViewerPreProcess .knownget { exec } { 1 index /ViewerPreProcess .knownget { exec } if } ifelse exch % Construct a merged request from the actual request plus % any keys that should always be propagated. % Stack: mark <request> <orig> SETPDDEBUG { (Merging.) = pstack flush } if exch 1 index length 1 index length add dict .copiedkeys { % Stack: <orig> <request> <merged> <key> 3 index 1 index .knownget { 3 copy put pop } if pop } forall % Stack: <orig> <request> <merged> dup 2 index { % stack: <orig> <request> <merged> <merged> <rkey> <rvalue> .mergespecial 2 index .knownget { exec } if put dup } forall pop % Hack: if FIXEDRESOLUTION is true, discard any attempt to % change HWResolution. FIXEDRESOLUTION { dup /HWResolution .undef } if % Hack: if FIXEDMEDIA is true, discard any attempt to change % PageSize or HWSize. FIXEDMEDIA { dup /PageSize 4 index /PageSize get put dup /HWSize 4 index /HWSize get put } if % Hack: to work around some files that take a PageSize % from InputAttributes and impose it, discard any attempt % to set PageSize to a 4-element value. % Stack: mark <orig> <request> <merged> dup /PageSize .knownget { length 2 ne { dup /PageSize 4 index /PageSize get put } if } if % Select input and output media. % Stack: mark <orig> <request> <merged> SETPDDEBUG { (Selecting.) = pstack flush } if 0 dict % <failed> 1 index /InputAttributes .knownget { 2 index /Policies get .inputattrkeys (%MediaSource) cvn .selectmedia } if 1 index /OutputAttributes .knownget { 2 index /Policies get .outputattrkeys (%MediaDestination) cvn .selectmedia } if 3 -1 roll 4 1 roll % temporarily swap orig & request .applypolicies 3 -1 roll 4 1 roll % swap back % Construct the new device, and attempt to set its attributes. % Stack: mark <orig> <request> <merged> <failed> SETPDDEBUG { (Constructing.) = pstack flush } if currentdevice .devicename 2 index /OutputDevice get eq { currentdevice } { 1 index /OutputDevice get finddevice } ifelse %**************** We should copy the device here, %**************** but since we can't close the old device, %**************** we don't. This is WRONG. %****************copydevice 2 index /Policies get .trysetparams dup type /booleantype ne { % The request failed. % Stack: ... <orig> <request> <merged> <failed> <device> % <Policies> true mark <name> <errorname> ... SETPDDEBUG { (Recovering.) = pstack flush } if counttomark 4 add index counttomark 2 idiv { dup 4 -2 roll put } repeat pop pop pop % Stack: mark ... <orig> <request> <merged> <failed> <device> % <Policies> 6 2 roll 3 -1 roll 4 1 roll .applypolicies 3 -1 roll 4 1 roll 6 -2 roll .trysetparams % shouldn't fail! dup type /booleantype ne { 2 { counttomark 1 add 1 roll cleartomark } repeat /setpagedevice load exch signalerror } if } if % The attempt succeeded. Install the new device. % Stack: mark ... <merged> <failed> <device> <eraseflag> SETPDDEBUG { (Installing.) = pstack flush } if pop 2 .endpage { 1 //true .outputpage (>>setpagedevice, press <return> to continue<<\n) .confirm } if % .setdevice clears the current page device! .currentpagedevice pop exch .setdevice pop .setpagedevice % Implement UseCIEColor directly if this is a LL3 system. % The color substitution feature is now implemented in % the interpreter, and this is used as an optimization. % % NB: This shoud be the only use of the .setuseciecolor % operator anywhere. % % If UseCIEColor is transitioned to false, set some % color space other than /DeviceGray, to insure that % initgraphics will actually perform a setcolorspace % operation (there is an optimization in setcolorspace % that does nothing if the operand and current color % spaces are the same, and UseCIEColor is false). /.setuseciecolor where { pop 1 index /UseCIEColor .knownget { dup .setuseciecolor not { /DeviceRGB setcolorspace } if } if } if % Merge the request into the current page device, % unless we're changing the OutputDevice. % Stack: mark ... <merged> <failed> exch currentpagedevice dup length 2 index length add dict % Stack: mark ... <failed> <merged> <current> <newdict> 2 index /OutputDevice .knownget { 2 index /OutputDevice .knownget not { //null } if eq } { //true } ifelse { % Same OutputDevice, merge the dictionaries. .copydict } { % Different OutputDevice, discard the old dictionary. exch pop } ifelse .copydict % Initialize the default matrix, taking media matching % into account. .computemediasize pop initmatrix concat dup /PageOffset .knownget { % Translate by the given number of 1/72" units in device X/Y. dup 0 get exch 1 get 2 index /HWResolution get dup 1 get exch 0 get 4 -1 roll mul 72 div 3 1 roll mul 72 div idtransform translate } if % We must install the new page device dictionary % before calling the Install procedure. dup .setpagedevice .setdefaulthalftone % Set the default screen before calling Install. dup /Install .knownget { { .execinstall } stopped { .postinstall stop } { .postinstall } ifelse } { .postinstall } ifelse } odef % We break out the code after calling the Install procedure into a % separate procedure, since it is executed even if Install causes an error. % By making .execinstall a separate operator procedure, we get the stacks % restored if it fails. /.execinstall { % <proc> .execinstall - % Because the interpreter optimizes tail calls, we can't just let % the body of this procedure be 'exec', because that would lose % the stack protection that is the whole reason for having the % procedure in the first place. We hack this by adding a couple % of extra tokens to ensure that the operator procedure is still % on the stack during the exec. exec 0 pop % See above. } odef /.postinstall { % mark ... <failed> <merged> .postinstall - matrix currentmatrix .setdefaultmatrix % Erase and initialize the page. initgraphics currentoverprint //false setoverprint 1 setcolor .fillpage 0 setcolor setoverprint .beginpage % Clean up, calling PolicyReport if needed. % Stack: mark ... <failed> <merged> SETPDDEBUG { (Finishing.) = pstack flush } if exch dup length 0 ne { 1 index /Policies get /PolicyReport get counttomark 1 add 2 roll cleartomark exec } { cleartomark } ifelse pop } odef end % level2dict .setlanguagelevel