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-<!DOCTYPE html PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN">
-<html>
-<head>
-<meta name="generator" content=
-"HTML Tidy for Solaris (vers 12 April 2005), see www.w3.org">
-<title>Building the TIFF Software Distribution</title>
-</head>
-<body bgcolor="white">
-<h1><font face="Arial, Helvetica, Sans"><img src=
-"images/cramps.gif" width="159" height="203" align="left" border=
-"1" hspace="6"> Building the Software Distribution</font></h1>
-<ul>
-<li><a href="#UNIX">Building on a UNIX system</a>.</li>
-<li><a href="#MacMPW">Building on a Macintosh system with
-MPW</a>.</li>
-<li><a href="#MacCW">Building on a Macintosh system with
-CodeWarrior</a>.</li>
-<li><a href="#PC">Building on an MS-DOS or Windows system</a>.</li>
-<li><a href="#DJGPP">Building on MS-DOS with the DJGPP v2
-compiler</a>.</li>
-<li><a href="#VMS">Building on a VMS system</a>.</li>
-<li><a href="#Acorn">Building on an Acorn RISC OS system</a>.</li>
-<li><a href="#Other">Building the Software on Other
-Systems</a></li>
-</ul>
-<br clear="left">
-This chapter contains step-by-step instructions on how to configure
-and build the TIFF software distribution. The software is most
-easily built on a UNIX system, but with a little bit of work it can
-easily be built and used on other non-UNIX platforms. <a name=
-"UNIX" id="UNIX"></a>
-<hr>
-<h2>Building on a UNIX System</h2>
-To build the software on a UNIX system you need to first run the
-configure shell script that is located in the top level of the
-source directory. This script probes the target system for
-necessary tools and functions and constructs a build environment in
-which the software may be compiled. Once configuration is done, you
-simply run <tt>make</tt> (or <tt>gmake</tt>) to build the software
-and then <tt>make install</tt> to do the installation; for example:
-<div style="margin-left: 2em">
-<pre>
-hyla% <b>cd tiff-v3.4beta099</b>
-hyla% <b>./configure</b>
- <i>...lots of messages...</i>
-hyla% <b>make</b>
- <i>...lots of messages...</i>
-hyla# <b>make install</b>
-</pre></div>
-Supplied makefiles are depend on GNU <tt>make</tt> utility, so you
-will need the one. Depending on your installation <b>make</b>
-command may invoke standard system <tt>make</tt> and <b>gmake</b>
-invoke GNU make. In this case you should use former. If you don't
-have <tt>make</tt> at all, but only <tt>gmake</tt>, you should
-export environment variable <tt>MAKE=gmake</tt> before
-<b>./configure</b>.
-<p>In general, the software is designed such that the following
-should be ``<i>make-able</i>'' in each directory:</p>
-<div style="margin-left: 2em">
-<pre>
-make [all] build stuff
-make install build&amp;install stuff
-make clean remove .o files, executables and cruft
-make distclean remove everything, that can be recreated
-</pre></div>
-Note that after running "<tt>make distclean</tt>" the
-<tt>configure</tt> script must be run again to create the Makefiles
-and other make-related files. <a name="BuildTrees" id=
-"BuildTrees"></a>
-<hr width="65%" align="right">
-<h3>Build Trees</h3>
-There are two schemes for configuring and building the software. If
-you intend to build the software for only one target system, you
-can configure the software so that it is built in the same
-directories as the source code.
-<div style="margin-left: 2em">
-<pre>
-hyla% <b>cd tiff-v3.4beta099</b>
-hyla% <b>ls</b>
-COPYRIGHT VERSION config.sub dist man
-Makefile.in config.guess configure html port
-README config.site contrib libtiff tools
-hyla% <b>./configure</b>
-</pre></div>
-<p>Otherwise, you can configure a build tree that is parallel to
-the source tree hierarchy but which contains only configured files
-and files created during the build procedure.</p>
-<div style="margin-left: 2em">
-<pre>
-hyla% <b>cd tiff-v3.4beta099</b>
-hyla% <b>mkdir obj obj/mycpu</b>
-hyla% <b>cd obj/mycpu</b>
-hyla% <b>../../configure</b>
-</pre></div>
-This second scheme is useful for:
-<ul>
-<li>building multiple targets from a single source tree</li>
-<li>building from a read-only source tree (e.g. if you receive the
-distribution on CD-ROM)</li>
-</ul>
-<a name="ConfigOptions" id="ConfigOptions"></a>
-<hr width="65%" align="right">
-<h3>Configuration Options</h3>
-The configuration process is critical to the proper compilation,
-installation, and operation of the software. The configure script
-runs a series of tests to decide whether or not the target system
-supports required functionality and, if it does not, whether it can
-emulate or workaround the missing functions. This procedure is
-fairly complicated and, due to the nonstandard nature of most UNIX
-systems, prone to error. The first time that you configure the
-software for use you should check the output from the configure
-script and look for anything that does not make sense for your
-system.
-<p>A second function of the configure script is to set the default
-configuration parameters for the software. Of particular note are
-the directories where the software is to be installed. By default
-the software is installed in the <b>/usr/local</b> hierarchy. To
-change this behaviour the appropriate parameters can be specified
-on the command line to configure. Run <b>./configure --help</b> to
-get a list of possible options. Installation related options are
-shown below.</p>
-<pre>
-<tt>
-Installation directories:
- --prefix=PREFIX install architecture-independent files in PREFIX
- [/usr/local]
- --exec-prefix=EPREFIX install architecture-dependent files in EPREFIX
- [PREFIX]
-
-By default, `make install' will install all the files in
-`/usr/local/bin', `/usr/local/lib' etc. You can specify
-an installation prefix other than `/usr/local' using `--prefix',
-for instance `--prefix=$HOME'.
-
-For better control, use the options below.
-
-Fine tuning of the installation directories:
- --bindir=DIR user executables [EPREFIX/bin]
- --sbindir=DIR system admin executables [EPREFIX/sbin]
- --libexecdir=DIR program executables [EPREFIX/libexec]
- --datadir=DIR read-only architecture-independent data [PREFIX/share]
- --sysconfdir=DIR read-only single-machine data [PREFIX/etc]
- --sharedstatedir=DIR modifiable architecture-independent data [PREFIX/com]
- --localstatedir=DIR modifiable single-machine data [PREFIX/var]
- --libdir=DIR object code libraries [EPREFIX/lib]
- --includedir=DIR C header files [PREFIX/include]
- --oldincludedir=DIR C header files for non-gcc [/usr/include]
- --infodir=DIR info documentation [PREFIX/info]
- --mandir=DIR man documentation [PREFIX/man]
-
-Program names:
- --program-prefix=PREFIX prepend PREFIX to installed program names
- --program-suffix=SUFFIX append SUFFIX to installed program names
- --program-transform-name=PROGRAM run sed PROGRAM on installed program names
-</tt>
-</pre>
-<a name="Packages" id="Packages"></a>
-<hr width="65%" align="right">
-<h3>Configuring Optional Packages/Support</h3>
-The TIFF software comes with several packages that are installed
-only as needed, or only if specifically configured at the time the
-configure script is run. Packages can be configured via the
-<b>configure</b> script commandline parameters.
-<dl>
-<dt><i>Static/Shared Objects Support</i></dt>
-<dd><tt>--enable-shared[=PKGS]&nbsp;&nbsp;&nbsp;&nbsp;build shared
-libraries [default=yes]<br>
---enable-static[=PKGS]&nbsp;&nbsp;&nbsp;&nbsp;build static
-libraries [default=yes]</tt>
-<p>These options control whether or not to configure the software
-to build a shared and static binaries for the TIFF library. Use of
-shared libraries can significantly reduce the disk space needed for
-users of the TIFF software. If shared libarries are not used then
-the code is statically linked into each application that uses it.
-By default both types of binaries is configured.</p>
-<p><tt>--enable-rpath&nbsp;&nbsp;&nbsp;&nbsp;Enable runtime linker
-paths (-R libtool option)</tt></p>
-<p>Add library directories (see other options below) to the TIFF
-library run-time linker path.</p>
-</dd>
-<dt><i>JPEG Support</i></dt>
-<dd><tt>--disable-jpeg&nbsp;&nbsp;&nbsp;&nbsp;disable IJG JPEG
-library usage (required for JPEG compression, enabled by default)
---with-jpeg-include-dir=DIR&nbsp;&nbsp;&nbsp;&nbsp;location of IJG
-JPEG library headers
---with-jpeg-lib-dir=DIR&nbsp;&nbsp;&nbsp;&nbsp;location of IJG JPEG
-library binary)</tt></dd>
-<dd>The <tt>JPEG</tt> package enables support for the handling of
-TIFF images with JPEG-encoded data. Support for JPEG-encoded data
-requires the Independent JPEG Group (IJG) <tt>libjpeg</tt>
-distribution; this software is available at <a href=
-"ftp://ftp.uu.net/graphics/jpeg/">ftp.uu.net:/graphics/jpeg/</a>.
-<b>configure</b> script automatically tries to search the working
-IJG JPEG installation. If it fails to find library, JPEG support
-will be automatically disabled.If you want specify the exact paths
-to library binary and headers, use above switches for that.</dd>
-<dt><i>ZIP Support</i></dt>
-<dd>The <tt>ZIP</tt> support enables support for the handling of
-TIFF images with deflate-encoded data. Support for deflate-encoded
-data requires the freely available <tt>zlib</tt> distribution
-written by Jean-loup Gailly and Mark Adler; this software is
-available at <a href=
-"ftp://ftp.uu.net/pub/archiving/zip/zlib/">ftp.uu.net:/pub/archiving/zip/zlib/</a>
-(or try <a href=
-"ftp://quest.jpl.nasa.gov/beta/zlib/">quest.jpl.nasa.gov:/beta/zlib/</a>).
-If ZIP support is enabled the <tt>DIRS_LIBINC</tt> and
-<tt>DIR_GZLIB</tt> parameters should also be set (see below). By
-default this package is not configured.</dd>
-</dl>
-<a name="Sample" id="Sample"></a>
-<hr width="65%" align="right">
-<h3>A Sample Configuration Session</h3>
-This section shows a sample configuration session and describes the
-work done. The session is shown indented in a <tt>fixed width
-font</tt> with user-supplied input in a <tt><b>bold font</b></tt>.
-Comments are shown in a normal or <i>italic</i> font. This session
-was collected on a 486 machine running BSDI 1.1.
-<div style="margin-left: 2em">
-<pre>
-<tt>
-wullbrandt% <b>mkdir tiff</b>
-wullbrandt% <b>cd tiff</b>
-wullbrandt% <b>ln -s /hosts/oxford/usr/people/sam/tiff src</b>
-</tt>
-</pre></div>
-A build tree separate from the source tree is used here. In fact,
-in this case the distribution is accessed from a read-only
-NFS-mounted filesystem.
-<div style="margin-left: 2em">
-<pre>
-<tt>
-wullbrandt% <b>src/configure</b>
-Configuring TIFF Software v3.4beta015.
-
-Reading site-wide parameters from ../tiff-v3.4beta015/config.site.
-Reading local parameters from config.local.
-Gosh, aren't you lucky to have a i386-unknown-bsdi1.1 system!
-</tt>
-</pre></div>
-Note that configure announces the distribution version and the
-deduced target configuration (<tt>i386-unknown-bsdi1.1</tt> here).
-<div style="margin-left: 2em">
-<pre>
-<tt>
-Using /usr/local/bin/gcc for a C compiler (set CC to override).
-Looks like /usr/local/bin/gcc supports the -g option.
-Using " -g" for C compiler options.
-</tt>
-</pre></div>
-configure checked the normal shell search path for potential ANSI C
-compilers. The compiler is selected according to it properly
-compiling a small ANSI C test program. A specific compiler may be
-requested by setting the <tt>CC</tt> environment variable to the
-appropriate pathname, by supplying the parameter on the command
-line, e.g. <tt>-with-CC=gcc</tt>, or by setting <tt>CC</tt> in a
-configuration file.
-<p><img src="images/info.gif" align="left" hspace="10"> <em>Note
-that an ANSI C compiler is required to build the software. If a C
-compiler requires options to enable ANSI C compilation, they can be
-specified with the <tt>ENVOPTS</tt> parameter.</em></p>
-<p>Once a compiler is selected configure checks to see if the
-compiler accepts a -g option to enable the generation of debugging
-symbols, and if the compiler includes an ANSI C preprocessor.</p>
-<div style="margin-left: 2em">
-<pre>
-<tt>
-Using /usr/ucb/make to configure the software.
-</tt>
-</pre></div>
-Next various system-specific libraries that may or may not be
-needed are checked for (none are needed in this case). If your
-system requires a library that is not automatically included it can
-be specified by setting the <tt>MACHDEPLIBS</tt> parameter.
-<p><i>Creating port.h.</i> The <b>port.h</b> file is included by
-all the C code in the library (but not the tools). It includes
-definitions for functions and type definitions that are missing
-from system include files, <tt>#defines</tt> to enable or disable
-system-specific functionality, and other odds and ends.</p>
-<div style="margin-left: 2em">
-<pre>
-<tt>
-Creating libtiff/port.h with necessary definitions.
-... using LSB2MSB bit order for your i386 cpu
-... using big-endian byte order for your i386 cpu
-... configure use of mmap for memory-mapped files
-... O_RDONLY is in &lt;fcntl.h&gt;
-... using double for promoted floating point parameters
-... enabling use of inline functions
-Done creating libtiff/port.h.
-</tt>
-</pre></div>
-This file can take a long time to create so configure generates the
-file only when it is needed, either because the file does not exist
-or because a different target or compiler is to be used. Note that
-running "<tt>make distclean</tt>" in the top-level directory of the
-build tree will remove the <b>port.h</b> file (along with all the
-other files generated by configure).
-<p><i>Selecting emulated library functions.</i> Certain library
-functions used by the tools are not present on all systems and can
-be emulated using other system functionality. configure checks for
-the presence of such functions and if they are missing, will
-configure emulation code from the <b>port</b> directory to use
-instead. Building the TIFF software on unsupported systems may
-require adding to the code to the <b>port</b> directory.</p>
-<div style="margin-left: 2em">
-<pre>
-<tt>
-Checking system libraries for functionality to emulate.
-Done checking system libraries.
-</tt>
-</pre></div>
-If a routine must be emulated and configure does not automatically
-check for it, the routine name can be specified using the
-<tt>PORTFUNCS</tt> parameter. To add emulation support for a new
-function <tt>foo</tt>, create a file <b>port/foo.c</b> that
-contains the emulation code and then set <tt>PORTFUNCS=foo</tt> in
-a configuration file or modify the configure script to
-automatically check for the missing function.
-<div style="margin-left: 2em">
-<pre>
-<tt>
-Checking for Dynamic Shared Object (DSO) support.
-Done checking for DSO support.
-</tt>
-</pre></div>
-If the <tt>DSO</tt> package is enabled (<tt>DSO=auto</tt> or
-<tt>DSO=yes</tt>), then configure will verify the system and
-compiler are capable of constructing SVR4-style DSO's in the
-expected way. Note that while a system may support DSO's the
-compiler may not be capable of generating the required
-position-independent code and/or the compiler may not pass the
-needed options through to the loader.
-<p><i>Selecting utility programs.</i> configure locates various
-system utility programs that are used during installation of the
-software.</p>
-<div style="margin-left: 2em">
-<pre>
-<tt>
-Selecting programs used during installation.
-Looks like mv supports the -f option to force a move.
-Looks like /bin/ln supports the -s option to create a symbolic link.
-Done selecting programs.
-</tt>
-</pre></div>
-<p><i>Selecting default configuration parameters.</i> The remainder
-of the work done by configure involves setting up configuration
-parameters that control the placement and setup of files during the
-installation procedure.</p>
-<div style="margin-left: 2em">
-<pre>
-<tt>
-Selecting default TIFF configuration parameters.
-
-Looks like manual pages go in /usr/contrib/man.
-Looks like manual pages should be installed with bsd-nroff-gzip-0.gz.
-
-TIFF configuration parameters are:
-
-[ 1] Directory for tools: /usr/contrib/bin
-[ 2] Directory for libraries: /usr/contrib/lib
-[ 3] Directory for include files: /usr/contrib/include
-[ 4] Directory for manual pages: /usr/contrib/man
-[ 5] Manual page installation scheme: bsd-nroff-gzip-0.gz
-
-Are these ok [yes]?
-</tt>
-</pre></div>
-At this point you can interactively modify any of the displayed
-parameters. Hitting a carriage return or typing <tt>yes</tt> will
-accept the current parameters. Typing one of the number displayed
-along the left hand side causes configure to prompt for a new value
-of the specified parameter. Typing anything else causes configure
-to prompt for a new value <em>for each parameter</em>. In general
-hitting carriage return will accept the current value and typing
-anything that is unacceptable will cause a help message to be
-displayed. A description of each of the configuration parameters is
-given below.
-<p>Once acceptable parameters are setup configure will generate all
-the files that depend on these parameters. Note that certain files
-may or may not be created based on the configuration of optional
-packages and/or the functions supported by target system.</p>
-<div style="margin-left: 2em">
-<pre>
-<tt>
-Creating Makefile from ../tiff-v3.4beta015/Makefile.in
-Creating libtiff/Makefile from ../tiff-v3.4beta015/libtiff/Makefile.in
-Creating man/Makefile from ../tiff-v3.4beta015/man/Makefile.in
-Creating tools/Makefile from ../tiff-v3.4beta015/tools/Makefile.in
-Creating port/install.sh from ../tiff-v3.4beta015/port/install.sh.in
-Done.
-</tt>
-</pre></div>
-<a name="DSOSupport" id="DSOSupport"></a>
-<hr>
-<h3>Shared Library Support</h3>
-It is desirable to make the TIFF library be a shared object on
-systems that have support for shared libraries. Unfortunately the
-rules to use to build a shared library vary between operating
-systems and even compilers. The distributed software includes
-support for building a shared version of the library on a number of
-different systems. This support is split between rules in the file
-<b>libtiff/Makefile.in</b> that construct the shared library and
-checks done by the <tt>configure</tt> script to verify that the
-expected rules are supported by compilation tools for the target
-system.
-<p>To add new support for building a shared library both these
-files must be updated. In the configure script search for the
-section where the autoconfiguration setting of the <tt>DSO</tt>
-parameter is handled and add a new case for the target system that
-sets the <tt>DSOSUF</tt>, <tt>DSOLD</tt>, <tt>DSOOPTS</tt>, and
-<tt>LIBCOPTS</tt> options as appropriate for the system.
-<tt>DSOSUF</tt> specifies the filename suffix used for the shared
-library (e.g. ``.so'' for Dynamic Shared Objects on most SVR4-based
-systems). <tt>DSOLD</tt> specifies the program to use to build the
-shared library from a compiled object file; typically ``${LD}''
-though on some systems it is better to use the C compiler directly
-so system-dependent options and libraries are automatically
-supplied. <tt>DSOOPTS</tt> are options that must be specified to
-<tt>DSOLD</tt> when building the shared library. <tt>LIBCOPTS</tt>
-are options to pass to the C compiler when constructing a
-relocatable object file to include in a shared library; e.g. ``-K
-PIC'' on a Sun system. The <tt>DSO</tt> parameter must also be set
-to a unique label that identifies the target system and compilation
-tools. This label is used to select a target in
-<b>libtiff/Makefile.in</b> to do the actual work in building the
-shared library. Finally, to complete support for the shared library
-added the appropriate rules to <b>libtiff/Makefile.in</b> under the
-target specified in the <tt>configure</tt> script. <a name="PC" id=
-"PC"></a></p>
-<hr>
-<h2>Building the Software under Windows 95/98/NT/2000 with MS
-VC++</h2>
-With Microsoft Visual C++ installed, and properly configured for
-commandline use (you will likely need to source VCVARS32.BAT in
-AUTOEXEC.bAT or somewhere similar) you should be able to use the
-provided <tt>makefile.vc</tt>.
-<p>The source package is delivered using Unix line termination
-conventions, which work with MSVC but do not work with Windows
-'notepad'. If you use unzip from the <a href=
-"http://www.info-zip.org/pub/infozip/">Info-Zip</a> package, you
-can extract the files using Windows normal line termination
-conventions with a command similar to:</p>
-<pre>
- unzip -aa -a tiff-3.7.4.zip
-</pre>
-<p>By default libtiff expects that a pre-built zlib and jpeg
-library are provided by the user. If this is not the case, then you
-may edit libtiff\tiffconf.h using a text editor (e.g. notepad) and
-comment out the entries for JPEG_SUPPORT, PIXARLOG_SUPPORT, and
-ZIP_SUPPORT. Ignore the comment at the top of the file which says
-that it has no influence on the build, because the statement is not
-true for Windows. However, by taking this approach, libtiff will
-not be able to open some TIFF files.</p>
-<p>To build using the provided makefile.vc you may use:</p>
-<pre>
- C:\tiff-3.7.4&gt; nmake /f makefile.vc clean
- C:\tiff-3.7.4&gt; nmake /f makefile.vc
-
- or (the hard way)
-
- C:\tiff-3.7.4&gt; cd port
- C:\tiff-3.7.4\port&gt; nmake /f makefile.vc clean
- C:\tiff-3.7.4\port&gt; nmake /f makefile.vc
- C:\tiff-3.7.4&gt; cd ../libtiff
- C:\tiff-3.7.4\libtiff&gt; nmake /f makefile.vc clean
- C:\tiff-3.7.4\libtiff&gt; nmake /f makefile.vc
- C:\tiff-3.7.4\libtiff&gt; cd ..\tools
- C:\tiff-3.7.4\tools&gt; nmake /f makefile.vc clean
- C:\tiff-3.7.4\tools&gt; nmake /f makefile.vc
-</pre>
-<p>This will build the library file
-<tt>libtiff\libtiff\libtiff.lib</tt>. This can be used in Win32
-programs. You may want to adjust the build options before start
-compiling. All parameters contained in the <tt>nmake.opt</tt>
-file.This is a plain text file you can open with your favorite text
-editor.</p>
-<p>The makefile also builds a DLL (libtiff.dll) with an associated
-import library (libtiff_i.lib). Any builds using libtiff will need
-to include the LIBTIFF\LIBTIFF directory in the include path.</p>
-<p>The <tt>libtiff\tools\makefile.vc</tt> should build .exe's for
-all the standard TIFF tool programs.</p>
-<p><a name="DJGPP" id="DJGPP"></a></p>
-<hr>
-<h2>Building the Software under MS/DOS with the DJGPP v2
-compiler</h2>
-[<i>From the file <b>contrib/dosdjgpp/README</b>.</i>]
-<p>The directory <b>contrib/dosdjgpp</b> contains the files
-necessary to build the library and tools with the DJGPP v2 compiler
-under MSDOS.</p>
-<p>All you have to do is copy the files in the directory into the
-respective directories and run make. If you want, you can use the
-<b>conf.bat</b> script to do that for you, make sure that the file
-is stored with MSDOS text EOL-convention (CR/LF), otherwise the
-<b>command.com</b> will not do anything.</p>
-<p>Note that you probably will not be able to build the library
-with the v1.x versions of djgpp, due to two problems. First, the
-top makefile calls a sub-make for each directory and you are likely
-to run out of memory, since each recursive invocation of a djgpp
-v1.x program requires about 130k, to avoid that, you can enter the
-directories manually and call make (well, there are only two dirs).
-The 2nd problem is that djgpp 1.x doesn't call the coff2exe
-(stubify) program when creating an executable. This means that all
-programs compiled are not converted to exe and consequently are not
-available for calling directly. For the tools directory, you can
-just call coff2exe for each program after make finishes, but in the
-libtiff directory, a few programs are created during the make
-process that have to be called for make to continue (e.g.
-mkg3states). Make will probably report an error at each such stage.
-To fix that, either add a coff2exe call before each program is
-called or call coff2exe manually and rerun make (there 2-3 such
-programs). <a name="MacMPW" id="MacMPW"></a></p>
-<hr>
-<h2>Building the Software on a Macintosh with MPW</h2>
-The directory <b>contrib/mac-mpw</b> contains support for compiling
-the library and tools under the MPW Shell on a Macintosh system.
-This support was contributed by Niles Ritter (<a href=
-"mailto:ndr@tazboy.jpl.nasa.gov">ndr@tazboy.jpl.nasa.gov</a>).
-<p>[<i>From the file <b>contrib/mac-mpw/README</b>.</i>]</p>
-<p>This directory contains all of the utilities and makefile source
-to build the LIBTIFF library and tools from the MPW Shell. The file
-BUILD.mpw in this directory is an executable script which uses all
-of these files to create the MPW makefiles and run them.</p>
-<p>The &lt;file&gt;.make files are not MPW makefiles as such, but
-are when run through the "mactrans" program, which turns the ascii
-"%nn" metacharacters into the standard weird MPW make
-characters.</p>
-<p>This translation trick is necessary to protect the files when
-they are put into unix tarfiles, which tend to mangle the special
-characters. <a name="MacCW" id="MacCW"></a></p>
-<hr>
-<h2>Building the Software on a Macintosh with CodeWarrior</h2>
-The directory <b>contrib/mac-cw</b> contains support for compiling
-the library and tools with MetroWerks CodeWarrior 6.1 on a
-Macintosh system. This support was contributed by Niles Ritter
-(<a href=
-"mailto:ndr@tazboy.jpl.nasa.gov">ndr@tazboy.jpl.nasa.gov</a>).
-<p>[<i>From the file <b>contrib/mac-cw/README</b>.</i>] In this
-directory you will find a Makefile.script Applescript file, which
-should be run in order to build the libtiff code using MetroWerks
-CodeWarrior. Refer to the "metrowerks.note" instructions on
-building the library for 68k and PowerPC native code, as well as
-building some of the libtiff tools, which are rather unix-like, but
-at least give an example of how to link everything together.
-<a name="VMS" id="VMS"></a></p>
-<hr>
-<h2>Building the Software on a VMS System</h2>
-The VMS port was done by Karsten Spang (<a href=
-"mailto:krs@kampsax.dk">krs@kampsax.dk</a>), who also "sort of"
-maintains it. The VMS specific files are not in the main
-directories. Instead they are placed under
-<tt>[.CONTRIB.VMS...]</tt> in the distribution tree. Installation:
-It is assumed that you have unpacked the tar file into a VMS
-directory tree, in this text called DISK:[TIFF].
-<ol>
-<li>Move the VMS specific files to their proper directories.
-<pre>
-$ SET DEFAULT DISK:[TIFF.CONTRIB.VMS]
-$ RENAME [.LIBTIFF]*.* [-.-.LIBTIFF]
-$ RENAME [.TOOLS]*.* [-.-.TOOLS]
-</pre></li>
-<li>Compile the library.
-<pre>
-$ SET DEFAULT DISK:[TIFF.LIBTIFF]
-$ @MAKEVMS
-</pre></li>
-<li>Compile the tools.
-<pre>
-$ SET DEFAULT DISK:[TIFF.TOOLS]
-$ @MAKEVMS
-</pre></li>
-<li>Define the programs.
-<pre>
-$ DEFINE TIFFSHR DISK:[TIFF.LIBTIFF]TIFFSHR
-$ FAX2PS :==$DISK:[TIFF.TOOLS]FAX2PS
-$ FAX2TIFF :==$DISK:[TIFF.TOOLS]FAX2TIFF
-$ GIF2TIFF :==$DISK:[TIFF.TOOLS]GIF2TIFF
-$ PAL2RGB :==$DISK:[TIFF.TOOLS]PAL2RGB
-$ PPM2TIFF :==$DISK:[TIFF.TOOLS]PPM2TIFF
-$ RAS2TIFF :==$DISK:[TIFF.TOOLS]RAS2TIFF
-$ RGB2YCBCR :==$DISK:[TIFF.TOOLS]RGB2YCBCR
-$ THUMBNAIL :==$DISK:[TIFF.TOOLS]THUMBNAIL
-$ TIFF2BW :==$DISK:[TIFF.TOOLS]TIFF2BW
-$ TIFF2PS :==$DISK:[TIFF.TOOLS]TIFF2PS
-$ TIFFCMP :==$DISK:[TIFF.TOOLS]TIFFCMP
-$ TIFFCP :==$DISK:[TIFF.TOOLS]TIFFCP
-$ TIFFDITHER:==$DISK:[TIFF.TOOLS]TIFFDITHER
-$ TIFFDUMP :==$DISK:[TIFF.TOOLS]TIFFDUMP
-$ TIFFINFO :==$DISK:[TIFF.TOOLS]TIFFINFO
-$ TIFFMEDIAN:==$DISK:[TIFF.TOOLS]TIFFMEDIAN
-$ TIFFSPLIT :==$DISK:[TIFF.TOOLS]TIFFSPLIT
-$ YCBCR :==$DISK:[TIFF.TOOLS]YCBCR
-</pre></li>
-</ol>
-You will want to add these lines to your <tt>LOGIN.COM</tt> file,
-after changing the name of the directory that you have used on your
-machine.
-<p>This release has been tested on OpenVMS/VAX 5.5-2, using VAX C
-3.2. A previous release was tested under OpenVMS/AXP ?.? using DEC
-C ?.?, it is believed that this release as well works on AXP. The
-code contains some GNU C specific things. This does *not* imply,
-however, that the VAX/GCC configuration has been tested, *it has
-not*.</p>
-<p>The command procedures (<tt>MAKEVMS.COM</tt>) for building the
-library and tools, is believed to choose the correct options for
-the VAX and AXP cases automatically.</p>
-<p>On the AXP, IEEE floating point is used by default. If you want
-VAX floating point, remove the <tt>/FLOAT=IEEE_FLOAT</tt>
-qualifier, and change <tt>HAVE_IEEEFP=1</tt> to
-<tt>HAVE_IEEEFP=0</tt> in the <tt>MAKEVMS.COM</tt> files in both
-the <b>libtiff</b> and <b>tools</b> directories.</p>
-<h3>Compiling your own program on a VMS system:</h3>
-When compiling a source file in which you <tt>"#include
-&lt;tiffio.h&gt;"</tt>, use the following command
-<pre>
- $ CC/INCLUDE=DISK:[TIFF.LIBTIFF]
-</pre>
-This ensures that the header file is found. On the AXP, also add
-<tt>/FLOAT=IEEE_FLOAT</tt> (if used when building the library).
-<h3>Linking your own program to the TIFF library on a VMS
-system:</h3>
-You can link to the library in two ways: Either using the shareable
-library, or using the object library. On the VAX these
-possibilities are:
-<ol>
-<li>Using the shareable TIFF library.
-<pre>
-$ LINK MY_PROGRAM,DISK:[TIFF.LIBTIFF]TIFF/OPTIONS,SYS$INPUT:/OPTIONS
- SYS$SHARE:VAXCRTL/SHAREABLE
-</pre></li>
-<li>Using the TIFF object library.
-<pre>
-$ LINK MY_PROGRAM, -
- DISK:[TIFF.LIBTIFF]TIFF/LIBRARY/INCLUDE=(TIF_FAX3SM,TIF_CODEC), -
- SYS$INPUT:/OPTIONS
- SYS$SHARE:VAXCRTL/SHAREABLE
-</pre></li>
-</ol>
-On AXP (and possibly also using DEC C on VAX) the corresponding
-commands are
-<ol>
-<li>Using the shareable TIFF library.
-<pre>
-$ LINK MY_PROGRAM,DISK:[TIFF.LIBTIFF]TIFF/OPTIONS
-</pre></li>
-<li>Using the TIFF object library.
-<pre>
-$ LINK MY_PROGRAM,DISK:[TIFF.LIBTIFF]TIFF/LIBRARY
-</pre></li>
-</ol>
-Method 1 uses the shortest link time and smallest <tt>.EXE</tt>
-files, but it requires that <tt>TIFFSHR</tt> is defined as above at
-link time and <strong>at run time</strong>. Using the compilation
-procedure above, the tools are linked in this way.
-<p>Method 2 gives somewhat longer link time and larger
-<tt>.EXE</tt> files, but does not require <tt>TIFFSHR</tt> to be
-defined. This method is recommended if you want to run your program
-on another machine, and for some reason don't want to have the
-library on that machine. If you plan to have more than one program
-(including the tools) on the machine, it is recommended that you
-copy the library to the other machine and use method 1. <a name=
-"Acorn" id="Acorn"></a></p>
-<hr>
-<h2>Building the Software on an Acorn RISC OS system</h2>
-The directory <b>contrib/acorn</b> contains support for compiling
-the library under Acorn C/C++ under Acorn's RISC OS 3.10 or above.
-Subsequent pathnames will use the Acorn format: The full-stop or
-period character is a pathname delimeter, and the slash character
-is not interpreted; the reverse position from Unix. Thus
-"libtiff/tif_acorn.c" becomes "libtiff.tif_acorn/c".
-<p>This support was contributed by Peter Greenham. (<a href=
-"mailto:peter@enlarion.demon.co.uk">peter@enlarion.demon.co.uk</a>).</p>
-<h3>Installing LibTIFF:</h3>
-<p>LIBTIFF uses several files which have names longer than the
-normal RISC OS maximum of ten characters. This complicates matters.
-Maybe one day Acorn will address the problem and implement long
-filenames properly. Until then this gets messy, especially as I'm
-trying to do this with obeyfiles and not have to include binaries
-in this distribution.</p>
-<p>First of all, ensure you have Truncate configured on (type
-<tt>*Configure Truncate On</tt>)</p>
-<p>Although it is, of course, preferable to have long filenames,
-LIBTIFF can be installed with short filenames, and it will compile
-and link without problems. However, <i>getting</i> it there is more
-problematic. <b>contrib.acorn.install</b> is an installation
-obeyfile which will create a normal Acorn-style library from the
-source (ie: with c, h and o folders etc.), but needs the
-distribution library to have been unpacked into a location which is
-capable of supporting long filenames, even if only temporarily.</p>
-<p>My recommendation, until Acorn address this problem properly, is
-to use Jason Tribbeck's <a href=
-"ftp://ftp.demon.co.uk/pub/mirrors/hensa/micros/arch/riscos/c/c020/longfiles.arc">
-LongFilenames</a>, or any other working system that gives you long
-filenames, like a nearby NFS server for instance.</p>
-<p>If you are using Longfilenames, even if only temporarily to
-install LIBTIFF, unpack the TAR into a RAMDisc which has been
-longfilenamed (ie: <tt>*addlongfs ram</tt>) and then install from
-there to the hard disk. Unfortunately Longfilenames seems a bit
-unhappy about copying a bunch of long-named files across the same
-filing system, but is happy going between systems. You'll need to
-create a ramdisk of about 2Mb.</p>
-<p>Now you can run the installation script I've supplied (in
-contrib.acorn), which will automate the process of installing
-LIBTIFF as an Acorn-style library. The syntax is as follows:</p>
-<p><tt>install &lt;source_dir&gt; &lt;dest_dir&gt;</tt></p>
-<p>Install will then create &lt;dest_dir&gt; and put the library in
-there. For example, having used LongFilenames on the RAMDisk and
-unpacked the library into there, you can then type:</p>
-<p><tt>Obey RAM::RamDisc0.$.contrib.acorn.install RAM::RamDisc0.$
-ADFS::4.$.LIBTIFF</tt></p>
-<p>It doesn't matter if the destination location can cope with long
-filenames or not. The filenames will be truncated if necessary
-(*Configure Truncate On if you get errors) and all will be
-well.</p>
-<h3>Compiling LibTIFF:</h3>
-<p>Once the LibTIFF folder has been created and the files put
-inside, making the library should be just a matter of running
-'<b>SetVars</b>' to set the appropriate system variables, then
-running '<b>Makefile</b>'.</p>
-<p><b>OSLib</b></p>
-<p><a href=
-"ftp://ftp.acorn.co.uk/pub/riscos/releases/oslib/oslib.arc">OSLib</a>
-is a comprehensive API for RISC OS machines, written by Jonathan
-Coxhead of Acorn Computers (although OSLib is not an official Acorn
-product). Using the OSLib SWI veneers produces code which is more
-compact and more efficient than code written using _kernel_swi or
-_swi. The Acorn port of LibTIFF can take advantage of this if
-present. Edit the Makefile and go to the Static dependencies
-section. The first entry is:</p>
-<pre>
-# Static dependencies:
-@.o.tif_acorn: @.c.tif_acorn
- cc $(ccflags) -o @.o.tif_acorn @.c.tif_acorn
-</pre>
-<p>Change the cc line to:</p>
-<pre>
- cc $(ccflags) -DINCLUDE_OSLIB -o @.o.tif_acorn @.c.tif_acorn
-</pre>
-<p>Remember, however, that OSLib is only <i>recommended</i> for
-efficiency's sake. It is not required. <a name="Other" id=
-"Other"></a></p>
-<hr>
-<h2>Building the Software on Other Systems</h2>
-This section contains information that might be useful if you are
-working on a non-UNIX system that is not directly supported. All
-library-related files described below are located in the
-<b>libtiff</b> directory.
-<p>The library requires two files that are generated
-<i>on-the-fly</i>. The file <b>tif_fax3sm.c</b> has the state
-tables for the Group 3 and Group 4 decoders. This file is generated
-by the <tt>mkg3states</tt> program on a UNIX system; for
-example,</p>
-<div style="margin-left: 2em">
-<pre>
-<tt>
-cd libtiff
-cc -o mkg3states mkg3states.c
-rm -f tif_fax3sm.c
-./mkg3states -c const tif_fax3sm.c
-</tt>
-</pre></div>
-The <tt>-c</tt> option can be used to control whether or not the
-resutling tables are generated with a <tt>const</tt> declaration.
-The <tt>-s</tt> option can be used to specify a C storage class for
-the table declarations. The <tt>-b</tt> option can be used to force
-data values to be explicitly bracketed with ``{}'' (apparently
-needed for some MS-Windows compilers); otherwise the structures are
-emitted in as compact a format as possible. Consult the source code
-for this program if you have questions.
-<p>The second file required to build the library, <b>version.h</b>,
-contains the version information returned by the
-<tt>TIFFGetVersion</tt> routine. This file is built on most systems
-using the <tt>mkversion</tt> program and the contents of the
-<tt>VERSION</tt> and <tt>tiff.alpha</tt> files; for example,</p>
-<div style="margin-left: 2em">
-<pre>
-cd libtiff
-cc -o mkversion mkversion.c
-rm -f version.h
-./mkversion -v ../VERSION -a ../dist/tiff.alpha version.h
-</pre></div>
-<p>Otherwise, when building the library on a non-UNIX system be
-sure to consult the files <b>tiffcomp.h</b> and <b>tiffconf.h</b>.
-The former contains system compatibility definitions while the
-latter is provided so that the software configuration can be
-controlled on systems that do not support the make facility for
-building the software.</p>
-<p>Systems without a 32-bit compiler may not be able to handle some
-of the codecs in the library; especially the Group 3 and 4 decoder.
-If you encounter problems try disabling support for a particular
-codec; consult the <a href=
-"internals.html#Config">documentation</a>.</p>
-<p>Programs in the tools directory are written to assume an ANSI C
-compilation environment. There may be a few POSIX'isms as well. The
-code in the <b>port</b> directory is provided to emulate routines
-that may be missing on some systems. On UNIX systems the
-<tt>configure</tt> script automatically figures out which routines
-are not present on a system and enables the use of the equivalent
-emulation routines from the <b>port</b> directory. It may be
-necessary to manually do this work on a non-UNIX system. <a name=
-"Testing" id="Testing"></a></p>
-<hr>
-<h2>Checking out the Software</h2>
-<p>Assuming you have working versions of <tt>tiffgt</tt> and
-<tt>tiffsv</tt>, you can just use them to view any of the sample
-images available for testing (see the <a href="images.html">section
-on obtaining the test images</a>). Otherwise, you can do a cursory
-check of the library with the <tt>tiffcp</tt> and <tt>tiffcmp</tt>
-programs. For example,</p>
-<div style="margin-left: 2em">
-<pre>
-tiffcp -lzw cramps.tif x.tif
-tiffcmp cramps.tif x.tif
-</pre></div>
-<p>(<tt>tiffcmp</tt> should be silent if the files compare
-correctly). <a name="TOC" id="TOC"></a></p>
-<hr>
-<h2>Table of Contents</h2>
-The following files makup the core library:
-<pre>
-libtiff/tiff.h TIFF spec definitions
-libtiff/tiffcomp.h non-UNIX OS-compatibility definitions
-libtiff/tiffconf.h non-UNIX configuration definitions
-libtiff/tiffio.h public TIFF library definitions
-libtiff/tiffiop.h private TIFF library definitions
-libtiff/t4.h CCITT Group 3/4 code tables+definitions
-libtiff/tif_dir.h private defs for TIFF directory handling
-libtiff/tif_fax3.h CCITT Group 3/4-related definitions
-libtiff/tif_predict.h private defs for Predictor tag support
-libtiff/uvcode.h LogL/LogLuv codec-specific definitions
-libtiff/version.h version string (generated by Makefile)
-
-libtiff/tif_acorn.c Acorn-related OS support
-libtiff/tif_apple.c Apple-related OS support
-libtiff/tif_atari.c Atari-related OS support
-libtiff/tif_aux.c auxilary directory-related functions
-libtiff/tif_close.c close an open TIFF file
-libtiff/tif_codec.c configuration table of builtin codecs
-libtiff/tif_compress.c compression scheme support
-libtiff/tif_dir.c directory tag interface code
-libtiff/tif_dirinfo.c directory known tag support code
-libtiff/tif_dirread.c directory reading code
-libtiff/tif_dirwrite.c directory writing code
-libtiff/tif_dumpmode.c "no" compression codec
-libtiff/tif_error.c library error handler
-libtiff/tif_fax3.c CCITT Group 3 and 4 codec
-libtiff/tif_fax3sm.c G3/G4 state tables (generated by mkg3states)
-libtiff/tif_flush.c i/o and directory state flushing
-libtiff/tif_getimage.c TIFFRGBAImage support
-libtiff/tif_jpeg.c JPEG codec (interface to the IJG distribution)
-libtiff/tif_luv.c SGI LogL/LogLuv codec
-libtiff/tif_lzw.c LZW codec
-libtiff/tif_msdos.c MSDOS-related OS support
-libtiff/tif_next.c NeXT 2-bit scheme codec (decoding only)
-libtiff/tif_open.c open and simply query code
-libtiff/tif_packbits.c Packbits codec
-libtiff/tif_pixarlog.c Pixar codec
-libtiff/tif_predict.c Predictor tag support
-libtiff/tif_print.c directory printing support
-libtiff/tif_read.c image data reading support
-libtiff/tif_strip.c some strip-related code
-libtiff/tif_swab.c byte and bit swapping support
-libtiff/tif_thunder.c Thunderscan codec (decoding only)
-libtiff/tif_tile.c some tile-related code
-libtiff/tif_unix.c UNIX-related OS support
-libtiff/tif_version.c library version support
-libtiff/tif_vms.c VMS-related OS support
-libtiff/tif_warning.c library warning handler
-libtiff/tif_win3.c Windows-3.1-related OS support
-libtiff/tif_win32.c Win32 (95/98/NT) related OS support
-libtiff/tif_write.c image data writing support
-libtiff/tif_zip.c Deflate codec
-
-libtiff/mkg3states.c program to generate G3/G4 decoder state tables
-libtiff/mkspans.c program to generate black-white span tables
-libtiff/mkversion.c program to generate libtiff/version.h.
-</pre>
-<hr>
-Last updated: $Date: 2005/12/24 22:25:05 $
-</body>
-</html>