862 lines
40 KiB
Plaintext
862 lines
40 KiB
Plaintext
INSTALLATION INSTRUCTIONS for the Independent JPEG Group's JPEG software
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Copyright (C) 1991-1995, Thomas G. Lane.
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This file is part of the Independent JPEG Group's software.
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For conditions of distribution and use, see the accompanying README file.
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This file explains how to configure and install the IJG software. We have
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tried to make this software extremely portable and flexible, so that it can be
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adapted to almost any environment. The downside of this decision is that the
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installation process is complicated. We have provided shortcuts to simplify
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the task on common systems. But in any case, you will need at least a little
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familiarity with C programming and program build procedures for your system.
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If you are only using this software as part of a larger program, the larger
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program's installation procedure may take care of configuring the IJG code.
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For example, Ghostscript's installation script will configure the IJG code.
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You don't need to read this file if you just want to compile Ghostscript.
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If you are on a Unix machine, you may not need to read this file at all.
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Try doing
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./configure
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make
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make test
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If that doesn't complain, do
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make install
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(better do "make -n install" first to see if the makefile will put the files
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where you want them). Read further if you run into snags or want to customize
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the code for your system.
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TABLE OF CONTENTS
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-----------------
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Before you start
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Configuring the software:
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using the automatic "configure" script
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using one of the supplied jconfig and makefile files
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by hand
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Building the software
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Testing the software
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Installing the software
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Optional stuff
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Optimization
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Hints for specific systems
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BEFORE YOU START
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================
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Before installing the software you must unpack the distributed source code.
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Since you are reading this file, you have probably already succeeded in this
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task. However, there is a potential for error if you needed to convert the
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files to the local standard text file format (for example, if you are on
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MS-DOS you may have converted LF end-of-line to CR/LF). You must apply
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such conversion to all the files EXCEPT those whose names begin with "test".
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The test files contain binary data; if you change them in any way then the
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self-test will give bad results.
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Please check the last section of this file to see if there are hints for the
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specific machine or compiler you are using.
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CONFIGURING THE SOFTWARE
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========================
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To configure the IJG code for your system, you need to create two files:
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* jconfig.h: contains values for system-dependent #define symbols.
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* Makefile: controls the compilation process.
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(On a non-Unix machine, you may create "project files" or some other
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substitute for a Makefile. jconfig.h is needed in any environment.)
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We provide three different ways to generate these files:
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* On a Unix system, you can just run the "configure" script.
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* We provide sample jconfig files and makefiles for popular machines;
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if your machine matches one of the samples, just copy the right sample
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files to jconfig.h and Makefile.
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* If all else fails, read the instructions below and make your own files.
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Configuring the software using the automatic "configure" script
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---------------------------------------------------------------
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If you are on a Unix machine, you can just type
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./configure
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and let the configure script construct appropriate configuration files.
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If you're using "csh" on an old version of System V, you might need to type
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sh configure
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instead to prevent csh from trying to execute configure itself.
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Expect configure to run for a few minutes, particularly on slower machines;
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it works by compiling a series of test programs.
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Configure was created with GNU Autoconf and it follows the usual conventions
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for GNU configure scripts. It makes a few assumptions that you may want to
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override. You can do this by providing optional switches to configure:
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* Configure will use gcc (GNU C compiler) if it's available, otherwise cc.
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To force a particular compiler to be selected, use the CC option, for example
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./configure CC='cc'
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The same method can be used to include any unusual compiler switches.
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For example, on HP-UX you probably want to say
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./configure CC='cc -Aa'
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to get HP's compiler to run in ANSI mode.
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* The default CFLAGS setting is "-O". You can override this by saying,
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for example, ./configure CFLAGS='-O2'.
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* Configure will set up the makefile so that "make install" will install files
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into /usr/local/bin, /usr/local/man, etc. You can specify an installation
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prefix other than "/usr/local" by giving configure the option "--prefix=PATH".
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* If you don't have a lot of swap space, you may need to enable the IJG
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software's internal virtual memory mechanism. To do this, give the option
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"--enable-maxmem=N" where N is the default maxmemory limit in megabytes.
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This is discussed in more detail under "Selecting a memory manager", below.
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You probably don't need to worry about this on reasonably-sized Unix machines,
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unless you plan to process very large images.
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Configure has some other features that are useful if you are cross-compiling
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or working in a network of multiple machine types; but if you need those
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features, you probably already know how to use them.
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Configuring the software using one of the supplied jconfig and makefile files
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-----------------------------------------------------------------------------
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If you have one of these systems, you can just use the provided configuration
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files:
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Makefile jconfig file System and/or compiler
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makefile.manx jconfig.manx Amiga, Manx Aztec C
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makefile.sas jconfig.sas Amiga, SAS C
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mak*jpeg.st jconfig.st Atari ST/STE/TT, Pure C or Turbo C
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makefile.bcc jconfig.bcc MS-DOS or OS/2, Borland C
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makefile.dj jconfig.dj MS-DOS, DJGPP (Delorie's port of GNU C)
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makefile.mc6 jconfig.mc6 MS-DOS, Microsoft C version 6.x and up
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makefile.wat jconfig.wat MS-DOS, OS/2, or Windows NT, Watcom C
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makefile.mms jconfig.vms Digital VMS, with MMS software
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makefile.vms jconfig.vms Digital VMS, without MMS software
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Copy the proper jconfig file to jconfig.h and the makefile to Makefile
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(or whatever your system uses as the standard makefile name). For the
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Atari, we provide four project files; see the Atari hints below.
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Configuring the software by hand
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--------------------------------
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First, generate a jconfig.h file. If you are moderately familiar with C,
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the comments in jconfig.doc should be enough information to do this; just
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copy jconfig.doc to jconfig.h and edit it appropriately. Otherwise, you may
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prefer to use the ckconfig.c program. You will need to compile and execute
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ckconfig.c by hand --- we hope you know at least enough to do that.
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ckconfig.c may not compile the first try (in fact, the whole idea is for it
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to fail if anything is going to). If you get compile errors, fix them by
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editing ckconfig.c according to the directions given in ckconfig.c. Once
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you get it to run, it will write a suitable jconfig.h file, and will also
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print out some advice about which makefile to use.
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You may also want to look at the canned jconfig files, if there is one for a
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system similar to yours.
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Second, select a makefile and copy it to Makefile (or whatever your system
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uses as the standard makefile name). The most generic makefiles we provide
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are
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makefile.ansi: if your C compiler supports function prototypes
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makefile.unix: if not.
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(You have function prototypes if ckconfig.c put "#define HAVE_PROTOTYPES"
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in jconfig.h.) You may want to start from one of the other makefiles if
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there is one for a system similar to yours.
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Look over the selected Makefile and adjust options as needed. In particular
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you may want to change the CC and CFLAGS definitions. For instance, if you
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are using GCC, set CC=gcc. If you had to use any compiler switches to get
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ckconfig.c to work, make sure the same switches are in CFLAGS.
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If you are on a system that doesn't use makefiles, you'll need to set up
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project files (or whatever you do use) to compile all the source files and
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link them into executable files cjpeg, djpeg, jpegtran, rdjpgcom, and wrjpgcom.
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See the file lists in any of the makefiles to find out which files go into
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each program. Note that the provided makefiles all make a "library" file
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libjpeg first, but you don't have to do that if you don't want to; the file
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lists identify which source files are actually needed for compression,
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decompression, or both. As a last resort, you can make a batch script that
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just compiles everything and links it all together; makefile.vms is an example
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of this (it's for VMS systems that have no make-like utility).
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Here are comments about some specific configuration decisions you'll
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need to make:
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Command line style
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------------------
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These programs can use a Unix-like command line style which supports
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redirection and piping, like this:
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cjpeg inputfile >outputfile
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cjpeg <inputfile >outputfile
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source program | cjpeg >outputfile
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The simpler "two file" command line style is just
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cjpeg inputfile outputfile
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You may prefer the two-file style, particularly if you don't have pipes.
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You MUST use two-file style on any system that doesn't cope well with binary
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data fed through stdin/stdout; this is true for some MS-DOS compilers, for
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example. If you're not on a Unix system, it's safest to assume you need
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two-file style. (But if your compiler provides either the Posix-standard
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fdopen() library routine or a Microsoft-compatible setmode() routine, you
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can safely use the Unix command line style, by defining USE_FDOPEN or
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USE_SETMODE respectively.)
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To use the two-file style, make jconfig.h say "#define TWO_FILE_COMMANDLINE".
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Selecting a memory manager
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--------------------------
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The IJG code is capable of working on images that are too big to fit in main
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memory; data is swapped out to temporary files as necessary. However, the
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code to do this is rather system-dependent. We provide four different
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memory managers:
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* jmemansi.c This version uses the ANSI-standard library routine tmpfile(),
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which not all non-ANSI systems have. On some systems
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tmpfile() may put the temporary file in a non-optimal
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location; if you don't like what it does, use jmemname.c.
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* jmemname.c This version creates named temporary files. For anything
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except a Unix machine, you'll need to configure the
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select_file_name() routine appropriately; see the comments
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near the head of jmemname.c. If you use this version, define
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NEED_SIGNAL_CATCHER in jconfig.h to make sure the temp files
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are removed if the program is aborted.
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* jmemnobs.c (That stands for No Backing Store :-).) This will compile on
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almost any system, but it assumes you have enough main memory
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or virtual memory to hold the biggest images you work with.
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* jmemdos.c This should be used with most 16-bit MS-DOS compilers.
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See the system-specific notes about MS-DOS for more info.
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IMPORTANT: if you use this, define USE_MSDOS_MEMMGR in
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jconfig.h, and include the assembly file jmemdosa.asm in the
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programs. The supplied makefiles and jconfig files for
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MS-DOS compilers already do both.
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To use a particular memory manager, change the SYSDEPMEM variable in your
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makefile to equal the corresponding object file name (for example, jmemansi.o
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or jmemansi.obj for jmemansi.c).
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If you have plenty of (real or virtual) main memory, just use jmemnobs.c.
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"Plenty" means about ten bytes for every pixel in the largest images
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you plan to process, so a lot of systems don't meet this criterion.
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If yours doesn't, try jmemansi.c first. If that doesn't compile, you'll have
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to use jmemname.c; be sure to adjust select_file_name() for local conditions.
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You may also need to change unlink() to remove() in close_backing_store().
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Except with jmemnobs.c, you need to adjust the DEFAULT_MAX_MEM setting to a
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reasonable value for your system (either by adding a #define for
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DEFAULT_MAX_MEM to jconfig.h, or by adding a -D switch to the Makefile).
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This value limits the amount of data space the program will attempt to
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allocate. Code and static data space isn't counted, so the actual memory
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needs for cjpeg or djpeg are typically 100 to 150Kb more than the max-memory
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setting. Larger max-memory settings reduce the amount of I/O needed to
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process a large image, but too large a value can result in "insufficient
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memory" failures. On most Unix machines (and other systems with virtual
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memory), just set DEFAULT_MAX_MEM to several million and forget it. At the
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other end of the spectrum, for MS-DOS machines you probably can't go much
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above 300K to 400K. (On MS-DOS the value refers to conventional memory only.
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Extended/expanded memory is handled separately by jmemdos.c.)
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BUILDING THE SOFTWARE
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=====================
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Now you should be able to compile the software. Just say "make" (or
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whatever's necessary to start the compilation). Have a cup of coffee.
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Here are some things that could go wrong:
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If your compiler complains about undefined structures, you should be able to
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shut it up by putting "#define INCOMPLETE_TYPES_BROKEN" in jconfig.h.
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If you have trouble with missing system include files or inclusion of the
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wrong ones, read jinclude.h. This shouldn't happen if you used configure
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or ckconfig.c to set up jconfig.h.
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There are a fair number of routines that do not use all of their parameters;
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some compilers will issue warnings about this, which you can ignore. There
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are also a few configuration checks that may give "unreachable code" warnings.
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Any other warning deserves investigation.
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If you don't have a getenv() library routine, define NO_GETENV.
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Also see the system-specific hints, below.
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TESTING THE SOFTWARE
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====================
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As a quick test of functionality we've included a small sample image in
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several forms:
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testorig.jpg Starting point for the djpeg tests.
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testimg.ppm The output of djpeg testorig.jpg
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testimg.gif The output of djpeg -gif testorig.jpg
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testimg.jpg The output of cjpeg testimg.ppm
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testprog.jpg Progressive-mode equivalent of testorig.jpg.
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testimgp.jpg The output of cjpeg -progressive -optimize testimg.ppm
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(The first- and second-generation .jpg files aren't identical since JPEG is
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lossy.) If you can generate duplicates of the testimg* files then you
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probably have working programs.
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With most of the makefiles, "make test" will perform the necessary
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comparisons.
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If you're using a makefile that doesn't provide the test option, run djpeg
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and cjpeg by hand and compare the output files to testimg* with whatever
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binary file comparison tool you have. The files should be bit-for-bit
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identical.
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If the programs complain "MAX_ALLOC_CHUNK is wrong, please fix", then you
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need to reduce MAX_ALLOC_CHUNK to a value that fits in type size_t.
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Try adding "#define MAX_ALLOC_CHUNK 65520L" to jconfig.h. A less likely
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configuration error is "ALIGN_TYPE is wrong, please fix": defining ALIGN_TYPE
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as long should take care of that one.
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If the cjpeg test run fails with "Missing Huffman code table entry", it's a
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good bet that you needed to define RIGHT_SHIFT_IS_UNSIGNED. Go back to the
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configuration step and run ckconfig.c. (This is a good plan for any other
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test failure, too.)
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If you are using Unix (one-file) command line style on a non-Unix system,
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it's a good idea to check that binary I/O through stdin/stdout actually
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works. You should get the same results from "djpeg <testorig.jpg >out.ppm"
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as from "djpeg -outfile out.ppm testorig.jpg". Note that the makefiles all
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use the latter style and therefore do not exercise stdin/stdout! If this
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check fails, try recompiling with USE_SETMODE or USE_FDOPEN defined.
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If it still doesn't work, better use two-file style.
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If you chose a memory manager other than jmemnobs.c, you should test that
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temporary-file usage works. Try "djpeg -gif -max 0 testorig.jpg" and make
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sure its output matches testimg.gif. If you have any really large images
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handy, try compressing them with -optimize and/or decompressing with -gif to
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make sure your DEFAULT_MAX_MEM setting is not too large.
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NOTE: this is far from an exhaustive test of the JPEG software; some modules,
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such as 1-pass color quantization, are not exercised at all. It's just a
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quick test to give you some confidence that you haven't missed something
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major.
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INSTALLING THE SOFTWARE
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=======================
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Once you're done with the above steps, you can install the software by
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copying the executable files (cjpeg, djpeg, jpegtran, rdjpgcom, and wrjpgcom)
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to wherever you normally install programs. On Unix systems, you'll also want
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to put the man pages (cjpeg.1, djpeg.1, jpegtran.1, rdjpgcom.1, wrjpgcom.1)
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in the man-page directory. The canned makefiles don't support this step
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since there's such a wide variety of installation procedures on different
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systems.
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If you generated a Makefile with the "configure" script, you can just say
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make install
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to install the programs and their man pages into the standard places.
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(You'll probably need to be root to do this.) We recommend first saying
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make -n install
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to see where configure thought the files should go. You may need to edit
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the Makefile, particularly if your system's conventions for man page
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filenames don't match what configure expects.
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If you want to install the library file libjpeg.a and the include files j*.h
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(for use in compiling other programs besides the IJG ones), then say
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make install-lib
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OPTIONAL STUFF
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==============
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Progress monitor:
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If you like, you can #define PROGRESS_REPORT (in jconfig.h) to enable display
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of percent-done progress reports. The routine provided in cdjpeg.c merely
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prints percentages to stderr, but you can customize it to do something
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fancier.
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Utah RLE file format support:
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We distribute the software with support for RLE image files (Utah Raster
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Toolkit format) disabled, because the RLE support won't compile without the
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Utah library. If you have URT version 3.1 or later, you can enable RLE
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support as follows:
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1. #define RLE_SUPPORTED in jconfig.h.
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2. Add a -I option to CFLAGS in the Makefile for the directory
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containing the URT .h files (typically the "include"
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subdirectory of the URT distribution).
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3. Add -L... -lrle to LDLIBS in the Makefile, where ... specifies
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the directory containing the URT "librle.a" file (typically the
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"lib" subdirectory of the URT distribution).
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Support for 12-bit-deep pixel data:
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The JPEG standard allows either 8-bit or 12-bit data precision. (For color,
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this means 8 or 12 bits per channel, of course.) If you need to work with
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deeper than 8-bit data, you can compile the IJG code for 12-bit operation.
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To do so:
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1. In jmorecfg.h, define BITS_IN_JSAMPLE as 12 rather than 8.
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2. In jconfig.h, undefine BMP_SUPPORTED, RLE_SUPPORTED, and TARGA_SUPPORTED,
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because the code for those formats doesn't handle 12-bit data and won't
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even compile. (The PPM code does work, as explained below. The GIF
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code works too; it scales 8-bit GIF data to and from 12-bit depth
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automatically.)
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3. Compile. Don't expect "make test" to pass, since the supplied test
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files are for 8-bit data.
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Currently, 12-bit support does not work on 16-bit-int machines.
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Note that a 12-bit version will not read 8-bit JPEG files, nor vice versa;
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so you'll want to keep around a regular 8-bit compilation as well.
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(Run-time selection of data depth, to allow a single copy that does both,
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is possible but would probably slow things down considerably; it's very low
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on our to-do list.)
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The PPM reader (rdppm.c) can read 12-bit data from either text-format or
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binary-format PPM and PGM files. Binary-format PPM/PGM files which have a
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maxval greater than 255 are assumed to use 2 bytes per sample, LSB first
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(little-endian order). As of early 1995, 2-byte binary format is not
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officially supported by the PBMPLUS library, but it is expected that the
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next release of PBMPLUS will support it. Note that the PPM reader will
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read files of any maxval regardless of the BITS_IN_JSAMPLE setting; incoming
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data is automatically rescaled to either maxval=255 or maxval=4095 as
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appropriate for the cjpeg bit depth.
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The PPM writer (wrppm.c) will normally write 2-byte binary PPM or PGM
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format, maxval 4095, when compiled with BITS_IN_JSAMPLE=12. Since this
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format is not yet widely supported, you can disable it by compiling wrppm.c
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with PPM_NORAWWORD defined; then the data is scaled down to 8 bits to make a
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standard 1-byte/sample PPM or PGM file. (Yes, this means still another copy
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of djpeg to keep around. But hopefully you won't need it for very long.
|
|
Poskanzer's supposed to get that new PBMPLUS release out Real Soon Now.)
|
|
|
|
Of course, if you are working with 12-bit data, you probably have it stored
|
|
in some other, nonstandard format. In that case you'll probably want to
|
|
write your own I/O modules to read and write your format.
|
|
|
|
Note that a 12-bit version of cjpeg always runs in "-optimize" mode, in
|
|
order to generate valid Huffman tables. This is necessary because our
|
|
default Huffman tables only cover 8-bit data.
|
|
|
|
Removing code:
|
|
|
|
If you need to make a smaller version of the JPEG software, some optional
|
|
functions can be removed at compile time. See the xxx_SUPPORTED #defines in
|
|
jconfig.h and jmorecfg.h. If at all possible, we recommend that you leave in
|
|
decoder support for all valid JPEG files, to ensure that you can read anyone's
|
|
output. Taking out support for image file formats that you don't use is the
|
|
most painless way to make the programs smaller. Another possibility is to
|
|
remove some of the DCT methods: in particular, the "IFAST" method may not be
|
|
enough faster than the others to be worth keeping on your machine. (If you
|
|
do remove ISLOW or IFAST, be sure to redefine JDCT_DEFAULT or JDCT_FASTEST
|
|
to a supported method, by adding a #define in jconfig.h.)
|
|
|
|
|
|
OPTIMIZATION
|
|
============
|
|
|
|
Unless you own a Cray, you'll probably be interested in making the JPEG
|
|
software go as fast as possible. This section covers some machine-dependent
|
|
optimizations you may want to try. We suggest that before trying any of
|
|
this, you first get the basic installation to pass the self-test step.
|
|
Repeat the self-test after any optimization to make sure that you haven't
|
|
broken anything.
|
|
|
|
The integer DCT routines perform a lot of multiplications. These
|
|
multiplications must yield 32-bit results, but none of their input values
|
|
are more than 16 bits wide. On many machines, notably the 680x0 and 80x86
|
|
CPUs, a 16x16=>32 bit multiply instruction is faster than a full 32x32=>32
|
|
bit multiply. Unfortunately there is no portable way to specify such a
|
|
multiplication in C, but some compilers can generate one when you use the
|
|
right combination of casts. See the MULTIPLYxxx macro definitions in
|
|
jdct.h. If your compiler makes "int" be 32 bits and "short" be 16 bits,
|
|
defining SHORTxSHORT_32 is fairly likely to work. When experimenting with
|
|
alternate definitions, be sure to test not only whether the code still works
|
|
(use the self-test), but also whether it is actually faster --- on some
|
|
compilers, alternate definitions may compute the right answer, yet be slower
|
|
than the default. Timing cjpeg on a large PGM (grayscale) input file is the
|
|
best way to check this, as the DCT will be the largest fraction of the runtime
|
|
in that mode. (Note: some of the distributed compiler-specific jconfig files
|
|
already contain #define switches to select appropriate MULTIPLYxxx
|
|
definitions.)
|
|
|
|
If your machine has sufficiently fast floating point hardware, you may find
|
|
that the float DCT method is faster than the integer DCT methods, even
|
|
after tweaking the integer multiply macros. In that case you may want to
|
|
make the float DCT be the default method. (The only objection to this is
|
|
that float DCT results may vary slightly across machines.) To do that, add
|
|
"#define JDCT_DEFAULT JDCT_FLOAT" to jconfig.h. Even if you don't change
|
|
the default, you should redefine JDCT_FASTEST, which is the method selected
|
|
by djpeg's -fast switch. Don't forget to update the documentation files
|
|
(usage.doc and/or cjpeg.1, djpeg.1) to agree with what you've done.
|
|
|
|
If access to "short" arrays is slow on your machine, it may be a win to
|
|
define type JCOEF as int rather than short. This will cost a good deal of
|
|
memory though, particularly in some multi-pass modes, so don't do it unless
|
|
you have memory to burn and short is REALLY slow.
|
|
|
|
If your compiler can compile function calls in-line, make sure the INLINE
|
|
macro in jmorecfg.h is defined as the keyword that marks a function
|
|
inline-able. Some compilers have a switch that tells the compiler to inline
|
|
any function it thinks is profitable (e.g., -finline-functions for gcc).
|
|
Enabling such a switch is likely to make the compiled code bigger but faster.
|
|
|
|
In general, it's worth trying the maximum optimization level of your compiler,
|
|
and experimenting with any optional optimizations such as loop unrolling.
|
|
(Unfortunately, far too many compilers have optimizer bugs ... be prepared to
|
|
back off if the code fails self-test.) If you do any experimentation along
|
|
these lines, please report the optimal settings to jpeg-info@uunet.uu.net so
|
|
we can mention them in future releases. Be sure to specify your machine and
|
|
compiler version.
|
|
|
|
|
|
HINTS FOR SPECIFIC SYSTEMS
|
|
==========================
|
|
|
|
We welcome reports on changes needed for systems not mentioned here. Submit
|
|
'em to jpeg-info@uunet.uu.net. Also, if configure or ckconfig.c is wrong
|
|
about how to configure the JPEG software for your system, please let us know.
|
|
|
|
|
|
Acorn RISC OS:
|
|
|
|
(Thanks to Simon Middleton for these hints on compiling with Desktop C.)
|
|
After renaming the files according to Acorn conventions, take a copy of
|
|
makefile.ansi, change all occurrences of 'libjpeg.a' to 'libjpeg.o' and
|
|
change these definitions as indicated:
|
|
|
|
CFLAGS= -throwback -IC: -Wn
|
|
LDLIBS=C:o.Stubs
|
|
SYSDEPMEM=jmemansi.o
|
|
LN=Link
|
|
AR=LibFile -c -o
|
|
|
|
Also add a new line '.c.o:; $(cc) $< $(cflags) -c -o $@'. Remove the
|
|
lines '$(RM) libjpeg.o' and '$(AR2) libjpeg.o' and the 'jconfig.h'
|
|
dependency section.
|
|
|
|
Copy jconfig.doc to jconfig.h. Edit jconfig.h to define TWO_FILE_COMMANDLINE
|
|
and CHAR_IS_UNSIGNED.
|
|
|
|
Run the makefile using !AMU not !Make. If you want to use the 'clean' and
|
|
'test' makefile entries then you will have to fiddle with the syntax a bit
|
|
and rename the test files.
|
|
|
|
|
|
Amiga:
|
|
|
|
SAS C 6.50 reportedly is too buggy to compile the IJG code properly.
|
|
A patch to update to 6.51 is available from SAS or AmiNet FTP sites.
|
|
|
|
The supplied config files are set up to use jmemname.c as the memory
|
|
manager, with temporary files being created on the device named by
|
|
"JPEGTMP:".
|
|
|
|
|
|
Atari ST/STE/TT:
|
|
|
|
Copy the project files makcjpeg.st, makdjpeg.st, maktjpeg.st, and makljpeg.st
|
|
to cjpeg.prj, djpeg.prj, jpegtran.prj, and libjpeg.prj respectively. The
|
|
project files should work as-is with Pure C. For Turbo C, change library
|
|
filenames "PC..." to "TC..." in each project file. Note that libjpeg.prj
|
|
selects jmemansi.c as the recommended memory manager. You'll probably want to
|
|
adjust the DEFAULT_MAX_MEM setting --- you want it to be a couple hundred K
|
|
less than your normal free memory. Put "#define DEFAULT_MAX_MEM nnnn" into
|
|
jconfig.h to do this.
|
|
|
|
To use the 68881/68882 coprocessor for the floating point DCT, add the
|
|
compiler option "-8" to the project files and replace PCFLTLIB.LIB with
|
|
PC881LIB.LIB in cjpeg.prj and djpeg.prj. Or if you don't have a
|
|
coprocessor, you may prefer to remove the float DCT code by undefining
|
|
DCT_FLOAT_SUPPORTED in jmorecfg.h (since without a coprocessor, the float
|
|
code will be too slow to be useful). In that case, you can delete
|
|
PCFLTLIB.LIB from the project files.
|
|
|
|
Note that you must make libjpeg.lib before making cjpeg.ttp, djpeg.ttp,
|
|
or jpegtran.ttp. You'll have to perform the self-test by hand.
|
|
|
|
We haven't bothered to include project files for rdjpgcom and wrjpgcom.
|
|
Those source files should just be compiled by themselves; they don't
|
|
depend on the JPEG library.
|
|
|
|
There is a bug in some older versions of the Turbo C library which causes the
|
|
space used by temporary files created with "tmpfile()" not to be freed after
|
|
an abnormal program exit. If you check your disk afterwards, you will find
|
|
cluster chains that are allocated but not used by a file. This should not
|
|
happen in cjpeg/djpeg/jpegtran, since we enable a signal catcher to explicitly
|
|
close temp files before exiting. But if you use the JPEG library with your
|
|
own code, be sure to supply a signal catcher, or else use a different
|
|
system-dependent memory manager.
|
|
|
|
|
|
Cray:
|
|
|
|
Should you be so fortunate as to be running JPEG on a Cray YMP, there is a
|
|
compiler bug in old versions of Cray's Standard C (prior to 3.1). If you
|
|
still have an old compiler, you'll need to insert a line reading
|
|
"#pragma novector" just before the loop
|
|
for (i = 1; i <= (int) htbl->bits[l]; i++)
|
|
huffsize[p++] = (char) l;
|
|
in fix_huff_tbl (in V5beta1, line 204 of jchuff.c and line 176 of jdhuff.c).
|
|
[This bug may or may not still occur with the current IJG code, but it's
|
|
probably a dead issue anyway...]
|
|
|
|
|
|
HP-UX:
|
|
|
|
If you have HP-UX 7.05 or later with the "software development" C compiler,
|
|
you should run the compiler in ANSI mode. If using the configure script,
|
|
say
|
|
./configure CC='cc -Aa'
|
|
(or -Ae if you prefer). If configuring by hand, use makefile.ansi and add
|
|
"-Aa" to the CFLAGS line in the makefile.
|
|
|
|
If you have a pre-7.05 system, or if you are using the non-ANSI C compiler
|
|
delivered with a minimum HP-UX system, then you must use makefile.unix
|
|
(and do NOT add -Aa); or just run configure without the CC option.
|
|
|
|
On HP 9000 series 800 machines, the HP C compiler is buggy in revisions prior
|
|
to A.08.07. If you get complaints about "not a typedef name", you'll have to
|
|
use makefile.unix, or run configure without the CC option.
|
|
|
|
|
|
Macintosh, MPW:
|
|
|
|
We don't directly support MPW in the current release, but Larry Rosenstein
|
|
ported an earlier version of the IJG code without very much trouble. There's
|
|
useful notes and conversion scripts in his kit for porting PBMPLUS to MPW.
|
|
You can obtain the kit by FTP to ftp.apple.com, files /pub/lsr/pbmplus-port*.
|
|
|
|
|
|
Macintosh, Metrowerks CodeWarrior:
|
|
|
|
Metrowerks release DR2 has problems with the IJG code; don't use it. Release
|
|
DR3.5 or later should be OK.
|
|
|
|
The command-line-style interface can be used by defining USE_CCOMMAND and
|
|
TWO_FILE_COMMANDLINE (see next entry for more details).
|
|
|
|
On 680x0 Macs, Metrowerks defines type "double" as a 10-byte IEEE extended
|
|
float. jmemmgr.c won't like this: it wants sizeof(ALIGN_TYPE) to be a power
|
|
of 2. Add "#define ALIGN_TYPE long" to jconfig.h to eliminate the complaint.
|
|
|
|
|
|
Macintosh, Think C:
|
|
|
|
The supplied user-interface files (cjpeg.c and djpeg.c) are set up to provide
|
|
a Unix-style command line interface. You can use this interface on the Mac
|
|
by means of Think's ccommand() library routine. However, a much better
|
|
Mac-style user interface has been prepared by Jim Brunner. You can obtain
|
|
the additional source code needed for that user interface by FTP to
|
|
sumex-aim.stanford.edu, file /info-mac/dev/src/jpeg-convert-c.hqx. Jim's
|
|
documentation also includes more detailed build instructions for Think C.
|
|
(Jim is working on updating this code to work with v5 of the IJG library,
|
|
but it wasn't ready as of v5 release time. Should be out before too long.)
|
|
|
|
If you want to build the minimal command line version, proceed as follows.
|
|
You'll have to prepare project files for the programs; we don't include any
|
|
in the distribution since they are not text files. Use the file lists in
|
|
any of the supplied makefiles as a guide. Also add the ANSI and Unix C
|
|
libraries in a separate segment. You may need to divide the JPEG files into
|
|
more than one segment; we recommend dividing compression and decompression
|
|
modules. Define USE_CCOMMAND in jconfig.h so that the ccommand() routine is
|
|
called. You must also define TWO_FILE_COMMANDLINE because stdin/stdout
|
|
don't handle binary data correctly.
|
|
|
|
On 680x0 Macs, Think C defines type "double" as a 12-byte IEEE extended float.
|
|
jmemmgr.c won't like this: it wants sizeof(ALIGN_TYPE) to be a power of 2.
|
|
Add "#define ALIGN_TYPE long" to jconfig.h to eliminate the complaint.
|
|
|
|
|
|
MIPS R3000:
|
|
|
|
MIPS's cc version 1.31 has a rather nasty optimization bug. Don't use -O
|
|
if you have that compiler version. (Use "cc -V" to check the version.)
|
|
Note that the R3000 chip is found in workstations from DEC and others.
|
|
|
|
|
|
MS-DOS, generic comments for 16-bit compilers:
|
|
|
|
The IJG code is designed to be compiled in 80x86 "small" or "medium" memory
|
|
models (i.e., data pointers are 16 bits unless explicitly declared "far";
|
|
code pointers can be either size). You may be able to use small model to
|
|
compile cjpeg or djpeg by itself, but you will probably have to use medium
|
|
model for any larger application. This won't make much difference in
|
|
performance. You *will* take a noticeable performance hit if you use a
|
|
large-data memory model, and you should avoid "huge" model if at all
|
|
possible. Be sure that NEED_FAR_POINTERS is defined in jconfig.h if you use
|
|
a small-data memory model; be sure it is NOT defined if you use a large-data
|
|
model. (The supplied makefiles and jconfig files for Borland and Microsoft C
|
|
compile in medium model and define NEED_FAR_POINTERS.)
|
|
|
|
The DOS-specific memory manager, jmemdos.c, should be used if possible.
|
|
It needs some assembly-code routines which are in jmemdosa.asm; make sure
|
|
your makefile assembles that file and includes it in the library. If you
|
|
don't have a suitable assembler, you can get pre-assembled object files for
|
|
jmemdosa by FTP from ftp.uu.net: graphics/jpeg/jdosaobj.zip. (DOS-oriented
|
|
distributions of the IJG source code often include these object files.)
|
|
|
|
When using jmemdos.c, jconfig.h must define USE_MSDOS_MEMMGR and must set
|
|
MAX_ALLOC_CHUNK to less than 64K (65520L is a typical value). If your
|
|
C library's far-heap malloc() can't allocate blocks that large, reduce
|
|
MAX_ALLOC_CHUNK to whatever it can handle.
|
|
|
|
If you can't use jmemdos.c for some reason --- for example, because you
|
|
don't have an assembler to assemble jmemdosa.asm --- you'll have to fall
|
|
back to jmemansi.c or jmemname.c. You'll probably still need to set
|
|
MAX_ALLOC_CHUNK in jconfig.h, because most DOS C libraries won't malloc()
|
|
more than 64K at a time. IMPORTANT: if you use jmemansi.c or jmemname.c,
|
|
you will have to compile in a large-data memory model in order to get the
|
|
right stdio library. Too bad.
|
|
|
|
wrjpgcom needs to be compiled in large model, because it malloc()s a 64KB
|
|
work area to hold the comment text. If your C library's malloc can't
|
|
handle that, reduce MAX_COM_LENGTH as necessary in wrjpgcom.c.
|
|
|
|
Most MS-DOS compilers treat stdin/stdout as text files, so you must use
|
|
two-file command line style. But if your compiler has either fdopen() or
|
|
setmode(), you can use one-file style if you like. To do this, define
|
|
USE_SETMODE or USE_FDOPEN so that stdin/stdout will be set to binary mode.
|
|
(USE_SETMODE seems to work with more DOS compilers than USE_FDOPEN.) You
|
|
should test that I/O through stdin/stdout produces the same results as I/O
|
|
to explicitly named files... the "make test" procedures in the supplied
|
|
makefiles do NOT use stdin/stdout.
|
|
|
|
|
|
MS-DOS, generic comments for 32-bit compilers:
|
|
|
|
None of the above comments about memory models apply if you are using a
|
|
32-bit flat-memory-space environment, such as DJGPP or Watcom C. (And you
|
|
should use one if you have it, as performance will be much better than
|
|
8086-compatible code!) For flat-memory-space compilers, do NOT define
|
|
NEED_FAR_POINTERS, and do NOT use jmemdos.c. Use jmemnobs.c if the
|
|
environment supplies adequate virtual memory, otherwise use jmemansi.c or
|
|
jmemname.c.
|
|
|
|
You'll still need to be careful about binary I/O through stdin/stdout.
|
|
See the last paragraph of the previous section.
|
|
|
|
|
|
MS-DOS, Borland C:
|
|
|
|
Be sure to convert all the source files to DOS text format (CR/LF newlines).
|
|
Although Borland C will often work OK with unmodified Unix (LF newlines)
|
|
source files, sometimes it will give bogus compile errors.
|
|
"Illegal character '#'" is the most common such error. (This is true with
|
|
Borland C 3.1, but perhaps is fixed in newer releases.)
|
|
|
|
If you want one-file command line style, just undefine TWO_FILE_COMMANDLINE.
|
|
jconfig.bcc already includes #define USE_SETMODE to make this work.
|
|
(fdopen does not work correctly.)
|
|
|
|
|
|
MS-DOS, DJGPP:
|
|
|
|
Use a recent version of DJGPP (1.11 or better). If you prefer two-file
|
|
command line style, change the supplied jconfig.dj to define
|
|
TWO_FILE_COMMANDLINE. makefile.dj is set up to generate only COFF files
|
|
(cjpeg, djpeg, etc) when you say make. After testing, say "make exe" to
|
|
make executables with stub.exe, or "make standalone" if you want executables
|
|
that include go32. You will probably need to tweak the makefile's pointer to
|
|
go32.exe to do "make standalone".
|
|
|
|
|
|
MS-DOS, Microsoft C:
|
|
|
|
If you want one-file command line style, just undefine TWO_FILE_COMMANDLINE.
|
|
jconfig.mc6 already includes #define USE_SETMODE to make this work.
|
|
(fdopen does not work correctly.)
|
|
|
|
Old versions of MS C fail with an "out of macro expansion space" error
|
|
because they can't cope with the macro TRACEMS8 (defined in jerror.h).
|
|
If this happens to you, the easiest solution is to change TRACEMS8 to
|
|
expand to nothing. You'll lose the ability to dump out JPEG coefficient
|
|
tables with djpeg -debug -debug, but at least you can compile.
|
|
|
|
Original MS C 6.0 is very buggy; it compiles incorrect code unless you turn
|
|
off optimization entirely (remove -O from CFLAGS). 6.00A is better, but it
|
|
still generates bad code if you enable loop optimizations (-Ol or -Ox).
|
|
|
|
MS C 8.0 reportedly fails to compile jquant1.c if optimization is turned off
|
|
(yes, off).
|
|
|
|
|
|
Microsoft Windows (all versions):
|
|
|
|
Some Windows system include files define typedef boolean as "unsigned char".
|
|
The IJG code also defines typedef boolean, but we make it "int" by default.
|
|
This doesn't affect the IJG programs because we don't import those Windows
|
|
include files. But if you use the JPEG library in your own program, and some
|
|
of your program's files import one definition of boolean while some import the
|
|
other, you can get all sorts of mysterious problems. A good preventive step
|
|
is to change jmorecfg.h to define boolean as unsigned char. We recommend
|
|
making that part of jmorecfg.h read like this:
|
|
#ifndef __RPCNDR_H__ /* don't conflict if rpcndr.h already read */
|
|
typedef unsigned char boolean;
|
|
#endif
|
|
|
|
Many people want to convert the IJG library into a DLL. This is reasonably
|
|
straightforward, but watch out for the following:
|
|
1. Don't try to compile as a DLL in small or medium memory model; use
|
|
large model, or even better, 32-bit flat model. Many places in the IJG code
|
|
assume the address of a local variable is an ordinary (not FAR) pointer;
|
|
that isn't true in a medium-model DLL.
|
|
2. Microsoft C cannot pass file pointers between applications and DLLs.
|
|
(See Microsoft Knowledge Base, PSS ID Number Q50336.) So jdatasrc.c and
|
|
jdatadst.c don't work if you open a file in your application and then pass
|
|
the pointer to the DLL. One workaround is to make jdatasrc.c/jdatadst.c
|
|
part of your main application rather than part of the DLL.
|
|
|
|
The unmodified IJG library presents a very C-specific application interface,
|
|
so the resulting DLL is only usable from C or C++ applications. There has
|
|
been some talk of writing wrapper code that would present a simpler interface
|
|
usable from other languages, such as Visual Basic. This is on our to-do list
|
|
but hasn't been very high priority --- any volunteers out there?
|
|
|
|
|
|
Microsoft Windows, Borland C:
|
|
|
|
Borland C++ 4.5 fails with an internal compiler error when trying to compile
|
|
jdmerge.c. If enough people complain, perhaps Borland will fix it.
|
|
In the meantime, you can work around the problem by undefining
|
|
UPSAMPLE_MERGING_SUPPORTED in jmorecfg.h, at the price of losing most of the
|
|
speedup from the "-nosmooth" decompression option. Alternatively, I'm told
|
|
that replacing three or more uses of h2v1_merged_upsample()'s variable
|
|
"range_limit" with direct references to "cinfo->sample_range_limit" makes
|
|
the problem go away, though the routine is then a little slower than it
|
|
should be. Pretty bizarre, especially since the very similar routine
|
|
h2v2_merged_upsample doesn't trigger the bug.
|
|
|
|
|
|
SGI:
|
|
|
|
Set "AR2= ar -ts" rather than "AR2= ranlib" in the Makefile. If you are
|
|
using configure, you should say
|
|
./configure RANLIB='ar -ts'
|
|
|
|
On the MIPS R4000 architecture (Indy, etc.), the compiler option "-mips2"
|
|
reportedly speeds up the float DCT method substantially, enough to make it
|
|
faster than the default int method (but still slower than the fast int
|
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method). If you use -mips2, you may want to alter the default DCT method to
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be float. To do this, put "#define JDCT_DEFAULT JDCT_FLOAT" in jconfig.h.
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VMS:
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On an Alpha/VMS system with MMS, be sure to use the "/Marco=Alpha=1"
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qualifier with MMS when building the JPEG package.
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VAX/VMS v5.5-1 may have problems with the test step of the build procedure
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reporting differences when it compares the original and test images. If the
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error points to the last block of the files, it is most likely bogus and may
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be safely ignored. It seems to be because the files are Stream_LF and
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Backup/Compare has difficulty with the (presumably) null padded files.
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This problem was not observed on VAX/VMS v6.1 or AXP/VMS v6.1.
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