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1 <chapter id="winelib-toolkit">
2 <title id="winelib-toolkit.title">The Winelib development toolkit</title>
4 <sect1 id="winemaker">
5 <title id="winemaker.title">Winemaker</title>
7 <sect2 id="vc-projects">
8 <title id="vc-projects.title">Support for Visual C++ projects</title>
9 <para>
10 Unfortunately Winemaker does not support the Visual C++ project
11 files, ...yet. Supporting Visual C++ project files (the
12 <filename>.dsp</filename> and some <filename>.mak</filename> files
13 for older versions of Visual C++) is definitely on
14 the list of important Winemaker improvements as it will allow it to
15 properly detect the defines to be used, any custom include path, the
16 list of libraries to link with, and exactly which source files to use
17 to build a specific target. All things that the current version of
18 Winemaker has to guess or that you have to tell it as will become
19 clear in the next section.
20 </para>
21 <para>
22 When the time comes Winemaker, and its associated build system, will
23 need some extensions to support:
24 </para>
25 <itemizedlist>
26 <listitem>
27 <para>
28 per file defines and include paths. Visual C++ projects allow
29 the user to specify compiler options for each individual file
30 being compiled. But this is probably not very frequent so it
31 might not be that important.
32 </para>
33 </listitem>
34 <listitem>
35 <para>
36 multiple configurations. Visual C++ projects usually have at
37 least a 'Debug' and a 'Release' configuration which are compiled
38 with different compiler options. How exactly we deal with these
39 configurations remains to be determined.
40 </para>
41 </listitem>
42 </itemizedlist>
43 </sect2>
45 <sect2 id="source-analysis">
46 <title id="source-analysis.title">Winemaker's source analysis</title>
47 <para>
48 Winemaker can do its work even without a Windows makefile or a
49 Visual Studio project to start from (it would not know what to do
50 with a windows makefile anyway). This involves doing many educated
51 guesses which may be wrong. But by and large it works. The purpose
52 of this section is to describe in more details how winemaker
53 proceeds so that you can better understand why it gets things
54 wrong and how to fix it/avoid it.
55 </para>
56 <para>
57 At the core winemaker does a recursive traversal of
58 your source tree looking for targets (things to build) and source
59 files. Let's start with the targets.
60 </para>
61 <para>
62 First are executables and DLLs. Each time it finds one of these in
63 a directory, winemaker puts it in the list of things to build and
64 will later generate a <filename>Makefile.in</filename> file in this
65 directory. Note that Winemaker also knows about the commonly used
66 <filename>Release</filename> and <filename>Debug</filename>
67 directories, so it will attribute the executables and libraries
68 found in these to their parent directory. When it finds an
69 executable or a DLL winemaker is happy because these give it more
70 information than the other cases described below.
71 </para>
72 <para>
73 If it does not find any executable or DLL winemaker will look for
74 files with a <filename>.mak</filename> extension. If they are not
75 disguised Visual C++ projects (and currently even if they are),
76 winemaker will assume that a target by that name should be built
77 in this directory. But it will not know whether this target is an
78 executable or a library. So it will assume it is of the default
79 type, i.e. a graphical application, which you can override by using
80 the <option>--cuiexe</option> and <option>--dll</option> options.
81 </para>
82 <para>
83 Finally winemaker will check to see if there is a file called
84 <filename>makefile</filename>. If there is, then it will assume
85 that there is exactly one target to build for this directory. But
86 it will not know the name or type of this target. For the type it
87 will do as in the above case. And for the name it will use the
88 directory's name. Actually, if the directory starts with
89 <filename>src</filename> winemaker will try to make use of the name
90 of the parent directory instead.
91 </para>
92 <para>
93 Once the target list for a directory has been established,
94 winemaker will check whether it contains a mix of executables and
95 libraries. If it is so, then winemaker will make it so that each
96 executable is linked with all the libraries of that directory.
97 </para>
98 <para>
99 If the previous two steps don't produce the expected results (or
100 you think they will not) then you should put winemaker in
101 interactive mode (see <xref linkend="interactive"
102 endterm="interactive.title">). This will allow you to specify the
103 target list (and more) for each directory.
104 </para>
105 <para>
106 In each directory winemaker also looks for source files: C, C++
107 or resource files. If it also found targets to build in this
108 directory it will then try to assign each source file to one of
109 these targets based on their names. Source files that do not seem
110 to match any specific target are put in a global list for this
111 directory, see the <literal>EXTRA_xxx</literal> variables in the
112 <filename>Makefile.in</filename>, and linked with each of the
113 targets. The assumption here is that these source files contain
114 common code which is shared by all the targets.
115 If no targets were found in the directory where these files are
116 located, then they are assigned to the parent's directory. So if a
117 target is found in the parent directory it will also 'inherit' the
118 source files found in its subdirectories.
119 </para>
120 <para>
121 Finally winemaker also looks for more exotic files like
122 <filename>.h</filename> headers, <filename>.inl</filename> files
123 containing inline functions and a few others. These are not put in
124 the regular source file lists since they are not compiled directly.
125 But winemaker will still remember them so that they are processed
126 when the time comes to fix the source files.
127 </para>
128 <para>
129 Fixing the source files is done as soon as winemaker has finished
130 its recursive directory traversal. The two main tasks in this step
131 are fixing the CRLF issues and verifying the case of the include
132 statements.
133 </para>
134 <para>
135 Winemaker makes a backup of each source file (in such a way that
136 symbolic links are preserved), then reads it fixing the CRLF
137 issues and the other issues as it goes. Once it has finished
138 working on a file it checks whether it has done any non
139 CRLF-related modification and deletes the backup file if it did
140 not (or if you used <option>--nobackup</option>).
141 </para>
142 <para>
143 Checking the case of the include statements (of any form,
144 including files referenced by resource files), is done in the
145 context of that source file's project. This way winemaker can use
146 the proper include path when looking for the file that is included.
147 If winemaker fails to find a file in any of the directories of the
148 include path, it will rename it to lowercase on the basis that it
149 is most likely a system header and that all system headers names
150 are lowercase (this can be overridden by using
151 <option>--nolower-include</option>).
152 </para>
153 <para>
154 Finally winemaker generates the <filename>Makefile.in</filename>
155 files and other support files (wrapper files, spec files,
156 <filename>configure.in</filename>,
157 <filename>Make.rules.in</filename>). From the above description
158 you can guess at the items that winemaker may get wrong in
159 this phase: macro definitions, include path, DLL path, DLLs to
160 import, library path, libraries to link with. You can deal with
161 these issues by using winemaker's <option>-D</>, <option>-P</>,
162 <option>-i</>, <option>-I</>, <option>-L</> and <option>-l</>
163 options if they are
164 homogeneous enough between all your targets. Otherwise you may
165 want to use winemaker's <link linkend="interactive">interactive
166 mode</link> so that you can specify different settings for each
167 project / target.
168 </para>
169 <para>
170 For instance, one of the problems you are likely to encounter is
171 that of the <varname>STRICT</varname> macro. Some programs will
172 not compile if <varname>STRICT</varname> is not turned on, and
173 others will not compile if it is. Fortunately all the files in a
174 given source tree use the same setting so that all you have to do
175 is add <literal>-DSTRICT</literal> on winemaker's command line
176 or in the <filename>Makefile.in</filename> file(s).
177 </para>
178 <para>
179 Finally the most likely reasons for missing or duplicate symbols
180 are:
181 </para>
182 <itemizedlist>
183 <listitem>
184 <para>
185 The target is not importing the right set of DLLs, or is not
186 being linked with the right set of libraries. You can avoid
187 this by using winemaker's <option>-P</>, <option>-i</>,
188 <option>-L</option> and <option>-l</> options or adding these
189 DLLs and libraries to the <filename>Makefile.in</> file.
190 </para>
191 </listitem>
192 <listitem>
193 <para>
194 Maybe you have multiple targets in a single directory and
195 winemaker guessed wrong when trying to match the source files
196 with the targets. The only way to fix this kind of problem is
197 to edit the <filename>Makefile.in</filename> file manually.
198 </para>
199 </listitem>
200 <listitem>
201 <para>
202 Winemaker assumes you have organized your source files
203 hierarchically. If a target uses source files that are in a
204 sibling directory, e.g. if you link with
205 <filename>../hello/world.o</filename> then you will get missing
206 symbols. Again the only solution is to manually edit the
207 <filename>Makefile.in</filename> file.
208 </para>
209 </listitem>
210 </itemizedlist>
211 </sect2>
213 <sect2 id="interactive">
214 <title id="interactive.title">The interactive mode</title>
215 <para>
216 what is it,
217 when to use it,
218 how to use it
219 </para>
220 </sect2>
222 <sect2 id="Makefile.in">
223 <title id="Makefile.in.title">The Makefile.in files</title>
224 <para>
225 The <filename>Makefile.in</filename> is your makefile. More
226 precisely it is the template from which the actual makefile will
227 be generated by the <filename>configure</filename> script. It also
228 relies on the <filename>Make.rules</filename> file for most of
229 the actual logic. This way it only contains a relatively simple
230 description of what needs to be built, not the complex logic of
231 how things are actually built.
232 </para>
233 <para>
234 So this is the file to modify if you want to customize things.
235 Here's a detailed description of its content:
236 </para>
237 <programlisting>
238 ### Generic autoconf variables
240 TOPSRCDIR = @top_srcdir@
241 TOPOBJDIR = .
242 SRCDIR = @srcdir@
243 VPATH = @srcdir@
244 </programlisting>
245 <para>
246 The above is part of the standard autoconf boiler-plate. These
247 variables make it possible to have per-architecture directories for
248 compiled files and other similar goodies (But note that this kind
249 of functionality has not been tested with winemaker generated
250 <filename>Makefile.in</filename> files yet).
251 </para>
252 <programlisting>
253 SUBDIRS =
254 DLLS =
255 EXES = hello.exe
256 </programlisting>
257 <para>
258 This is where the targets for this directory are listed. The names
259 are pretty self-explanatory. <varname>SUBDIRS</varname> is usually
260 only present in the top-level makefile. For libraries and
261 executables, specify the full name, including the '.dll' or '.exe'
262 extension. Note that these names must be in all lowercase.
263 </para>
264 <programlisting>
265 ### Global settings
267 DEFINES = -DSTRICT
268 INCLUDE_PATH =
269 DLL_PATH =
270 LIBRARY_PATH =
271 LIBRARIES =
272 </programlisting>
273 <para>
274 This section contains the global compilation settings: they apply
275 to all the targets in this makefile. The <varname>LIBRARIES</>
276 variable allows you to specify additional Unix libraries to link
277 with. Note that you would normally not specify Winelib libraries
278 there. To link with a Winelib library, one uses the <varname>DLLS</>
279 variables of the Makefile. The exception is for C++ libraries where
280 you currently don't have a choice but to link with them in the
281 Unix sense. One library you are likely to find here is
282 <literal>mfc</> (note, the '-l' is omitted).
283 </para>
284 <para>
285 The other variable
286 names should be self-explanatory. You can also use three additional
287 variables that are usually not present in the file:
288 <varname>CEXTRA</varname>, <varname>CXXEXTRA</varname> and
289 <varname>WRCEXTRA</varname> which allow you to specify additional
290 flags for, respectively, the C compiler, the C++ compiler and the
291 resource compiler. Finally note that all these variable contain
292 the option's name.
293 </para>
294 <para>
295 Then come one section per target, each describing the various
296 components that target is made of.
297 </para>
298 <programlisting>
299 ### hello.exe sources and settings
301 hello_exe_C_SRCS = hello.c
302 hello_exe_CXX_SRCS =
303 hello_exe_RC_SRCS =
304 hello_exe_SPEC_SRCS =
305 </programlisting>
306 <para>
307 Each section will start with a comment indicating the name of the
308 target. Then come a series of variables prefixed with the name of
309 that target. Note that the name of the prefix may be slightly
310 different from that of the target because of restrictions on the
311 variable names.
312 </para>
313 <para>
314 The above variables list the sources that are used togenerate the
315 target. Note that there should only be one resource file in
316 <varname>RC_SRCS</varname>, and that <varname>SPEC_SRCS</varname>
317 will usually be empty for executables, and will contain a single
318 spec file for libraries.
319 </para>
320 <programlisting>
321 hello_exe_DLL_PATH =
322 hello_exe_DLLS =
323 hello_exe_LIBRARY_PATH =
324 hello_exe_LIBRARIES =
325 hello_exe_DEPENDS =
326 </programlisting>
327 <para>
328 The above variables specify how to link the target. Note that they
329 add to the global settings we saw at the beginning of this file.
330 </para>
331 <para>
332 The <varname>DLLS</> field is where you would enumerate the list of
333 DLLs that executable imports. It should contain the full DLL name
334 including the '.dll' extension, but not the '-l' option.
335 </para>
336 <para>
337 <varname>DEPENDS</>, when present, specifies a list of other
338 targets that this target depends on. Winemaker will automatically
339 fill this field when an executable and a library are built in the
340 same directory.
341 </para>
342 <programlisting>
343 hello_exe_OBJS = $(hello_exe_C_SRCS:.c=.o) \
344 $(hello_exe_CXX_SRCS:.cpp=.o) \
345 $(EXTRA_OBJS)
346 </programlisting>
347 <para>
348 The above just builds a list of all the object files that
349 correspond to this target. This list is later used for the link
350 command.
351 </para>
352 <programlisting>
353 ### Global source lists
355 C_SRCS = $(hello_exe_C_SRCS)
356 CXX_SRCS = $(hello_exe_CXX_SRCS)
357 RC_SRCS = $(hello_exe_RC_SRCS)
358 SPEC_SRCS = $(hello_exe_SPEC_SRCS)
359 </programlisting>
360 <para>
361 This section builds 'summary' lists of source files. These lists are
362 used by the <filename>Make.rules</filename> file.
363 </para>
364 <note><para>
365 FIXME:The following is not up-to-date.
366 </para></note>
367 <programlisting>
368 ### Generic autoconf targets
370 all: $(DLLS:%=%.so) $(EXES:%=%.so)
372 @MAKE_RULES@
374 install::
375 for i in $(EXES); do $(INSTALL_PROGRAM) $$i $(bindir); done
376 for i in $(EXES:%=%.so) $(DLLS); do $(INSTALL_LIBRARY) $$i $(libdir); done
378 uninstall::
379 for i in $(EXES); do $(RM) $(bindir)/$$i;done
380 for i in $(EXES:%=%.so) $(DLLS); do $(RM) $(libdir)/$$i;done
381 </programlisting>
382 <para>
383 The above first defines the default target for this makefile. Here
384 it consists in trying to build all the targets. Then it includes
385 the <filename>Make.rules</filename> file which contains the build
386 logic, and provides a few more standard targets to install /
387 uninstall the targets.
388 </para>
389 <programlisting>
390 ### Target specific build rules
392 $(hello_SPEC_SRCS:.spec=.tmp.o): $(hello_OBJS)
393 $(LDCOMBINE) $(hello_OBJS) -o $@
394 -$(STRIP) $(STRIPFLAGS) $@
396 $(hello_SPEC_SRCS:.spec=.spec.c): $(hello_SPEC_SRCS:.spec) $(hello_SPEC_SRCS:.spec=.tmp.o) $(hello_RC_SRCS:.rc=.res)
397 $(WINEBUILD) -fPIC $(hello_LIBRARY_PATH) $(WINE_LIBRARY_PATH) -sym $(hello_SPEC_SRCS:.spec=.tmp.o) -o $@ -spec $(hello_SPEC_SRCS)
399 hello.so: $(hello_SPEC_SRCS:.spec=.spec.o) $(hello_OBJS) $(hello_DEP
400 ENDS)
401 $(LDSHARED) $(LDDLLFLAGS) -o $@ $(hello_OBJS) $(hello_SPEC_SRCS:.spec=.spec.o) $(hello_LIBRARY_PATH) $(hello_LIBRARIES:%=-l%) $(DLL_LINK) $(LIBS)
402 test -f hello || $(LN_S) $(WINE) hello
403 </programlisting>
404 <para>
405 Then come additional directives to link the executables and
406 libraries. These are pretty much standard and you should not need
407 to modify them.
408 </para>
409 </sect2>
411 <sect2 id="Make.rules.in">
412 <title id="Make.rules.in.title">The Make.rules.in file</title>
413 <para>
414 What's in the Make.rules.in...
415 </para>
416 </sect2>
418 <sect2 id="configure.in">
419 <title id="configure.in.title">The configure.in file</title>
420 <para>
421 What's in the configure.in...
422 </para>
423 </sect2>
424 </sect1>
426 <sect1 id="wrc">
427 <title id="wrc.title">Compiling resource files: WRC</title>
428 <para>
429 To compile resources you should use the Wine Resource Compiler,
430 wrc for short, which produces a binary <filename>.res</filename>
431 file. This resource file is then used by winebuild when compiling
432 the spec file (see <xref linkend="spec-file"
433 endterm="spec-file.title">).
434 </para>
435 <para>
436 Again the makefiles generated by winemaker take care of this for you.
437 But if you were to write your own makefile you would put something
438 like the following:
439 </para>
440 <programlisting>
441 WRC=$(WINE_DIR)/tools/wrc/wrc
443 WINELIB_FLAGS = -I$(WINE_DIR)/include -DWINELIB -D_REENTRANT
444 WRCFLAGS = -r -L
446 .SUFFIXES: .rc .res
448 .rc.res:
449 $(WRC) $(WRCFLAGS) $(WINELIB_FLAGS) -o $@ $<
450 </programlisting>
451 <para>
452 There are two issues you are likely to encounter with resource files.
453 </para>
454 <para>
455 The first problem is with the C library headers. WRC does not know
456 where these headers are located. So if an RC file, of a file it
457 includes, references such a header you will get a 'file not found'
458 error from wrc. Here are a few ways to deal with this:
459 </para>
460 <itemizedlist>
461 <listitem>
462 <para>
463 The solution traditionally used by the Winelib headers is to
464 enclose the offending include statement in an
465 <literal>#ifndef RC_INVOKED</literal> statement where
466 <varname>RC_INVOKED</varname> is a macro name which is
467 automatically defined by wrc.
468 </para>
469 </listitem>
470 <listitem>
471 <para>
472 Alternately you can add one or more <option>-I</option> directive
473 to your wrc command so that it finds you system files. For
474 instance you may add <literal>-I/usr/include
475 -I/usr/lib/gcc-lib/i386-linux/2.95.2/include</literal> to cater
476 to both C and C++ headers. But this supposes that you know where
477 these header files reside which decreases the portability of your
478 makefiles to other platforms (unless you automatically detect all
479 the necessary directories in the autoconf script).
480 </para>
481 <para>
482 Or you could use the C/C++ compiler to perform the preprocessing.
483 To do so, simply modify your makefile as follows:
484 </para>
485 <programlisting>
486 .rc.res:
487 $(CC) $(CC_OPTS) -DRC_INVOKED -E -x c $< | $(WRC) -N $(WRCFLAGS) $(WINELIB_FLAGS) -o $@
489 </programlisting>
490 <!-- FIXME: does this still cause problems for the line numbers? -->
491 </listitem>
492 </itemizedlist>
493 <para>
494 The second problem is that the headers may contain constructs that
495 WRC fails to understand. A typical example is a function which return
496 a 'const' type. WRC expects a function to be two identifiers followed
497 by an opening parenthesis. With the const this is three identifiers
498 followed by a parenthesis and thus WRC is confused (note: WRC should
499 in fact ignore all this like the windows resource compiler does).
500 The current work-around is to enclose offending statement(s) in an
501 <literal>#ifndef RC_INVOKED</literal>.
502 </para>
504 <para>
505 Using GIF files in resources is problematic. For best results,
506 convert them to BMP and change your <filename>.res</filename>
507 file.
508 </para>
509 <para>
510 If you use common controls/dialogs in your resource files, you
511 will need to add <function>#include &lt;commctrl.h></function>
512 after the <function>#include &lt;windows.h></function> line,
513 so that <command>wrc</command> knows the values of control
514 specific flags.
515 </para>
516 </sect1>
518 <sect1 id="wmc">
519 <title id="wmc.title">Compiling message files: WMC</title>
520 <para>
521 how does one use it???
522 </para>
523 </sect1>
525 <sect1 id="spec-file">
526 <title id="spec-file.title">The Spec file</title>
528 <sect2 id="spec-intro">
529 <title id="spec-intro.title">Introduction</title>
530 <para>
531 In Windows the program's life starts either when its
532 <function>main</function> is called, for console applications, or
533 when its <function>WinMain</function> is called, for windows
534 applications in the 'windows' subsystem. On Unix it is always
535 <function>main</function> that is called. Furthermore in Winelib it
536 has some special tasks to accomplish, such as initializing Winelib,
537 that a normal <function>main</function> does not have to do.
538 </para>
539 <para>
540 Furthermore windows applications and libraries contain some
541 information which are necessary to make APIs such as
542 <function>GetProcAddress</function> work. So it is necessary to
543 duplicate these data structures in the Unix world to make these
544 same APIs work with Winelib applications and libraries.
545 </para>
546 <para>
547 The spec file is there to solve the semantic gap described above.
548 It provides the <function>main</function> function that initializes
549 Winelib and calls the module's <function>WinMain</function> /
550 <function>DllMain</function>, and it contains information about
551 each API exported from a Dll so that the appropriate tables can be
552 generated.
553 </para>
554 <para>
555 A typical spec file will look something like this:
556 </para>
557 <screen>
558 init WinMain
559 rsrc resource.res
560 </screen>
561 <para>
562 And here are the entries you will probably want to change:
563 </para>
564 <variablelist>
565 <varlistentry>
566 <term>init</term>
567 <listitem>
568 <para>
569 <literal>init</literal> defines what is the entry point of
570 that module. For a library this is customarily set to
571 <literal>DllMain</literal>, for a console application this
572 is <literal>main</literal> and for a graphical application
573 this is <literal>WinMain</literal>.
574 </para>
575 </listitem>
576 </varlistentry>
577 <varlistentry>
578 <term>rsrc</term>
579 <listitem>
580 <para>
581 This item specifies the name of the compiled resource file
582 to link with your module. If your resource file is called
583 <filename>hello.rc</filename> then the wrc compilation step
584 (see <xref linkend="wrc" endterm="wrc.title">) will generate
585 a file called <filename>hello.res</filename>. This is the
586 name you must provide here. Note that because of this you
587 cannot compile the spec file before you have compiled the
588 resource file. So you should put a rule like the following
589 in your makefile:
590 </para>
591 <programlisting>
592 hello.spec.c: hello.res
593 </programlisting>
594 <para>
595 If your project does not have a resource file then you must
596 omit this entry altogether.
597 </para>
598 </listitem>
599 </varlistentry>
600 <varlistentry>
601 <term>@</term>
602 <listitem>
603 <note><para>
604 FIXME: You must now export functions from DLLs.
605 </para></note>
606 <para>
607 This entry is not shown above because it is not always
608 necessary. In fact it is only necessary to export functions
609 when you plan to dynamically load the library with
610 <function>LoadLibrary</function> and then do a
611 <function>GetProcAddress</function> on these functions.
612 This is not necessary if you just plan on linking with the
613 library and calling the functions normally. For more details
614 about this see: <xref linkend="spec-reference"
615 endterm="spec-reference.title">.
616 </para>
617 </listitem>
618 </varlistentry>
619 </variablelist>
620 </sect2>
622 <sect2 id="spec-compiling">
623 <title id="spec-compiling.title">Compiling it</title>
624 <note><para>
625 FIXME: This section is very outdated and does not correctly
626 describe the current use of winebuild and spec files. In
627 particular, with recent versions of winebuild most of the
628 information that used to be in the spec files is now specified on
629 the command line.
630 </para></note>
631 <para>
632 Compiling a spec file is a two step process. It is first
633 converted into a C file by winebuild, and then compiled into an
634 object file using your regular C compiler. This is all taken
635 care of by the winemaker generated makefiles of course. But
636 here's what it would like if you had to do it by hand:
637 </para>
638 <screen>
639 WINEBUILD=$(WINE_DIR)/tools/winebuild
641 .SUFFIXES: .spec .spec.c .spec.o
643 .spec.spec.c:
644 $(WINEBUILD) -fPIC -o $@ -spec $<
646 .spec.c.spec.o:
647 $(CC) -c -o $*.spec.o $<
648 </screen>
649 <para>
650 Nothing really complex there. Just don't forget the
651 <literal>.SUFFIXES</literal> statement, and beware of the tab if
652 you copy this straight to your Makefile.
653 </para>
654 </sect2>
656 <sect2 id="spec-reference">
657 <title id="spec-reference.title">More details</title>
659 <para>
660 Here is a more detailed description of the spec file's format.
661 </para>
663 <programlisting>
664 # comment text
665 </programlisting>
666 <para>
667 Anything after a '#' will be ignored as comments.
668 </para>
670 <programlisting>
671 init FUNCTION
672 </programlisting>
673 <para>
674 This field is optional and specific to Win32 modules. It
675 specifies a function which will be called when the DLL is loaded
676 or the executable started.
677 </para>
679 <programlisting>
680 rsrc RES_FILE
681 </programlisting>
682 <para>
683 This field is optional. If present it specifies the name of the
684 .res file containing the compiled resources. See <xref
685 linkend="wrc" endterm="wrc.title"> for details on compiling a
686 resource file.
687 </para>
689 <programlisting>
690 ORDINAL VARTYPE EXPORTNAME (DATA [DATA [DATA [...]]])
691 2 byte Variable(-1 0xff 0 0)
692 </programlisting>
693 <para>
694 This field can be present zero or more times.
695 Each instance defines data storage at the ordinal specified. You
696 may store items as bytes, 16-bit words, or 32-bit words.
697 <literal>ORDINAL</literal> is replaced by the ordinal number
698 corresponding to the variable. <literal>VARTYPE</literal> should
699 be <literal>byte</literal>, <literal>word</literal> or
700 <literal>long</literal> for 8, 16, or 32 bits respectively.
701 <literal>EXPORTNAME</literal> will be the name available for
702 dynamic linking. <literal>DATA</literal> can be a decimal number
703 or a hex number preceded by "0x". The example defines the
704 variable <literal>Variable</literal> at ordinal 2 and containing
705 4 bytes.
706 </para>
708 <programlisting>
709 ORDINAL equate EXPORTNAME DATA
710 </programlisting>
711 <para>
712 This field can be present zero or more times.
713 Each instance defines an ordinal as an absolute value.
714 <literal>ORDINAL</literal> is replaced by the ordinal number
715 corresponding to the variable. <literal>EXPORTNAME</literal> will
716 be the name available for dynamic linking.
717 <literal>DATA</literal> can be a decimal number or a hex number
718 preceded by "0x".
719 </para>
721 <programlisting>
722 ORDINAL FUNCTYPE EXPORTNAME([ARGTYPE [ARGTYPE [...]]]) HANDLERNAME
723 100 pascal CreateWindow(ptr ptr long s_word s_word s_word s_word
724 word word word ptr)
725 WIN_CreateWindow
726 101 pascal GetFocus() WIN_GetFocus()
727 </programlisting>
728 <para>
729 This field can be present zero or more times.
730 Each instance defines a function entry point. The prototype
731 defined by <literal>EXPORTNAME ([ARGTYPE [ARGTYPE [...]]])</literal>
732 specifies the name available for dynamic linking and the format
733 of the arguments. <literal>ORDINAL</literal> is replaced
734 by the ordinal number corresponding to the function, or
735 <literal>@</literal> for automatic ordinal allocation (Win32 only).
736 </para>
737 <para>
738 <literal>FUNCTYPE</literal> should be one of:
739 </para>
740 <variablelist>
741 <varlistentry>
742 <term>pascal16</term>
743 <listitem>
744 <para>
745 for a Win16 function returning a 16-bit value
746 </para>
747 </listitem>
748 </varlistentry>
749 <varlistentry>
750 <term>pascal</term>
751 <listitem>
752 <para>
753 for a Win16 function returning a 32-bit value
754 </para>
755 </listitem>
756 </varlistentry>
757 <varlistentry>
758 <term>register</term>
759 <listitem>
760 <para>
761 for a function using CPU register to pass arguments
762 </para>
763 </listitem>
764 </varlistentry>
765 <varlistentry>
766 <term>interrupt</term>
767 <listitem>
768 <para>
769 for a Win16 interrupt handler routine
770 </para>
771 </listitem>
772 </varlistentry>
773 <varlistentry>
774 <term>stdcall</term>
775 <listitem>
776 <para>
777 for a normal Win32 function
778 </para>
779 </listitem>
780 </varlistentry>
781 <varlistentry>
782 <term>cdecl</term>
783 <listitem>
784 <para>
785 for a Win32 function using the C calling convention
786 </para>
787 </listitem>
788 </varlistentry>
789 <varlistentry>
790 <term>varargs</term>
791 <listitem>
792 <para>
793 for a Win32 function taking a variable number of arguments
794 </para>
795 </listitem>
796 </varlistentry>
797 </variablelist>
799 <para>
800 <literal>ARGTYPE</literal> should be one of:
801 </para>
802 <variablelist>
803 <varlistentry>
804 <term>word</term>
805 <listitem>
806 <para>
807 for a 16 bit word
808 </para>
809 </listitem>
810 </varlistentry>
811 <varlistentry>
812 <term>long</term>
813 <listitem>
814 <para>
815 a 32 bit value
816 </para>
817 </listitem>
818 </varlistentry>
819 <varlistentry>
820 <term>ptr</term>
821 <listitem>
822 <para>
823 for a linear pointer
824 </para>
825 </listitem>
826 </varlistentry>
827 <varlistentry>
828 <term>str</term>
829 <listitem>
830 <para>
831 for a linear pointer to a null-terminated string
832 </para>
833 </listitem>
834 </varlistentry>
835 <varlistentry>
836 <term>s_word</term>
837 <listitem>
838 <para>
839 for a 16 bit signed word
840 </para>
841 </listitem>
842 </varlistentry>
843 <varlistentry>
844 <term>segptr</term>
845 <listitem>
846 <para>
847 for a segmented pointer
848 </para>
849 </listitem>
850 </varlistentry>
851 <varlistentry>
852 <term>segstr</term>
853 <listitem>
854 <para>
855 for a segmented pointer to a null-terminated string
856 </para>
857 </listitem>
858 </varlistentry>
859 <varlistentry>
860 <term>wstr</term>
861 <listitem>
862 <para>
863 for a linear pointer to a null-terminated wide
864 (16-bit Unicode) string
865 </para>
866 </listitem>
867 </varlistentry>
868 </variablelist>
870 <para>
871 Only <literal>ptr</literal>, <literal>str</literal>,
872 <literal>wstr</literal> and
873 <literal>long</literal> are valid for Win32 functions.
874 <literal>HANDLERNAME</literal> is the name of the actual Wine
875 function that will process the request in 32-bit mode.
876 </para>
877 <para>
878 Strings should almost always map to str,
879 wide strings - wstr.
880 As the general rule it depends on whether the
881 parameter is IN, OUT or IN/OUT.
882 </para>
883 <itemizedlist>
884 <listitem>
885 <para>
886 IN: str/wstr
887 </para>
888 </listitem>
889 <listitem>
890 <para>
891 OUT: ptr
892 </para>
893 </listitem>
894 <listitem>
895 <para>
896 IN/OUT: str/wstr
897 </para>
898 </listitem>
899 </itemizedlist>
900 <para>
901 It is for debug messages. If the parameter is OUT
902 it might not be initialized and thus it should not
903 be printed as a string.
904 </para>
905 <para>
906 The two examples define an entry point for the
907 <function>CreateWindow</function> and <function>GetFocus</function>
908 calls respectively. The ordinals used are just examples.
909 </para>
910 <para>
911 To declare a function using a variable number of arguments in
912 Win16, specify the function as taking no arguments. The arguments
913 are then available with CURRENT_STACK16->args. In Win32, specify
914 the function as <literal>varargs</literal> and declare it with a
915 '...' parameter in the C file. See the wsprintf* functions in
916 <filename>user.spec</filename> and
917 <filename>user32.spec</filename> for an example.
918 </para>
920 <programlisting>
921 ORDINAL stub EXPORTNAME
922 </programlisting>
923 <para>
924 This field can be present zero or more times.
925 Each instance defines a stub function. It makes the ordinal
926 available for dynamic linking, but will terminate execution with
927 an error message if the function is ever called.
928 </para>
930 <programlisting>
931 ORDINAL extern EXPORTNAME SYMBOLNAME
932 </programlisting>
933 <para>
934 This field can be present zero or more times.
935 Each instance defines an entry that simply maps to a Wine symbol
936 (variable or function); <literal>EXPORTNAME</literal> will point
937 to the symbol <literal>SYMBOLNAME</literal> that must be defined
938 in C code. This type only works with Win32.
939 </para>
941 <programlisting>
942 ORDINAL forward EXPORTNAME SYMBOLNAME
943 </programlisting>
944 <para>
945 This field can be present zero or more times.
946 Each instance defines an entry that is forwarded to another entry
947 point (kind of a symbolic link). <literal>EXPORTNAME</literal>
948 will forward to the entry point <literal>SYMBOLNAME</literal>
949 that must be of the form <literal>DLL.Function</literal>. This
950 type only works with Win32.
951 </para>
952 </sect2>
953 </sect1>
955 <sect1 id="linking">
956 <title id="linking.title">Linking it all together</title>
957 <note><para>
958 FIXME:The following is not up-to-date.
959 </para></note>
960 <para>
961 To link an executable you need to link together: your object files,
962 the spec file, any Windows libraries that your application depends
963 on, gdi32 for instance, and any additional library that you use. All
964 the libraries you link with should be available as '.so' libraries.
965 If one of them is available only in '.dll' form then consult
966 <xref linkend="bindlls" endterm="bindlls.title">.
967 </para>
968 <para>
969 It is also when attempting to link your executable that you will
970 discover whether you have missing symbols or not in your custom
971 libraries. On Windows when you build a library, the linker will
972 immediately tell you if a symbol it is supposed to export is
973 undefined. In Unix, and in Winelib, this is not the case. The symbol
974 will silently be marked as undefined and it is only when you try to
975 produce an executable that the linker will verify all the symbols are
976 accounted for.
977 </para>
978 <para>
979 So before declaring victory when first converting a library to
980 Winelib, you should first try to link it to an executable (but you
981 would have done that to test it anyway, right?). At this point you
982 may discover some undefined symbols that you thought were implemented
983 by the library. Then, you to the library sources and fix it. But you
984 may also discover that the missing symbols are defined in, say,
985 gdi32. This is because you did not link the said library with gdi32.
986 One way to fix it is to link this executable, and any other that also
987 uses your library, with gdi32. But it is better to go back to your
988 library's makefile and explicitly link it with gdi32.
989 </para>
990 <para>
991 As you will quickly notice, this has unfortunately not been
992 (completely) done for Winelib's own libraries. So if an application
993 must link with ole32, you will also need to link with advapi32,
994 rpcrt4 and others even if you don't use them directly. This can be
995 annoying and hopefully will be fixed soon (feel free to submit a
996 patch).
997 </para>
998 <!-- FIXME: try to give some sort of concrete example -->
999 </sect1>
1000 </chapter>
1002 <!-- Keep this comment at the end of the file
1003 Local variables:
1004 mode: sgml
1005 sgml-parent-document:("winelib-user.sgml" "book" "chapter" "")
1006 End: