Guide to Ghostscript Source Code
Conceptual overview
The Ghostscript source code is divided conceptually as follows:
PostScript interpreter
PostScript operators |
|
Other interpreter code |
|
PostScript code |
|
PDF interpreter
PostScript code |
|
Graphics library
Main library code |
|
Streams |
|
|
|
|
PostScript interpreter
gs.c
is the main program for the interactive language interpreter; gserver.c
is an alternative main program that is a rudimentary server. If you configure Ghostscript as a server rather than an interactive program, you will use gserver.c
instead of gs.c
.
Files named z*.c
are Ghostscript operator files. The names of the files generally follow the section headings of the operator summary in section 6.2 (Second Edition) or 8.2 (Third Edition) of the PostScript Language Reference Manual. Each operator XXX
is implemented by a procedure named zXXX
, for example, zfill
and zarray
.
Files named i*.c
, and *.h
other than g*.h
, are the rest of the interpreter. See the makefile
for a little more information on how the files are divided functionally.
The main loop of the PostScript interpreter is the interp procedure in interp.c
. When the interpreter is reading from an input file, it calls the token scanner in iscan*.c
.
idebug.c
contains a lot of debugger-callable routines useful for printing PostScript objects when debugging.
PDF interpreter
The PDF interpreter is written entirely in PostScript. Its main loop is the .pdfrun
procedure in pdf_base.ps
. When the PDF interpreter is configured into the build, it redefines the “run” operator to test whether the file is a PDF file. This redefinition is near the beginning of pdf_main.ps
.
Graphics library
Files beginning with gs
, gx
, or gz
(both .c
and .h
), other than gs.c
and gserver.c
, are the Ghostscript library. Files beginning with gdev
are device drivers or related code, also part of the library. Other files beginning with g
are library files that don’t fall neatly into either the kernel or the driver category.
Files named s*.c
and s*.h
are a flexible stream package, including the Level 2 PostScript “filters” supported by Ghostscript. See stream.h
, scommon.h
, and strimpl.h
for all the details.
Device drivers
The interface between the graphics library and device drivers is the only really well documented one in all of Ghostscript: see the documentation on drivers.
In addition to many real device and file format drivers listed in devs.mak
and contrib.mak
, a number of drivers are used for internal purposes. You can search lib.mak
for files named gdev*.c
to find almost all of them.
Drivers are divided into “printer” drivers, which support banding, and non-printer drivers, which don’t. The decision whether banding is required is made (by default on the basis of how much memory is available) in the procedure gdev_prn_alloc
in gdevprn.c
: it implements this decision by filling the virtual procedure table for the printer device in one of two different ways.
A good simple “printer” (bandable) driver to read is gdevmiff.c
: it’s less than 100 lines, of which much is boilerplate. There are no simple non-printer drivers that actually drive devices: probably the simplest non-printer driver for reading is gdevm8.c
, which implements 8-bit-deep devices that only store the bits in memory.
Platform-specific code
There are very few platform dependencies in Ghostscript. Ghostscript deals with them in three ways:
Files named *_.h
substitute for the corresponding <*.h>
file by adding conditionals that provide a uniform set of system interfaces on all platforms.
The file arch.h
contains a set of mechanically-discovered platform properties like byte order, size of int, etc. These properties, not the names of specific platforms, are used to select between different algorithms or parameters at compile time.
Files named gp*.h
define interfaces that are intended to be implemented differently on each platform, but whose specification is common to all platforms.
The platform-specific implementations of the gp*.h
interfaces have names of the form gp_{platform}.c
, specifically (this list may be out of date):
Platform-specific interfaces
Routine |
Platform |
---|---|
|
DOS |
|
DOS and MS Windows |
|
DOS, Borland compilers |
|
DOS, Watcom or Microsoft compiler |
|
DOS and MS Windows |
|
MS Windows NT |
|
OS/2 |
|
OS-9 |
|
Unix, OS-9, and QNX |
|
Unix and QNX |
|
VMS |
|
MS Windows NT |
If you are going to extend Ghostscript to new machines or operating systems, check the *_.h
files for ifdef
on things other than DEBUG
. You should probably plan to make a new makefile
and a new gp_XXX.c
file.
Makefiles
This section is only for advanced developers who need to integrate Ghostscript into a larger program at build time.
Note
THIS SECTION IS INCOMPLETE. IT WILL BE IMPROVED IN A LATER REVISION.
The Ghostscript makefiles
are meant to be organized according to the following two principles:
All the parameters that vary from platform to platform appear in the top-level
makefile
for a given platform. (“Platform” = OS + compiler + choice of interpreter vs. library).All the rules and definitions that can meaningfully be shared among more than 1 platform appear in a
makefile
that is “included” by amakefile
(normally the top-levelmakefile
) for those platforms.
Thus, for example:
Rules and definitions shared by all builds are in
gs.mak
.Rules and definitions specific to the library (on all platforms) are in
lib.mak
. In principle this could be merged withgs.mak
, but we wanted to leave open the possibility thatgs.mak
might be useful with hypothetical interpreter-only products.Stuff specific to interpreters (on all platforms) is in
int.mak
.Stuff specific to all Unix platforms should be in a single
unix.mak
file, but because make sometimes cares about the order of definitions, and because some of it is shared with DV/X, it got split betweenunix-aux.mak
,unix-end.mak
,unixhead.mak
,unixinst.mak
, andunixlink.mak
.
For MS-DOS and MS Windows builds, there should be:
A
makefile
for all MS OS (DOS or Windows) builds, for all compilers and products.Perhaps a
makefile
for all MS-DOS builds, for all compilers and products, although since Watcom is the only such compiler we’re likely to support this may be overkill.A
makefile
for all MS Windows builds, for all compilers and products.A
makefile
for all Watcom builds (DOS or Windows), for all products.A top-level
makefile
for the Watcom DOS interpreter product.A top-level
makefile
for the Watcom Windows interpreter product.A top-level
makefile
for the Watcom DOS library “product”.A top-level
makefile
for the Watcom Windows library “product”.A
makefile
for all Borland builds (DOS or Windows), for all products.
and so on.
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 https://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.