For other information, see the Ghostscript overview.
The Ghostscript interpreter, except as noted below, is intended to execute
properly any source program written in the (LanguageLevel 3)
PostScript language as defined in the PostScript
Language Reference, Third Edition (ISBN 0-201-37922-8) published by
Addison-Wesley in mid-1999. However, the interpreter is configurable in
ways that can restrict it to various subsets of this language.
Specifically, the base interpreter accepts the Level 1 subset of the
PostScript language, as defined in the first edition of the PostScript
Language Reference Manual (ISBN 0-201-10174-2) Addison-Wesley 1985,
plus the file system, version 25.0 language, and miscellaneous additions
listed in sections A.1.6, A.1.7, and A.1.8 of the Second Edition
respectively, including allowing a string operand for the
"status
" operator. The base interpreter may be configured
(see the documentation on building Ghostscript for
how to configure it) by adding any combination of the following:
colorimage
). These facilities are available
only if the color
, dps
, or
level2
feature was selected when Ghostscript was built.
dps
feature or the
level2
feature was selected when Ghostscript was built.
compfont
feature or the
level2
feature was selected when Ghostscript was built.
ttfont
feature was selected when Ghostscript was built.
DCTEncode
and DCTDecode
filters. These
facilities are available only if the filter
,
dps
, or level2
feature was selected when
Ghostscript was built.
DCTEncode
and
DCTDecode
filters. These facilities are available only if
the dct
or level2
feature was selected when
Ghostscript was built.
level2
feature was selected when Ghostscript was built.
psl3
feature was selected when Ghostscript was built.
epsf
feature was selected when
Ghostscript was built.
Ghostscript currently does not implement the following PostScript LanguageLevel 3 facilities:
ProcessColorModel
for page devices, except for
a very few special devices.
IODevice
s other than %stdin
,
%stdout
, %stderr
, %lineedit
,
%statementedit
, %os%
, and (if configured)
%pipe%
and %disk0%
through %disk0%
.
Ghostscript can also interpret files in the Portable Document Format (PDF)
1.7 format defined in the
PDF
Reference Version 1.7,
distributed by Adobe Systems
Incorporated, except as noted below. This facility can be
disabled by deselecting the pdf
feature
when Ghostscript is built.
Ghostscript currently implements the majority of non-interactive features defined in the PDF reference.
Ghostscript also includes a number of additional operators defined below that are not in the PostScript language defined by Adobe.
The implementation limits show here correspond to those in Tables B.1 and B.2 of the Second and Third Editions, which describe the quantities fully. Where Ghostscript's limits are different from those of Adobe's implementations (as shown in the Third Edition), Adobe's limits are also shown.
Architectural limits (corresponds to Adobe table B.1)
Quantity Limit Type Adobe
integer 32-bit twos complement integer real single-precision IEEE float array 16777216 elements 65535 dictionary 16777215 elements 65535 string 16777216 characters 65535 name 16383 characters 127 filename 128* characters save
levelnone (capacity of memory) 15 gsave
levelnone (capacity of memory) 13
* The limit on the length of a file name is 128 characters if the name starts with a %...% IODevice designation, or 124 characters if it does not.
Memory limits (corresponds to Adobe table B.2)
Quantity Limit Type Adobe
userdict
200 FontDirectory
100 operand stack 800 500 dictionary stack 20 execution stack 250 interpreter level none (capacity of memory) 10 path none (capacity of memory) 1500 dash 11 VM none (capacity of memory) 240000 file none (determined by operating system) 6 image 65535 values (samples × components)
for 1-, 2-, 4-, or 8-bit samples3300 32767 values for 12-bit samples 3300
In 32-bit builds packed array elements occupy either 2 bytes or 12 bytes. The average element size is probably about 7 bytes. Names occupy 16 bytes plus the space for the string.
In 64-bit builds packed array elements occupy either 2 bytes or 16 bytes. The average element size is probably about 9 bytes. Names occupy 24 bytes plus the space for the string.
The garbage collector doesn't reclaim portions of arrays obtained with getinterval, rather it collects entire arrays.
Ghostscript provides a set of operators for implementing the transparency
and compositing facilities of PDF 1.4. These are defined only if the
transpar
option was selected when Ghostscript was built. We
do not attempt to explain the underlying graphics model here: for details,
see Adobe
Technical Note #5407, "Transparency
in PDF". Note, however, that
Ghostscript's model generalizes that of PDF 1.4 in that Ghostscript
maintains separate alpha and mask values for opacity and shape, rather than
a single value with a Boolean that says whether it represents opacity or
shape.
<modename> .setblendmode -
rangecheck
error. The initial value of
the blending mode is /Compatible
.
- .currentblendmode <modename>
<0..1> .setopacityalpha -
- .currentopacityalpha <0..1>
<0..1> .setshapealpha -
- .currentshapealpha <0..1>
<bool> .settextknockout -
true
.
- .currenttextknockout <bool>
The interpreter state is extended to include a (per-context) rendering stack for handling transparency groups and masks (generically, "layers"). Groups accumulate a full value for each pixel (paint plus transparency); masks accumulate only a coverage value. Layers must be properly nested, i.e., the 'end' or 'discard' operator must match the corresponding 'begin' operator.
Beginning and ending layers must nest properly with respect to
save
and restore
: save
and
restore
do not save and restore the layer stack. Currently,
layers are not required to nest with respect to gsave
and
grestore
, except that the device that is current in the
graphics state when ending a layer must be the same as the device that was
current when beginning the layer. THIS AREA IS SUBJECT TO CHANGE.
<paramdict> <llx> <lly> <urx> <ury>
.begintransparencygroup -
ll/ur
coordinates
are the bounding box of the group in the current user coordinate system.
paramdict
has the following keys:
/Isolated
false
.
/Knockout
false
.
- .discardtransparencygroup -
- .endtransparencygroup -
<paramdict> <llx> <lly> <urx> <ury>
.begintransparencymaskgroup -
ll/ur
coordinates
are the bounding box of the mask in the current user coordinate system.
paramdict
has the following keys:
/Subtype
/Alpha
or
/Luminosity
.
/Background
/TransferFunction
.buildfunction
to a Function dictionary).
- .begintransparencymaskimage -
- .discardtransparencymask -
<masknum> .endtransparencymask -
masknum
= 0) or shape (masknum
= 1) mask in
the graphics state.
<masknum> .inittransparencymask -
masknum
= 0) or shape
(masknum
= 1) mask to an infinite mask with alpha = 1
everywhere.
The transparency extension defines a new ImageType 103, similar to ImageType 3 with the following differences:
MaskDict
is replaced by two optional
dictionaries, OpacityMaskDict
and
ShapeMaskDict
. If present, these dictionaries must have a
BitsPerComponent
entry, whose value may be greater than 1.
Note that in contrast to ImageType 3, where any non-zero chunky mask value
is equivalent to 1, ImageType 103 simply takes the low-order bits of chunky
mask values.
Matte
entry may be present in one or both mask
dictionaries, indicating premultiplication of the data values. If both
MaskDict
s have a Matte
entry and the values
of the two Matte
entries are different, a
rangecheck
error occurs.
InterleaveType
appears in the MaskDict
s,
not the DataDict
, because each mask has its own
InterleaveType
. InterleaveType
2
(interlaced scan lines) is not supported.
<bool> .setaccuratecurves -
initgraphics
sets this flag to false, to
match other PostScript implementations.
- .currentaccuratecurves <bool>
<int> .setcurvejoin -
setlinejoin
.
If the parameter value is -1, the join used for flattened curve line
segments is given by the current line join parameter in the graphics state
(except that if the line join value is "none", a bevel join is used), which
matches the Adobe Red Book, but not some old Adobe implementations; if the curve
join parameter value is a line join value, that type of join is used for
flattened curve line segments, regardless of the value of the graphics state
line join parameter. The initial (and default) value of the curve join
parameter is -1, causing the compatibility to Red Book and to modern Adobe
implementations. initgraphics
sets the parameter to its
default value.
- .currentcurvejoin <int>
<bool> .setdashadapt -
initgraphics
sets this flag to false.
- .currentdashadapt <bool>
<matrix> .setdefaultmatrix -
defaultmatrix
and installed by initmatrix
.
Ordinary programs should not use this operator.
<num> <bool> .setdotlength -
bool
is false, or in default user coordinates of
points (units of 1/72in; see the notes
on measurements in the documentation on devices) if
bool
is true. Dots occurring as part of dash patterns will
be oriented correctly; isolated dots will be oriented as though they were
part of a vertical line. initgraphics
sets the dot length
to zero.
- .currentdotlength <num> <bool>
<dx> <dy> .setfilladjust2 -
dx
and dy
are numbers between 0 and 0.5,
measured in device space. The only two values that are likely to be useful
are 0, which gives a pure center-of-pixel rule, and 0.5, which gives
Adobe's any-part-of-pixel rule. (0.5 is treated slightly specially in
order to create half-open pixels per Adobe's specification.)
- .currentfilladjust2 <dx> <dy>
<bool> .setlimitclamp -
limitcheck
error (false). initgraphics
sets
this flag to false, to match other PostScript implementations.
- .currentlimitclamp <bool>
<int> .setoverprintmode -
DeviceCMYK
, color components whose
value is 0 do not write into the target, rather than writing a 0 value.
THIS BEHAVIOR IS NOT IMPLEMENTED YET. The initial value of the overprint
mode is 0.
- .currentoverprintmode <int>
- .dashpath -
flattenpath
and then chops up the path as
determined by the dash pattern.
<x> <y> <width> <height> .rectappend -
<numarray> .rectappend -
<numstring> .rectappend -
rectfill
, rectclip
, etc. Defined
only if the dps
or level2
option was
selected when Ghostscript was built.
- .getpath <array>
upath
, except
ucache
or setbbox
entries are generated.
moveto
.
The saved path can be restored by newpath { exec } forall
.
- .sethpglpathmode
a b moveto c d moveto e f lineto closepath
will draw
back to (a,b), not (c,d). HPGL paths treat these non-subpath starting
movetos as lineto segments when filling, and as
unstroked gaps when stroking.
.currenthpglpathmode -
Ghostscript supports an experimental extension of the PostScript imaging
model to include RasterOp
and some related facilities.
This extension is available only if the rasterop
option was
selected when building Ghostscript.
With the RasterOp
extension, imaging operations compute a
function D = f(D,S,T) in RGB space, where f is an
arbitrary 3-input Boolean function, D is the destination (frame
buffer or print buffer), S is the source (described below), and
T is the texture (the current PostScript color, which may be a
pattern). The source and texture depend on the PostScript imaging
operation:
fill
and stroke
, the source is
solid black, covering the region to be painted; the texture is the current
PostScript color.
show
and imagemask
, the source is
solid black, covering the pixels to be painted; the texture is the current
PostScript color.
image
and colorimage
, the source is
the image data; the texture depends on an optional Boolean parameter,
CombineWithColor
, in the image dictionary. If
CombineWithColor
is false (the default), the texture is
solid black. If CombineWithColor
is true, the texture is
the current color. For the non-dictionary form of the image operator,
CombineWithColor
is considered to be false.
The rasterop
option adds the following operators:
<int8> .setrasterop -
RasterOp
function in the graphics state. The
default function is 252, Source | Texture.
- .currentrasterop <int8>
RasterOp
function.
<bool> .setsourcetransparent -
RasterOp
function
returns. The default source transparency is false.
- .currentsourcetransparent <bool> -
<bool> .settexturetransparent -
RasterOp
function
returns. The default texture transparency is false.
- .currenttexturetransparent <bool> -
For more information on RasterOp and transparency, please consult chapter 5 of the "PCL 5 Color Technical Reference Manual", Hewlett-Packard Manual Part No. 5961-0635.
<string> <bool> .charboxpath -
.charboxpath
appends the following to
the current path:
<bool>
is true, the equivalent of:
p1x p1ymoveto
p2x p2ylineto
p3x p3ylineto
p4x p4ylineto
closepath
This creates a path whose pathbbox
is the
bbox
of the string.
<bool>
is false, the equivalent of:
p1x p1ymoveto
p3x p3ylineto
If the CTM is well-behaved (consists only of reflection, scaling, and
rotation by multiples of 90 degrees), this too creates a (simpler) path
whose pathbbox
is the bbox
of the string.
<font> <charname|charcode> <charname> <charstring> .type1execchar -
setcharwidth
and setcachedevice
, is valid
only in the context of a show operator -- that is, it must only be called
from within a BuildChar
or BuildGlyph
procedure.
<font> <charcode> %Type1BuildChar -
show
, stringwidth
, or
charpath
), it looks up the name BuildChar
in the font dictionary to find a procedure to run. If it does not find
this name, and if the FontType
is 1, the interpreter
instead uses the value (looked up on the dictionary stack in the usual way)
of the name %Type1BuildChar
.
The standard definition of %Type1BuildChar
is in the
initialization file gs_type1.ps
. Users should not need to
redefine %Type1BuildChar
, except perhaps for tracing or
debugging.
<font> <charname> %Type1BuildGlyph -
BuildGlyph
.
<number> arccos <number>
<number> arcsin <number>
mark <key1> <value1> <key2> <value2> ... .dicttomark <dict>
>>
operator,
but is available even in Level 1 configurations.
<dict> <key> <value> .forceput -
put
, but works even if
dict
is not writable, and (if dict
is
systemdict
or the current save level is 0) even if
dict
is in global VM and key
and/or
value
is in local VM. This operator should be used
only initialization code, and only in executeonly procedures: it must not be
accessible after initialization.
<dict> <key> .forceundef -
undef
, but works even if
dict
is not writable. This operator should be used
only initialization code, and only in executeonly procedures: it must not be
accessible after initialization.
<dict> <key> .knownget <value> true
<dict> <key> .knownget false
known
and get
in the
obvious way.
<dict> <integer> .setmaxlength -
maxlength
) of a dictionary.
Causes a dictfull
error if the dictionary has more
occupied entries than the requested capacity.
<integer> .bytestring <bytestring>
<name> .namestring <string>
<string> <charstring> .stringbreak <index|null>
string
that appears
somewhere in charstring
. If such a character is found,
returns the index of the first such character; if no such character is
found, returns null
.
<obj> <pattern> .stringmatch <bool>
obj
against a pattern in which '*' matches 0 or
more characters and '?' matches any single character. If
obj
is a string or a name, matches its characters against
the pattern; if obj
is of any other type, the result is
true
if the pattern is the single character "*" and
false
otherwise.
<state> <fromString> <toString> .type1encrypt <newState> <toSubstring>
fromString
according to the algorithm for
Adobe Type 1 fonts, writing the result into toString
.
toString
must be at least as long as
fromString
, or a rangecheck error occurs.
state
is the initial state of the encryption algorithm (a
16-bit non-negative integer); newState
is the new state of
the algorithm.
<state> <fromString> <toString> .type1decrypt <newState> <toSubstring>
fromString
according to the algorithm for
Adobe Type 1 fonts, writing the result into toString
.
Other specifications are as for type1encrypt
.
<number|string> <number|string> max <number|string>
<number|string> <number|string> min <number|string>
<file> .filename <string> true
<file> .filename false
file
or
.tempfile
operator, returns the file name and
true
; if the file is a filter, returns
false
.
<file> .fileposition <integer> true
file
. Unlike the standard
fileposition
operator, which causes an error if the file is
not positionable, .fileposition
works on all files,
including filters: for non-positionable files, it returns the total number
of bytes read or written since the file was opened.
<string> findlibfile <foundstring> <file> true
<string> findlibfile <string> false
findlibfile
simply
pushes false on the stack and returns, rather than causing an error.
<file> <string> .peekstring <substring> <filled_bool>
readstring
, but also leaves
the bytes in the file buffer so they will be read again by a subsequent read
operation. Currently gives a rangecheck
error if
string
is larger than the file's buffer.
<prefix_string|null> <access_string> .tempfile
<string> <file>
file
operator, also returning the file name. There
are three cases for the <prefix_string|null>
operand:
null
: create the file in the same directory and with the
same name conventions as other temporary files created by the Ghostscript
implementation on this platform. E.g., the temporary file might be named
/tmp/gs_a1234
.
<prefix_string>
as the first part of the file name.
E.g., if <prefix_string>
is xx
, the
temporary file might be named /tmp/xxa1234
.
<prefix_string>
as the first part of the file name.
E.g., if <prefix_string>
is
/my/tmpdir/zz
, the temporary file might be named
/my/tmpdir/zza1234
.
When running in SAFER
mode, the absolute path must
be one of the strings on the list given by the PermitFileWriting
userparameter. Temporary files created with .tempfile
can
be deleted when in SAFER mode, and can be renamed to one of the paths
that is on both the PermitFileControl and PermitFileWriting
paths.
<file> <integer> .unread -
ioerror
error. May also cause an ioerror
if the last operation on
the file was not a reading operation. This operator is now deprecated:
use .peekstring
in new code.
Ghostscript also supports the following IODevice
in
addition to a subset of those defined in the Adobe documentation:
%pipe%command
, which opens a pipe on the given command.
This is supported only on operating systems that provide
popen
(primarily Unix systems, and not all of those).
%disk#%
, which emulates the %disk0
through %disk9 devices on some Adobe PostScript printers. This pseudo
device provides a flat filenaming system with a user definable location
for the files (/Root). These devices will only be present if the
diskn.dev feature is specified during the build.
This feature is intended to allow compatibility with font downloaders that expect to store fonts on the %disk device of the printer.
Use of the %disk#% devices requires that the location of files be given by the user setting the /Root device parameter. The syntax for setting the /Root parameter is:
mark /Root (directory_specification) (%disk#) .putdevparamsFor example, to store the files of the %disk0 device on the directory /tmp/disk0, use:
mark /Root (/tmp/disk0/) (%disk0) .putdevparamsThe files will be stored in the specified directory with arbitrary names. A mapping file is used to store the association between the file names given for the file operations on the %diskn# device and the file that resides in the /Root directory.
<save> .forgetsave -
<array> bind <array>
bind
is redefined as:
Flag Definition
NOBIND /bind {} def ; no operation, returns the argument DELAYBIND returns the argument, stores the argument for later use by .bindnow
<array> .bind <array>
bind
operation as defined in PLRM regardless of
NOBIND or DELAYBIND flags.
- .bindnow -
bind
operator to all savad procedures after binding has been
deferred through -dDELAYBIND. Note that idiom recognition has no effect for the deferred
binding because the value returned from bind
is discarded.
Since v. 8.12 .bindnow
undefines itself and restores standard definition of
bind
operator. In earlier versions after calling .bindnow
,
the postscript bind
operator needs to be rebound to the internal implementation
.bind
, as in this fragment from the ps2ascii script:
This is necessary for correct behavior with later code that uses theDELAYBIND { .bindnow /bind /.bind load def } if
bind
operator.
<obj1> <obj2> ... <objn> <n> .execn ...
obj1
through objn
in that
order, essentially equivalent to
<obj1> <obj2> ... <objn> <n> array astore {exec} forall
except that it doesn't actually create the array.
<string> getenv <string> true
<string> getenv false
.defaultpapersize <string> true
.defaultpapersize false
a4
for countries using the metric system, and
letter
for countries using the imperial system.
<name> <array> .makeoperator <operator>
Operators defined in this way do one other thing besides running the procedure: if an error occurs during the execution of the procedure, and there has been no net reduction in operand or dictionary stack depth, the operand or dictionary stack pointer respectively is reset to its position at the beginning of the procedure.
<string> <boolean> .setdebug -
<string>
based on the value of
<boolean>
. These correspond to the debug
flags set by -Z
on the command line and enable
debug and tracing output from various internal modules.
Note that most tracing output is only produced if the Ghostscript
interpreter was built with the DEBUG
preprocessor
symbol defined.
The zsetdebug()
C function, which implements this
operator, is a useful breakpoint for debuggers.
Inserting '() true .setdebug
' in the interpreted code will
trigger a breakpoint at that location without side effects. The
current flag state is available in C as the gs_debug[]
array, indexed by character value. The zsetdebug
function will
be entered, and gs_debug[]
updated, whether or not Ghostscript
is built with the DEBUG
preprocessor symbol defined, so this
is useful even with release builds.
- .oserrno <errno>
- .oserrorstring <string>
<array> <procedure> .runandhide ... <array>
This operator is intended to allow hiding a <save> object
during execution of procedures or files that run in SAFER mode.
If a save
is performed prior to entering SAFER mode
with .setsafe
, using the save object as the operand to
restore
will return to NOSAFER mode. In order to
prevent the procedures running in SAFER mode from being able to
return to NOSAFER mode, this operator should be used.
Upon return from the file or procedure restore
can be used
to return to NOSAFER mode.
Note: The array operand hidden during the execution of the file or
procedure will be placed at the top of the operand stack which may be on
top of objects that the file or procedure leaves on top of the stack.
Thus removing objects below the array may be needed to prevent an
invalidrestore
error.
For example, in order for a script or job server to execute a file somefile.ps with the SAFER mode restrictions in place, returning to unrestricted NOSAFER mode when the procedure exits is as follows:
Start Ghostscript with -dNOSAFER ... % perform any device set up w/o restrictions [ save ] % create a save object before SAFER (somefile.ps) (r) file cvx % open the file to process .setsafe % enter SAFER mode .runandhide % run the file hiding the save object count 1 roll % place array below anything left over count 1 sub { pop } repeat % pop left over stuff cleardictstack % prevent invalidrestore from dicts 0 get restore % go back to NOSAFER modeAnother refinement on the above would be to execute
.runandhide
using stopped
in order to report errors but continue processing.
- .setsafe -
-dNOSAFER
or
-dDELAYSAFER
, this operator can be used to enter SAFER
mode (see -dSAFER)
Since SAFER mode is implemented with userparameters and device parameters,
it is possible to use save
and restore
before
and after .setsafe
to return to NOSAFER mode, but care
should be taken to ensure that the save object is not
accessible to any procedures or file run in SAFER mode (see
.runandhide above).
Note: This uses setpagedevice to change .LockSafetyParams, so the page will be erased as a side effect of this operator
- .locksafe -
.LockSafetyParams
and the LockFilePermissions
userparameter true as well as
adding the paths on LIBPATH and FONTPATH and the paths given by the
system params /GenericResourceDir and /FontResourceDir to the current
PermitFileReading list of paths.
If Ghostscript is started with -dNOSAFER
or
-dDELAYSAFER
, this operator can be used to enter SAFER
mode with the current set of PermitFile...
user parameters
in effect. Since .setsafe
sets the PermitFile...
user parameters to empty arrays, a script or job server that needs to
enable certain paths for file Reading, Writing and/or Control can use this
operator to perform the locking needed to enter SAFER mode.
For example, to enable reading everywhere, but disallow writing and file control (deleting and renaming files), the following can be used:
{ << /PermitFileReading [ (*) ] /PermitFileWriting [ ] /PermitFileControl [ ] >> setuserparams .locksafe } stopped popIn the above example, use of stopped will allow the use of this sequence on older versions of Ghostscript where
.locksafe
was not an operator.
Note: This uses setpagedevice to change .LockSafetyParams, so the page will be erased as a side effect of this operator
See also .LockSafetyParams and User Parameters.
.setpdfwrite
gs -q -dSAFER -dNOPAUSE -dBATCH -sOutputFile=file.pdf
[more options]\
source1.ps [more files]
-sDEVICE=pdfwrite -c .setpdfwrite -f
Currently, the operator just sets a minimum 3 MB vmthreshold to allow for accumulating shared object data and to reduce the incidence of garbage collection as a performance improvement. Additional settings may be added in the future.
.color_test
and .color_test_all
<device> copydevice <device>
<devicename> finddevice <device>
finddevice
is called more than
once with the same device name, it creates the default instance the first
time, and returns the same instance thereafter.
<devicename> findprotodevice <device>
.getdeviceparams
or other parameter-reading
operators, but it is read-only and cannot be set with
setdevice
: it must be copied first.
<device> <x> <y> <width> <max_height> <alpha?> <std_depth|null> <string> .getbitsrect <height> <substring>
alpha?
is 0 for no alpha, -1 for alpha first, 1 for alpha
last. std_depth
is null for native pixels, number of bits
per component for a standard color space.
<index> .getdevice <device>
index
is out of
range, a rangecheck
error occurs.
This device is actually a prototype, not a directly usable device,
and is marked read-only; it cannot have its parameters changed or be
installed as the current device.
- .getdefaultdevice <device>
copydevice
to obtain a workable device.
<matrix> <width> <height> <palette> makeimagedevice <device>
matrix
is the initial transformation matrix: it must be orthogonal
(that is, [a 0 0 b x y] or
[0 a b 0 x y]). palette
is a
string of 2^N or
3 × 2^N elements,
specifying how the 2^N possible pixel
values will be interpreted. Each element is interpreted as a gray value,
or as RGB values, multiplied by 255. For example, if you want a monochrome
image for which 0=white and 1=black, the palette should be
<ff 00>
; if you want a 3-bit deep image with
just the primary colors and their complements (ignoring the fact that 3-bit
images are not supported), the palette might be <000000 0000ff
00ff00 00ffff ff0000 ff00ff ffff00 ffffff>
. At present, the
palette must contain exactly 2, 4, 16, or 256 entries, and must contain an
entry for black and an entry for white; if it contains any entries that
aren't black, white, or gray, it must contain at least the six primary
colors (red, green, blue, and their complements cyan, magenta, and yellow);
aside from this, its contents are arbitrary.
Alternatively, palette can be 16, 24, 32, or null (equivalent to 24). These are interpreted as:
Palette Bits allocated per color
16 5 red, 6 green, 5 blue 24 8 red, 8 green, 8 blue 32 8C, 8M, 8Y, 8K
Note that one can also make an image device (with the same palette as an
existing image device) by copying a device using the
copydevice
operator.
<matrix> <width> <height> <palette> <word?> makewordimagedevice <device>
word?
is a
Boolean value indicating whether the data should be stored in a
word-oriented format internally. No ordinary PostScript programs should
use this operator.
<device> <index> <string> copyscanlines <substring>
image
operator. It is an error if the device is
not an image device or if the string is too small to hold at least one
complete scan line. Always copies an integral number of scan lines.
<device> setdevice -
Sets the current device to the specified device. Also resets the
transformation and clipping path to the initial values for the device.
Signals an invalidaccess
error if the device is a
prototype or if .LockSafetyParams
is true for the current device.
Some device properties may need to be set with putdeviceprops before
setdevice
is called. For example, the pdfwrite device will try
to open its output file, causing an undefinedfilename error if
OutputFile
hasn't been set to a valid filename. Another
method in such cases is to use the level 2 operator instead:
<< /OutputDevice /pdfwrite /OutputFile
(MyPDF.pdf) >> setpagedevice
.
- currentdevice <device>
<device> getdeviceprops <mark> <name1> <value1> ... <namen> <valuen>
<mark> <name1> <value1> ... <namen> <valuen> <device> putdeviceprops <device>
undefined
,
invalidaccess
, typecheck
, rangecheck
, or
limitcheck
errors.
- flushpage -
In its usual configuration, Ghostscript supports all the standard PostScript LanguageLevel 3 filters, both encoding and decoding, except that it does not currently support:
EarlyChange
key in the LZWEncode
filter.
Ghostscript also supports additional keys in the optional dictionary
operands for some filters. For the LZWDecode
filter:
InitialCodeLength <integer>
(default 8)
FirstBitLowOrder <boolean>
(default false)
BlockData <boolean>
(default false)
For the CCITTFaxEncode
and CCITTFaxDecode
filters:
DecodedByteAlign <integer>
(default 1)
In addition to the standard PostScript LanguageLevel 3 filters, Ghostscript supports the following non-standard filters. Many of these filters are used internally to implement standard filters or facilities; they are almost certain to remain, in their present form or a backward-compatible one, in future Ghostscript releases.
<target> /BCPEncode filter <file>
<source> /BCPDecode filter <file>
<target> <seed_integer> /eexecEncode filter <file>
seed_integer
must be 55665 for the eexec
section of a font, or 4330 for a CharString
. Note that for
the eexec
section of a font, this filter produces binary
output and does not include the initial 4 (or lenIV
) garbage
bytes.
<source> <seed_integer> /eexecDecode filter <file>
<source> <dict> /eexecDecode filter <file>
seed_integer
must be
55665 or 4330 as described just above. PDF interpreters don't skip space characters
after operator eexec
. Use keep_spaces = true
for
decoding embedded PDF fonts. Recognized dictionary keys are:
seed <16-bit integer>
(required)
lenIV <non-negative integer>
(default=4)
eexec <bool>
(default=false
)
keep_spaces <bool>
(default=false
)
<target> /MD5Encode filter <file>
<source> <hex_boolean> /PFBDecode filter <file>
.PFB
format, the
usual semi-binary representation for Type 1 font files on IBM PC and
compatible systems. If hex_boolean
is true, binary packets
are converted to hex; if false, binary packets are not converted.
<target> <dict> /PixelDifferenceEncode filter <file>
<source> <dict> /PixelDifferenceDecode filter <file>
Colors <integer>
(1 to 4, default=1)
BitsPerComponent <integer>
(1, 2, 4, or 8, default=8)
Columns <integer>
(>= 0, required)
See the Adobe PDF Reference Manual for details.
<target> <dict> /PNGPredictorEncode filter <file>
<source> <dict> /PNGPredictorDecode filter <file>
Keys recognized in PNG filter algorithms
Key Range Default
Colors <integer>
1 to 16 16 BitsPerComponent <integer>
1, 2, 4, 8, or 16 8 Columns <integer>
>= 0 1 Predictor <integer>
10 to 15 15
The Predictor
is the PNG algorithm number + 10 for the
Encoding
filter; the Decoding
filter
ignores Predictor
. 15 means the encoder attempts to
optimize the choice of algorithm. For more details see the PNG
specification
http://www.w3.org/TR/WD-png-960128.html
<target> /TBCPEncode filter <file>
<source> /TBCPDecode filter <file>
<target> /zlibEncode filter <file>
<source> /zlibDecode filter <file>
Flate
filters are actually a combination of
this filter with an optional predictor filter.
Some versions of Ghostscript may also support other non-standard filters for experimental purposes. The current version includes the following such filters, which are not documented further. No code should assume that these filters will exist in compatible form, or at all, in future versions.
<target/source> <string> ByteTranslateEncode/Decode filter <file>
string
must be a string of exactly 256 bytes. Creates a
filter that converts each input byte b to
string
[b]. Note that the Encode
and Decode
filters operate identically: the client must
provide a string
for the Decode
filter that
is the inverse mapping of the string
for the
Encode
filter.
<target/source> <dict> BoundedHuffmanEncode/Decode filter <file>
FirstBitLowOrder <bool>
(default=false)
MaxCodeLength <int>
(default=16)
EndOfData <bool>
(default=true)
EncodeZeroRuns <int>
(default=256)
Tables <int_array>
<target/source> <dict> BWBlockSortEncode/Decode filter <file>
bzip2
compression application. See http://sources.redhat.com/bzip2/
for more information. The only recognized dictionary key is:
BlockSize <integer>
(default=16384)
<target/source> MoveToFrontEncode/Decode filter <file>
Encode
filter starts by initializing an internal
256-byte array a
to the values 0 .. 255. This array will
always hold a permutation of these values. Then for each input byte
b, the filter outputs the index i such that
a
[i] = b, and moves that element to the
front (element 0) of a
, moving elements 0 .. i-1 to
positions 1 .. i. The Decode
filter inverts this
process.
getdeviceprops
and putdeviceprops
, as
indicated above.) Here are the currently defined parameters for all
devices:
.LockSafetyParams <boolean>
If this parameter is true for the current device, attempt to set a new
device that has .LockSafetyParams
false will signal an
invalidaccess
error.
BitsPerPixel <integer> (usually read-only)
.HWMargins [<four floats>]
HWSize [<integer> <integer>]
%MediaSource <integer>
%MediaDestination <integer>
.IgnoreNumCopies <boolean>
Name <string> (read-only)
OutputDevice
.
Colors, GrayValues, RedValues, GreenValues, BlueValues, ColorValues (usually read-only)
deviceinfo
operator of Display PostScript.
Red
, Green
, Blue
, and
ColorValues
are only defined if
Colors
> 1.
TextAlphaBits, GraphicsAlphaBits (usually read-only)
Ghostscript also supports the following read-only parameter that is not a true device parameter:
.EmbedFontObjects <integer>
In addition, the following are defined per Adobe's documentation for the
setpagedevice
operator:
Duplex
(if supported)
HWResolution
ImagingBBox
Margins
LeadingEdge
MediaPosition
NumCopies
(for printers only)
Orientation
(if supported)
OutputDevice
PageOffset
(write-only)
PageSize
ProcessColorModel
(usually read-only)
Some devices may only allow certain values for HWResolution
and PageSize
. The null device ignores attempts to set
PageSize
; its size is always [0 0]
.
It should be noted that calling setpagedevice with one of the above keys may reset the effects of any pdfmark
commands up to that point. In particular this is true of HWResolution, a behavior that differs from Adobe Distiller.
For raster printers and image format (jpeg*, tiff*, png* ...) devices these page device parameters are also defined:
MaxBitmap <integer>
This value includes the space for padding raster lines and for an array of
pointers for each raster line, thus the MaxBitmap
value to allow
a given PageSize of a specific number of bits per pixel to be rendered in a
full page buffer may be somewhat larger than the bitmap size alone.
BandListStorage <file|memory>
BAND_LIST_STORAGE
.
Since memory
is always included, specifying -sBandListStorage=memory
when the default is file
will use memory based storage for the
band list of the page. This is primarily intended for testing, but if the disk I/O is
slow, band list storage in memory may be faster.
BufferSpace <integer>
MaxBitmap
(see above.)
The buffer space is used to collect display list (clist) commands for the bands and then to consolidate those commands when writing the clist to the selected BAND_LIST_STORAGE device (memory or file) set when Ghostscript is compiled.
If MaxBitmap
(above) forces banding mode, and if BufferSpace
is large enough, the display list (clist) will consist of a single band.
The BufferSpace
will determine the size of the 'consolidation'
buffer (above) even if the MaxBitmap
value is low enough to force
banding/clist mode.
NumRenderingThreads <integer>
NumRenderingThreads
of 1 or higher results in bands rendering in the specified number of 'background'
threads.
The number of threads should generally be set to the number of available processor cores for best throughput.
Note that each thread will allocate a band buffer (size determined by the
BufferSpace
or BandBufferSpace
values) in addition to
the band buffer in the 'main' thread.
OutputFile <string>
%d
is replaced by the page number
for page-oriented output devices;
on Unix systems %pipe%
command writes to a pipe.
(|
command also writes to a pipe, but is now
deprecated). Also see the -o
parameter.
Attempts to set this parameter if .LockSafetyParams
is true
will signal an invalidaccess
error.
OpenOutputFile <boolean>
PageCount <integer> (read-only)
The following parameters are for use only by very specialized applications
that separate band construction from band rasterization. Improper use may
cause unpredictable errors. In particular, if you only want to allocate
more memory for banding, to increase band size and improve performance, use
the BufferSpace
parameter, not BandBufferSpace
.
BandHeight <integer>
BandBufferSpace
(or BufferSpace
,
if BandBufferSpace
is not specified). If BandHeight
is larger than the number of lines that will fit in the buffer, opening the device will fail.
BandWidth <integer>
BandBufferSpace <integer>
Ghostscript supports the following parameter for
setpagedevice
and currentpagedevice
that is
not a device parameter per se:
ViewerPreProcess <procedure>
ProcessDSCComment <procedure|null>
%%
or %!
).
There are two operands, the file and the comment (minus any terminating
EOL), which the procedure must consume.
ProcessComment <procedure|null>
ProcessDSCComment
is also not null, a
comment other than a DSC comment). The operands are the same as for
ProcessDSCComment
.
LockFilePermissions <boolean>
invalidaccess
.
Also, when this value is true, the file
operator
will give invalidaccess
when attempting to open files
(processes) using the %pipe
device.
Also when LockFilePermissions
is true, strings
cannot reference the parent directory (platform specific). For example
(../../xyz)
is illegal on unix, Windows
and Macintosh, and ([.#.#.XYZ])
is illegal on VMS.
This parameter is set true by the .setsafe
and
.locksafe
operators.
PermitFileReading <array of strings>
PermitFileWriting <array of strings>
PermitFileControl <array of strings>
deletefile
and renamefile
.
For renamefile
, the filename for the current filename
must match one of the paths on the PermitFileControl list, and the
new filename must be on both the PermitFileControl and the
PermitFileWriting lists of paths.
The strings can contain wildcard characters as for the filenameforall
operator and unless specifying a single file, will end with a *
for directories (folders) to allow access to all files and sub-directories
in that directory.
Note: The strings are used for stringmatch operations similar
to filenameforall
, thus on MS Windows platforms, use the '/'
character to separate directories and filenames or use '\\\\' to
have the string contain '\\' which will match a single '\' in the
target filename (use of '/' is strongly recommended).
The SAFER mode and the
.setsafe
operator set all three lists to empty arrays,
thus the only files that can be read are the %stdin
device and
on LIBPATH or FONTPATH or the Resource paths specified by the /FontResourceDir
or /GenericResourceDir system params. Files cannot be opened for writing
anywhere and cannot be deleted or renamed except for files created with the
.tempfile operator).
Note: Limiting file reading as above is NOT compatible with
SAFER mode in release versions before 7.11 and corresponds to the use of
-dPARANOIDSAFER
in version 7.04 (up to and not including
version 7.10) and GPL versions 6.53 (up to and not including 6.60).
AlignToPixels <integer>
TextAlphaBits
. If the
latter is 1, the same rendering results regardless of the value of
AlignToPixels
. The initial value defaults to 1, but this
may be overridden by the command line argument
-dAlignToPixels
.
GridFitTT <integer>
The reduced interpreter can't properly grid fit fonts with patented instructions. Therefore Ghostscript implements another grid fitting method for True Type fonts, based on a spot topology analysis.
This parameter controls the action of the reduced interpreter and the grid fitter:
This parameter defaults to 2, but this
may be overridden on the command line with
-dGridFitTT=n
.
The reduced bytecode interpreter is based in part of the work of the FreeType Team. The topological grid fitting is a new original Ghostscript method.
The operator run
can take either a string or a file as its argument. In
the latter case, it just runs the file, closing it at the end, and trapping
errors just as for the string case.
Decoding
is a Ghostscript-specific resource category. It contains
various resources for emulating PostScript fonts with other font technologies.
Instances of the Decoding category are tables which map PostScript glyph
names to character codes used with TrueType, Intellifont, Microtype and other font formats.
Currently Ghostscript is capable of PostScript font emulation in 2 ways :
Decoding
resources are not currently used by the native font renderer.
An instance of the Decoding
resource category is
a dictionary. The dictionary keys are PostScript glyph names and the
values are either character codes, or arrays of character codes.
Arrays are used when a single name may be mapped to various character codes -
in this case Ghostscript tries all alternatives until a success.
The name of the resource instance should
reflect the character set for which it maps. For example,
/Unicode
/Decoding
resource maps to
Unicode UTF-16.
The rules for using Decoding
resources in particular
cases are specified in the configuration file
lib/xlatmap. See the file itself for more
information.
The file format for Decoding
resource files is
generic PostScript.
Users may want to define custom Decoding
resources.
The ParseDecoding
procset defined in
Resource/Init/gs_ciddc.ps allows representation
of the table in a comfortable form.
CIDDecoding
resources are similar to Decoding
resources, except they map Character Identifiers (CIDs) rather than glyph names.
Another difference is that the native Ghostscript font renderer uses
CIDDecoding
resources while emulate CID fonts with TrueType or OpenType fonts.
An instance of the CIDDecoding
resource category is
a dictionary of arrays. Keys in the dictionary are integers,
which correspond to high order byte of a CID.
Values are 256-element arrays, and their indices correspond to the low order byte of a CID.
Each elemet of an array is either null, or character code (integer), or an array
of character codes (integers). The zero code represents mapping to the default character.
The dictionary includes the additional key CIDCount
.
Its value is the maximal CID defined, plus one.
The Ghostscript library is capable of generating some CIDDecoding
instances automatically, using the appropriate CMap
(character map)
resources. This covers most of practical cases if the neccessary CMap
resources are provided. See the table .CMapChooser
in
Resource/Init/gs_ciddc.ps
for the names of automatically gerenated resources and associated CMap
s.
They allow to mapping CNS1, GB1, Japan1, Japan2 and Korea1 CID sets to TrueType
character sets known as Unicode (exactly UTF-16), Big5,
GB1213, ShiftJIS, Johab and Wansung.
The file format for CIDDecoding
resource file is
generic PostScript.
Users may want to define custom resources to CIDDecoding
resource category.
GlyphNames2Unicode
is an undocumented dictionary which Adobe
PostScript printer driver uses to communicate with Adobe Distiller.
In this dictionary the keys are glyph names, the values are Unicode UTF-16 codes for them.
The dictionaly is stored in the FontInfo
dictionary under
the key GlyphNames2Unicode
. Ghostscript recognises it and uses
to generate ToUnicode
CMaps with pdfwrite.
Since 8.10 release Ghostscript maintains multiple resource directories.
Ghostscript does not distinguish lib
and
Resource
directories.
There is no file name conflicts because lib
does not
contain subdirectories, but Resource
always store files in subdirectories.
The search method with multiple resource directories
appears not fully conforming to PLRM. We cannot unconditionally call
ResourceFileName
while executing findresource
or resourcestatus
, resourceforall
, because
per PLRM it always returns a single path. Therefore Ghostscript
implements an extended search method in findresource
,
resourcestatus
and resourceforall
, which
first calls ResourceFileName
and checks whether the
returned path points to an existing file. If yes, the file is used,
othervise Ghostscript searches all directories specified in
LIB_PATH
. With a single resource directory
it appears conforming to PLRM and equivalent to Adobe implementations.
ResourceFileName
may be used for obtaining a path
where a resource file to be installed. In this case
Ghostscript to be invoked with -sGenericResourceDir=path
,
specifying an absolute path. The default value for
GenericResourceDir
is a relative path. Therefore
a default invocation with a PostScript installer
will install resource files into /gs/Resource
.
Copyright © 2000-2006 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 that license. Refer to licensing information at http://www.artifex.com/ or contact Artifex Software, Inc., 7 Mt. Lassen Drive - Suite A-134, San Rafael, CA 94903, U.S.A., +1(415)492-9861, for further information.
Ghostscript version 9.07, 12 February 2013