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1<!DOCTYPE html PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN">
2<html>
3<head>
4<meta name="generator" content=
80ed523f 5"HTML Tidy for Linux (vers 25 March 2009), see www.w3.org">
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6<title>Building the TIFF Software Distribution</title>
7</head>
8<body bgcolor="white">
9<h1><font face="Arial, Helvetica, Sans"><img src=
10"images/cramps.gif" width="159" height="203" align="left" border=
11"1" hspace="6"> Building the Software Distribution</font></h1>
12<ul>
13<li><a href="#UNIX">Building on a UNIX system</a>.</li>
8414a40c 14<li><a href="#PC">Building on an MS-DOS or Windows system</a>.</li>
8414a40c 15<li><a href="#VMS">Building on a VMS system</a>.</li>
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16<li><a href="#Other">Building the Software on Other
17Systems</a></li>
18</ul>
19<br clear="left">
20This chapter contains step-by-step instructions on how to configure
21and build the TIFF software distribution. The software is most
22easily built on a UNIX system, but with a little bit of work it can
80ed523f 23easily be built and used on other non-UNIX platforms.
8414a40c 24<hr>
80ed523f 25<a name="UNIX" id="UNIX"></a>
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26<h2>Building on a UNIX System</h2>
27To build the software on a UNIX system you need to first run the
28configure shell script that is located in the top level of the
29source directory. This script probes the target system for
30necessary tools and functions and constructs a build environment in
31which the software may be compiled. Once configuration is done, you
32simply run <tt>make</tt> (or <tt>gmake</tt>) to build the software
33and then <tt>make install</tt> to do the installation; for example:
34<div style="margin-left: 2em">
35<pre>
80ed523f 36hyla% <b>cd ./tiff-4.0.0</b>
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37hyla% <b>./configure</b>
38 <i>...lots of messages...</i>
39hyla% <b>make</b>
40 <i>...lots of messages...</i>
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41hyla% <b>make check</b>
42 <i>...lots of messages...</i>
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43hyla# <b>make install</b>
44</pre></div>
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45Supplied makefiles are dependent on a <tt>make</tt> utility and a C
46(and optionally a C++ compiler), so you will need these tools.
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47<p>In general, the software is designed such that the following
48should be ``<i>make-able</i>'' in each directory:</p>
49<div style="margin-left: 2em">
50<pre>
51make [all] build stuff
80ed523f 52make check run the test suite
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53make install build&amp;install stuff
54make clean remove .o files, executables and cruft
55make distclean remove everything, that can be recreated
56</pre></div>
57Note that after running "<tt>make distclean</tt>" the
58<tt>configure</tt> script must be run again to create the Makefiles
59and other make-related files. <a name="BuildTrees" id=
60"BuildTrees"></a>
61<hr width="65%" align="right">
62<h3>Build Trees</h3>
63There are two schemes for configuring and building the software. If
64you intend to build the software for only one target system, you
65can configure the software so that it is built in the same
66directories as the source code.
67<div style="margin-left: 2em">
68<pre>
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69hyla% <b>gzip -dc tiff-4.0.0.tar.gz | tar -xf -</b>
70hyla% <b>cd ./tiff-4.0.0</b>
8414a40c 71hyla% <b>./configure</b>
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72hyla% <b>make</b>
73hyla% <b>make check</b>
74hyla% <b>make install</b>
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75</pre></div>
76<p>Otherwise, you can configure a build tree that is parallel to
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77the source tree hierarchy (or in some completely different place)
78but which contains only configured files and files created during
79the build procedure.</p>
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80<div style="margin-left: 2em">
81<pre>
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82hyla% <b>gzip -dc tiff-4.0.0.tar.gz | tar -xf -</b>
83hyla% <b>mkdir tiff-4.0.0-build</b>
84hyla% <b>cd ./tiff-4.0.0-build</b>
85hyla% <b>../tiff-4.0.0/configure</b>
86hyla% <b>make</b>
87hyla% <b>make check</b>
88hyla% <b>make install</b>
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89</pre></div>
90This second scheme is useful for:
91<ul>
92<li>building multiple targets from a single source tree</li>
93<li>building from a read-only source tree (e.g. if you receive the
94distribution on CD-ROM)</li>
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95<li>sharing the source files via a network, but building on
96multiple systems</li>
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97</ul>
98<a name="ConfigOptions" id="ConfigOptions"></a>
99<hr width="65%" align="right">
100<h3>Configuration Options</h3>
101The configuration process is critical to the proper compilation,
102installation, and operation of the software. The configure script
103runs a series of tests to decide whether or not the target system
104supports required functionality and, if it does not, whether it can
105emulate or workaround the missing functions. This procedure is
106fairly complicated and, due to the nonstandard nature of most UNIX
107systems, prone to error. The first time that you configure the
108software for use you should check the output from the configure
109script and look for anything that does not make sense for your
110system.
111<p>A second function of the configure script is to set the default
112configuration parameters for the software. Of particular note are
113the directories where the software is to be installed. By default
114the software is installed in the <b>/usr/local</b> hierarchy. To
115change this behaviour the appropriate parameters can be specified
116on the command line to configure. Run <b>./configure --help</b> to
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117get a full list of possible options. Standard installation related
118options are shown below.</p>
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119<pre>
120<tt>
121Installation directories:
122 --prefix=PREFIX install architecture-independent files in PREFIX
123 [/usr/local]
124 --exec-prefix=EPREFIX install architecture-dependent files in EPREFIX
125 [PREFIX]
126
127By default, `make install' will install all the files in
128`/usr/local/bin', `/usr/local/lib' etc. You can specify
129an installation prefix other than `/usr/local' using `--prefix',
130for instance `--prefix=$HOME'.
131
132For better control, use the options below.
133
134Fine tuning of the installation directories:
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135 --bindir=DIR user executables [EPREFIX/bin]
136 --sbindir=DIR system admin executables [EPREFIX/sbin]
137 --libexecdir=DIR program executables [EPREFIX/libexec]
138 --sysconfdir=DIR read-only single-machine data [PREFIX/etc]
139 --sharedstatedir=DIR modifiable architecture-independent data [PREFIX/com]
140 --localstatedir=DIR modifiable single-machine data [PREFIX/var]
141 --libdir=DIR object code libraries [EPREFIX/lib]
142 --includedir=DIR C header files [PREFIX/include]
143 --oldincludedir=DIR C header files for non-gcc [/usr/include]
144 --datarootdir=DIR read-only arch.-independent data root [PREFIX/share]
145 --datadir=DIR read-only architecture-independent data [DATAROOTDIR]
146 --localedir=DIR locale-dependent data [DATAROOTDIR/locale]
147 --mandir=DIR man documentation [DATAROOTDIR/man]
148 --docdir=DIR documentation root [DATAROOTDIR/doc/tiff]
149 --htmldir=DIR html documentation [DOCDIR]
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150
151Program names:
152 --program-prefix=PREFIX prepend PREFIX to installed program names
153 --program-suffix=SUFFIX append SUFFIX to installed program names
154 --program-transform-name=PROGRAM run sed PROGRAM on installed program names
155</tt>
156</pre>
157<a name="Packages" id="Packages"></a>
158<hr width="65%" align="right">
159<h3>Configuring Optional Packages/Support</h3>
160The TIFF software comes with several packages that are installed
161only as needed, or only if specifically configured at the time the
162configure script is run. Packages can be configured via the
163<b>configure</b> script commandline parameters.
164<dl>
165<dt><i>Static/Shared Objects Support</i></dt>
166<dd><tt>--enable-shared[=PKGS]&nbsp;&nbsp;&nbsp;&nbsp;build shared
167libraries [default=yes]<br>
168--enable-static[=PKGS]&nbsp;&nbsp;&nbsp;&nbsp;build static
169libraries [default=yes]</tt>
170<p>These options control whether or not to configure the software
171to build a shared and static binaries for the TIFF library. Use of
172shared libraries can significantly reduce the disk space needed for
173users of the TIFF software. If shared libarries are not used then
174the code is statically linked into each application that uses it.
175By default both types of binaries is configured.</p>
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176<p>
177<tt>--enable-rpath&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Enable
178runtime linker paths (-R libtool option)</tt></p>
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179<p>Add library directories (see other options below) to the TIFF
180library run-time linker path.</p>
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181<p><tt>--enable-ld-version-script&nbsp;&nbsp;Enable linker version
182script (default is disabled)</tt></p>
183<p>Add shared library symbol versioning on ELF-based systems (e.g.
184Linux and FreeBSD) which use the GNU linker. This is needed if
185several major versions of libtiff might be loaded at once into the
186same program.</p>
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187</dd>
188<dt><i>JPEG Support</i></dt>
189<dd><tt>--disable-jpeg&nbsp;&nbsp;&nbsp;&nbsp;disable IJG JPEG
190library usage (required for JPEG compression, enabled by default)
191--with-jpeg-include-dir=DIR&nbsp;&nbsp;&nbsp;&nbsp;location of IJG
192JPEG library headers
193--with-jpeg-lib-dir=DIR&nbsp;&nbsp;&nbsp;&nbsp;location of IJG JPEG
194library binary)</tt></dd>
195<dd>The <tt>JPEG</tt> package enables support for the handling of
196TIFF images with JPEG-encoded data. Support for JPEG-encoded data
197requires the Independent JPEG Group (IJG) <tt>libjpeg</tt>
198distribution; this software is available at <a href=
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199"http://www.ijg.org/">http://www.ijg.org/</a>. <b>configure</b>
200script automatically tries to search for a working IJG JPEG
201installation. If it fails to find library, JPEG support will be
202automatically disabled.If you want specify the exact paths to
203library binary and headers, use above switches for that.</dd>
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204<dt><i>ZIP Support</i></dt>
205<dd>The <tt>ZIP</tt> support enables support for the handling of
206TIFF images with deflate-encoded data. Support for deflate-encoded
207data requires the freely available <tt>zlib</tt> distribution
208written by Jean-loup Gailly and Mark Adler; this software is
209available at <a href=
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210"http://www.zlib.org/">http://www.zlib.org/</a>. If ZIP support is
211enabled the <tt>DIRS_LIBINC</tt> and <tt>DIR_GZLIB</tt> parameters
212should also be set (see below). By default this package is not
213configured.</dd>
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214</dl>
215<a name="Sample" id="Sample"></a>
216<hr width="65%" align="right">
80ed523f 217<a name="PC" id="PC"></a>
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218<h2>Building the Software under Windows 95/98/NT/2000 with MS
219VC++</h2>
220With Microsoft Visual C++ installed, and properly configured for
221commandline use (you will likely need to source VCVARS32.BAT in
222AUTOEXEC.bAT or somewhere similar) you should be able to use the
223provided <tt>makefile.vc</tt>.
224<p>The source package is delivered using Unix line termination
225conventions, which work with MSVC but do not work with Windows
226'notepad'. If you use unzip from the <a href=
227"http://www.info-zip.org/pub/infozip/">Info-Zip</a> package, you
228can extract the files using Windows normal line termination
229conventions with a command similar to:</p>
230<pre>
80ed523f 231 unzip -aa -a tiff-4.0.0.zip
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232</pre>
233<p>By default libtiff expects that a pre-built zlib and jpeg
234library are provided by the user. If this is not the case, then you
235may edit libtiff\tiffconf.h using a text editor (e.g. notepad) and
236comment out the entries for JPEG_SUPPORT, PIXARLOG_SUPPORT, and
237ZIP_SUPPORT. Ignore the comment at the top of the file which says
238that it has no influence on the build, because the statement is not
239true for Windows. However, by taking this approach, libtiff will
240not be able to open some TIFF files.</p>
241<p>To build using the provided makefile.vc you may use:</p>
242<pre>
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243 C:\tiff-4.0.0&gt; nmake /f makefile.vc clean
244 C:\tiff-4.0.0&gt; nmake /f makefile.vc
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245
246 or (the hard way)
247
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248 C:\tiff-4.0.0&gt; cd port
249 C:\tiff-4.0.0\port&gt; nmake /f makefile.vc clean
250 C:\tiff-4.0.0\port&gt; nmake /f makefile.vc
251 C:\tiff-4.0.0&gt; cd ../libtiff
252 C:\tiff-4.0.0\libtiff&gt; nmake /f makefile.vc clean
253 C:\tiff-4.0.0\libtiff&gt; nmake /f makefile.vc
254 C:\tiff-4.0.0\libtiff&gt; cd ..\tools
255 C:\tiff-4.0.0\tools&gt; nmake /f makefile.vc clean
256 C:\tiff-4.0.0\tools&gt; nmake /f makefile.vc
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257</pre>
258<p>This will build the library file
259<tt>libtiff\libtiff\libtiff.lib</tt>. This can be used in Win32
260programs. You may want to adjust the build options before start
261compiling. All parameters contained in the <tt>nmake.opt</tt>
262file.This is a plain text file you can open with your favorite text
263editor.</p>
264<p>The makefile also builds a DLL (libtiff.dll) with an associated
265import library (libtiff_i.lib). Any builds using libtiff will need
266to include the LIBTIFF\LIBTIFF directory in the include path.</p>
267<p>The <tt>libtiff\tools\makefile.vc</tt> should build .exe's for
268all the standard TIFF tool programs.</p>
8414a40c 269<hr>
80ed523f 270<a name="VMS" id="VMS"></a>
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271<h2>Building the Software on a VMS System</h2>
272The VMS port was done by Karsten Spang (<a href=
273"mailto:krs@kampsax.dk">krs@kampsax.dk</a>), who also "sort of"
274maintains it. The VMS specific files are not in the main
275directories. Instead they are placed under
276<tt>[.CONTRIB.VMS...]</tt> in the distribution tree. Installation:
277It is assumed that you have unpacked the tar file into a VMS
278directory tree, in this text called DISK:[TIFF].
279<ol>
280<li>Move the VMS specific files to their proper directories.
281<pre>
282$ SET DEFAULT DISK:[TIFF.CONTRIB.VMS]
283$ RENAME [.LIBTIFF]*.* [-.-.LIBTIFF]
284$ RENAME [.TOOLS]*.* [-.-.TOOLS]
285</pre></li>
286<li>Compile the library.
287<pre>
288$ SET DEFAULT DISK:[TIFF.LIBTIFF]
289$ @MAKEVMS
290</pre></li>
291<li>Compile the tools.
292<pre>
293$ SET DEFAULT DISK:[TIFF.TOOLS]
294$ @MAKEVMS
295</pre></li>
296<li>Define the programs.
297<pre>
298$ DEFINE TIFFSHR DISK:[TIFF.LIBTIFF]TIFFSHR
299$ FAX2PS :==$DISK:[TIFF.TOOLS]FAX2PS
300$ FAX2TIFF :==$DISK:[TIFF.TOOLS]FAX2TIFF
301$ GIF2TIFF :==$DISK:[TIFF.TOOLS]GIF2TIFF
302$ PAL2RGB :==$DISK:[TIFF.TOOLS]PAL2RGB
303$ PPM2TIFF :==$DISK:[TIFF.TOOLS]PPM2TIFF
304$ RAS2TIFF :==$DISK:[TIFF.TOOLS]RAS2TIFF
305$ RGB2YCBCR :==$DISK:[TIFF.TOOLS]RGB2YCBCR
306$ THUMBNAIL :==$DISK:[TIFF.TOOLS]THUMBNAIL
307$ TIFF2BW :==$DISK:[TIFF.TOOLS]TIFF2BW
308$ TIFF2PS :==$DISK:[TIFF.TOOLS]TIFF2PS
309$ TIFFCMP :==$DISK:[TIFF.TOOLS]TIFFCMP
310$ TIFFCP :==$DISK:[TIFF.TOOLS]TIFFCP
311$ TIFFDITHER:==$DISK:[TIFF.TOOLS]TIFFDITHER
312$ TIFFDUMP :==$DISK:[TIFF.TOOLS]TIFFDUMP
313$ TIFFINFO :==$DISK:[TIFF.TOOLS]TIFFINFO
314$ TIFFMEDIAN:==$DISK:[TIFF.TOOLS]TIFFMEDIAN
315$ TIFFSPLIT :==$DISK:[TIFF.TOOLS]TIFFSPLIT
316$ YCBCR :==$DISK:[TIFF.TOOLS]YCBCR
317</pre></li>
318</ol>
319You will want to add these lines to your <tt>LOGIN.COM</tt> file,
320after changing the name of the directory that you have used on your
321machine.
322<p>This release has been tested on OpenVMS/VAX 5.5-2, using VAX C
3233.2. A previous release was tested under OpenVMS/AXP ?.? using DEC
324C ?.?, it is believed that this release as well works on AXP. The
325code contains some GNU C specific things. This does *not* imply,
326however, that the VAX/GCC configuration has been tested, *it has
327not*.</p>
328<p>The command procedures (<tt>MAKEVMS.COM</tt>) for building the
329library and tools, is believed to choose the correct options for
330the VAX and AXP cases automatically.</p>
331<p>On the AXP, IEEE floating point is used by default. If you want
332VAX floating point, remove the <tt>/FLOAT=IEEE_FLOAT</tt>
333qualifier, and change <tt>HAVE_IEEEFP=1</tt> to
334<tt>HAVE_IEEEFP=0</tt> in the <tt>MAKEVMS.COM</tt> files in both
335the <b>libtiff</b> and <b>tools</b> directories.</p>
336<h3>Compiling your own program on a VMS system:</h3>
337When compiling a source file in which you <tt>"#include
338&lt;tiffio.h&gt;"</tt>, use the following command
339<pre>
340 $ CC/INCLUDE=DISK:[TIFF.LIBTIFF]
341</pre>
342This ensures that the header file is found. On the AXP, also add
343<tt>/FLOAT=IEEE_FLOAT</tt> (if used when building the library).
344<h3>Linking your own program to the TIFF library on a VMS
345system:</h3>
346You can link to the library in two ways: Either using the shareable
347library, or using the object library. On the VAX these
348possibilities are:
349<ol>
350<li>Using the shareable TIFF library.
351<pre>
352$ LINK MY_PROGRAM,DISK:[TIFF.LIBTIFF]TIFF/OPTIONS,SYS$INPUT:/OPTIONS
353 SYS$SHARE:VAXCRTL/SHAREABLE
354</pre></li>
355<li>Using the TIFF object library.
356<pre>
357$ LINK MY_PROGRAM, -
358 DISK:[TIFF.LIBTIFF]TIFF/LIBRARY/INCLUDE=(TIF_FAX3SM,TIF_CODEC), -
359 SYS$INPUT:/OPTIONS
360 SYS$SHARE:VAXCRTL/SHAREABLE
361</pre></li>
362</ol>
363On AXP (and possibly also using DEC C on VAX) the corresponding
364commands are
365<ol>
366<li>Using the shareable TIFF library.
367<pre>
368$ LINK MY_PROGRAM,DISK:[TIFF.LIBTIFF]TIFF/OPTIONS
369</pre></li>
370<li>Using the TIFF object library.
371<pre>
372$ LINK MY_PROGRAM,DISK:[TIFF.LIBTIFF]TIFF/LIBRARY
373</pre></li>
374</ol>
375Method 1 uses the shortest link time and smallest <tt>.EXE</tt>
376files, but it requires that <tt>TIFFSHR</tt> is defined as above at
377link time and <strong>at run time</strong>. Using the compilation
378procedure above, the tools are linked in this way.
379<p>Method 2 gives somewhat longer link time and larger
380<tt>.EXE</tt> files, but does not require <tt>TIFFSHR</tt> to be
381defined. This method is recommended if you want to run your program
382on another machine, and for some reason don't want to have the
383library on that machine. If you plan to have more than one program
384(including the tools) on the machine, it is recommended that you
80ed523f 385copy the library to the other machine and use method 1.</p>
8414a40c 386<hr>
80ed523f 387<a name="Other" id="Other"></a>
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388<h2>Building the Software on Other Systems</h2>
389This section contains information that might be useful if you are
390working on a non-UNIX system that is not directly supported. All
391library-related files described below are located in the
392<b>libtiff</b> directory.
393<p>The library requires two files that are generated
394<i>on-the-fly</i>. The file <b>tif_fax3sm.c</b> has the state
395tables for the Group 3 and Group 4 decoders. This file is generated
396by the <tt>mkg3states</tt> program on a UNIX system; for
397example,</p>
398<div style="margin-left: 2em">
399<pre>
400<tt>
401cd libtiff
402cc -o mkg3states mkg3states.c
403rm -f tif_fax3sm.c
404./mkg3states -c const tif_fax3sm.c
405</tt>
406</pre></div>
407The <tt>-c</tt> option can be used to control whether or not the
408resutling tables are generated with a <tt>const</tt> declaration.
409The <tt>-s</tt> option can be used to specify a C storage class for
410the table declarations. The <tt>-b</tt> option can be used to force
411data values to be explicitly bracketed with ``{}'' (apparently
412needed for some MS-Windows compilers); otherwise the structures are
413emitted in as compact a format as possible. Consult the source code
414for this program if you have questions.
415<p>The second file required to build the library, <b>version.h</b>,
416contains the version information returned by the
417<tt>TIFFGetVersion</tt> routine. This file is built on most systems
418using the <tt>mkversion</tt> program and the contents of the
419<tt>VERSION</tt> and <tt>tiff.alpha</tt> files; for example,</p>
420<div style="margin-left: 2em">
421<pre>
422cd libtiff
423cc -o mkversion mkversion.c
424rm -f version.h
425./mkversion -v ../VERSION -a ../dist/tiff.alpha version.h
426</pre></div>
427<p>Otherwise, when building the library on a non-UNIX system be
428sure to consult the files <b>tiffcomp.h</b> and <b>tiffconf.h</b>.
429The former contains system compatibility definitions while the
430latter is provided so that the software configuration can be
431controlled on systems that do not support the make facility for
432building the software.</p>
433<p>Systems without a 32-bit compiler may not be able to handle some
434of the codecs in the library; especially the Group 3 and 4 decoder.
435If you encounter problems try disabling support for a particular
436codec; consult the <a href=
437"internals.html#Config">documentation</a>.</p>
438<p>Programs in the tools directory are written to assume an ANSI C
439compilation environment. There may be a few POSIX'isms as well. The
440code in the <b>port</b> directory is provided to emulate routines
441that may be missing on some systems. On UNIX systems the
442<tt>configure</tt> script automatically figures out which routines
443are not present on a system and enables the use of the equivalent
444emulation routines from the <b>port</b> directory. It may be
445necessary to manually do this work on a non-UNIX system. <a name=
446"Testing" id="Testing"></a></p>
447<hr>
448<h2>Checking out the Software</h2>
449<p>Assuming you have working versions of <tt>tiffgt</tt> and
450<tt>tiffsv</tt>, you can just use them to view any of the sample
451images available for testing (see the <a href="images.html">section
452on obtaining the test images</a>). Otherwise, you can do a cursory
453check of the library with the <tt>tiffcp</tt> and <tt>tiffcmp</tt>
454programs. For example,</p>
455<div style="margin-left: 2em">
456<pre>
457tiffcp -lzw cramps.tif x.tif
458tiffcmp cramps.tif x.tif
459</pre></div>
460<p>(<tt>tiffcmp</tt> should be silent if the files compare
461correctly). <a name="TOC" id="TOC"></a></p>
462<hr>
463<h2>Table of Contents</h2>
464The following files makup the core library:
465<pre>
466libtiff/tiff.h TIFF spec definitions
467libtiff/tiffcomp.h non-UNIX OS-compatibility definitions
468libtiff/tiffconf.h non-UNIX configuration definitions
469libtiff/tiffio.h public TIFF library definitions
470libtiff/tiffiop.h private TIFF library definitions
471libtiff/t4.h CCITT Group 3/4 code tables+definitions
472libtiff/tif_dir.h private defs for TIFF directory handling
473libtiff/tif_fax3.h CCITT Group 3/4-related definitions
474libtiff/tif_predict.h private defs for Predictor tag support
475libtiff/uvcode.h LogL/LogLuv codec-specific definitions
476libtiff/version.h version string (generated by Makefile)
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477libtiff/tif_apple.c Apple-related OS support
478libtiff/tif_atari.c Atari-related OS support
479libtiff/tif_aux.c auxilary directory-related functions
480libtiff/tif_close.c close an open TIFF file
481libtiff/tif_codec.c configuration table of builtin codecs
482libtiff/tif_compress.c compression scheme support
483libtiff/tif_dir.c directory tag interface code
484libtiff/tif_dirinfo.c directory known tag support code
485libtiff/tif_dirread.c directory reading code
486libtiff/tif_dirwrite.c directory writing code
487libtiff/tif_dumpmode.c "no" compression codec
488libtiff/tif_error.c library error handler
489libtiff/tif_fax3.c CCITT Group 3 and 4 codec
490libtiff/tif_fax3sm.c G3/G4 state tables (generated by mkg3states)
491libtiff/tif_flush.c i/o and directory state flushing
492libtiff/tif_getimage.c TIFFRGBAImage support
493libtiff/tif_jpeg.c JPEG codec (interface to the IJG distribution)
494libtiff/tif_luv.c SGI LogL/LogLuv codec
495libtiff/tif_lzw.c LZW codec
496libtiff/tif_msdos.c MSDOS-related OS support
497libtiff/tif_next.c NeXT 2-bit scheme codec (decoding only)
498libtiff/tif_open.c open and simply query code
499libtiff/tif_packbits.c Packbits codec
500libtiff/tif_pixarlog.c Pixar codec
501libtiff/tif_predict.c Predictor tag support
502libtiff/tif_print.c directory printing support
503libtiff/tif_read.c image data reading support
504libtiff/tif_strip.c some strip-related code
505libtiff/tif_swab.c byte and bit swapping support
506libtiff/tif_thunder.c Thunderscan codec (decoding only)
507libtiff/tif_tile.c some tile-related code
508libtiff/tif_unix.c UNIX-related OS support
509libtiff/tif_version.c library version support
510libtiff/tif_vms.c VMS-related OS support
511libtiff/tif_warning.c library warning handler
512libtiff/tif_win3.c Windows-3.1-related OS support
513libtiff/tif_win32.c Win32 (95/98/NT) related OS support
514libtiff/tif_write.c image data writing support
515libtiff/tif_zip.c Deflate codec
516
517libtiff/mkg3states.c program to generate G3/G4 decoder state tables
518libtiff/mkspans.c program to generate black-white span tables
519libtiff/mkversion.c program to generate libtiff/version.h.
520</pre>
521<hr>
80ed523f 522Last updated: $Date: 2012-02-18 21:36:31 $
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