Sweden-Number/tools/wrc
Gerald Pfeifer ce597b48c9 Don't include alloca.h. 1999-04-26 14:57:54 +00:00
..
.cvsignore Initial revision 1998-10-04 18:02:24 +00:00
CHANGES - Fixed a counting bug in the win32 count and sort routine. 1999-04-25 11:06:12 +00:00
Makefile.in Release 980601 1998-06-01 10:44:35 +00:00
README.wrc Release 980628 1998-06-28 18:40:26 +00:00
dumpres.c Recovery of release 990110 after disk crash. 1999-01-17 16:32:32 +00:00
dumpres.h Release 980601 1998-06-01 10:44:35 +00:00
genres.c Fix a couple of 64bit platform problems and speed up compilation. See 1999-02-20 16:09:24 +00:00
genres.h Release 980601 1998-06-01 10:44:35 +00:00
newstruc.c Fix a couple of 64bit platform problems and speed up compilation. See 1999-02-20 16:09:24 +00:00
newstruc.h Recovery of release 990110 after disk crash. 1999-01-17 16:32:32 +00:00
parser.h Release 980628 1998-06-28 18:40:26 +00:00
parser.l Recovery of release 990110 after disk crash. 1999-01-17 16:32:32 +00:00
parser.y Don't include alloca.h. 1999-04-26 14:57:54 +00:00
preproc.c Release 980601 1998-06-01 10:44:35 +00:00
preproc.h Release 980601 1998-06-01 10:44:35 +00:00
readres.c Recovery of release 990110 after disk crash. 1999-01-17 16:32:32 +00:00
readres.h Release 980601 1998-06-01 10:44:35 +00:00
utils.c Recovery of release 990110 after disk crash. 1999-01-17 16:32:32 +00:00
utils.h Recovery of release 990110 after disk crash. 1999-01-17 16:32:32 +00:00
wrc.c Release 980628 1998-06-28 18:40:26 +00:00
wrc.doc Release 980601 1998-06-01 10:44:35 +00:00
wrc.h - Fixed a counting bug in the win32 count and sort routine. 1999-04-25 11:06:12 +00:00
wrctypes.h Renamed wintypes.h to windef.h. 1999-03-14 16:35:05 +00:00
writeres.c - Fixed a counting bug in the win32 count and sort routine. 1999-04-25 11:06:12 +00:00
writeres.h Release 980601 1998-06-01 10:44:35 +00:00

README.wrc

Release 1.0.2 of wrc (20-Jun-1998), the wine resource compiler.

See the file CHANGES for differences between the version and what has been
corrected in the current version.

Wrc features:

- source preprocessing
- 16 and 32 bit support
- LANGUAGE support (32 bit only)
- almost all resource types are supported
- enhanced expression capabilities and resource naming
- indirect loadable resources
- NE/PE resource directory generation
- binary .res file generation/reading

Wrc generates an assembly file that can be assembled with GNU's gas, or
passed to gcc. The assembly became necessary for two reasons. First, C does
not ensure relative position of declared data. Secondly, C complaints about
complex initialization schemes that became necessary with the NE/PE
directory generation.


Wrc command-line
----------------
You can get this message by typing 'wrc -?':

Usage: wrc [options...] [infile[.rc|.res]]
   -a n        Alignment of resource (win16 only, default is 4)
   -A          Auto register resources (only with gcc 2.7 and better)
   -b          Create a C array from a binary .res file
   -c          Add 'const' prefix to C constants
   -C cp       Set the resource's codepage to cp (default is 0)
   -d n        Set debug level to 'n'
   -D id[=val] Define preprocessor identifier id=val
   -e          Disable recognition of win32 keywords in 16bit compile
   -g          Add symbols to the global c namespace
   -h          Also generate a .h file
   -H file     Same as -h but written to file
   -I path     Set include search dir to path (multiple -I allowed)
   -l lan      Set default language to lan (default is neutral {0})
   -L          Leave case of embedded filenames as is
   -n          Do not generate .s file
   -o file     Output to file (default is infile.[res|s|h]
   -p prefix   Give a prefix for the generated names
   -r          Create binary .res file (compile only)
   -s          Add structure with win32/16 (PE/NE) resource directory
   -t          Generate indirect loadable resource tables
   -T          Generate only indirect loadable resources tables
   -V          Print version end exit
   -w 16|32    Select win16 or win32 output (default is win32)
   -W          Enable pedantic warnings

Input is taken from stdin if no sourcefile specified.

Debug level 'n' is a bitmask with following meaning:
    * 0x01 Tell which resource is parsed (verbose mode)
    * 0x02 Dump internal structures
    * 0x04 Create a parser trace (yydebug=1)

The -o option only applies to the final destination file, which is
in case of normal compile a .s file. You must use the '-H header.h'
option to override the header-filename.
If no input filename is given and the output name is not overridden
with -o and/or -H, then the output is written to "wrc.tab.[sh]"


Preprocessing
-------------
The build-in preprocessor is not a full implementation of the C counterpart.
Wrc does not understand function-type macros. These are discarded as they
are scanned. This will be a future project. Wrc does understand these:
#define
#if
#ifdef
#ifndef
#elif
#else
#endif
#error

Also 'defined' is supported as operator (both with and without parenthesis).
'#if' expressions can be anything valid that evaluates to an integer
expression (where 0 is false and anything else is true). Others (#pragma,
#line) are ignored. A special case '#' generates an error. This is due to
the implementation to enable generation of errors on preprocessing and will
be improved in the future.


16 and 32 bit support
---------------------
All of wrc is layed out in such a way that it enables compilation of both 16
and 32 bit resources. They mainly differ in code-generation and extra
keywords. Win32 keywords are recognized by default in 16 bit compile. You
can disable recognition of win32 reserved keywords by using the '-e' option,
if you encounter .rc-files that use win32 reserved keywords (I strongly
recommend that you just rename things in the source).


Language support
----------------
Wrc also understands the LANGUAGE keyword (win32 only) for both global and
local definitions of language. There are differences with respect to MS' and
Borland's implementation. Wrc uses 0,0 as the default language if non is
specified. Both MS and Borland use the language of the system that the
compiler runs on.

Not all resource-types can have local language keywords attached yet
(notably: BITMAP, CURSOR, ICON and usertype). This is due to implementation
of filename-scanning and the complexity that it poses. This will be changed
in the next release. You can work arround this problem by putting a LANGUAGE
statement before (and evt. after) the code in the resource file.


Resource types supported
------------------------
All types are supported except for:
- FONT
- MESSAGETABLE
- extensions like TOOLBAR and the like (is this a user-type?)

These types will be implemented as soon as I get a proper specification of
the layout.

Note: Usertype resources with character strings as types have a different
layout and do not accept expressions when a numerical type is specified. The
must be enclosed in double quotes. These are examples of valid usertype
resources:

MyName "MyType"	mydata.bin
MyName 12345	mydata.bin
MyName "MyType"	"mydata.bin"
MyName 12345	"mydata.bin"

MyName "MyType"
{
  ..., data, ...
}

or

MyName 12345
{
 ..., data, ...
}


Expression capabilities and resource names
------------------------------------------
You can use an expression in most places where the resource definition
expects a number (except usertype type). Operators supported: 
()	parenthesis
*	multiply
/	divide
+	add
-	minus/substract
|	binary or
&	binary and
~	binary not (unary operator though)
NOT	... (sigh)

Minus (-) can both be unary and binary. The NOT operator is (primarily)
used to disable window styles but I strongly suggest to refrain from using
this operator.
There is a shift/reduce conflict on the unary minus, but this is not
problematic. I was too lazy to make a new expression parser (next version or
so). Unary plus (+) would cause another confilct, so I let it out for now.

Resource names can be both numerical (expressions) and character typed. Wrc
does supports this insane (deep sigh) construct:

MENU MENU
{
 ...
}

It is _ONLY_ supported for backwards compatibility so that old sources can
be compiled with winelib. DO NOT USE IT IN NEW RESOURCES, PLEASE!


Indirect loadable resources
---------------------------

Wrc can generate tables for indirect resource loading like winerc did. There
are two new structures defined in 'wine-base-dir/include/wrc_rsc.h':

typedef struct wrc_resource16
{
        INT32   resid;          /* The resource id if resname == NULL */
        LPSTR   resname;
        INT32   restype;        /* The resource type-id if typename == NULL */
        LPSTR   typename;
        LPBYTE  data;           /* Actual resource data */
        UINT32  datasize;       /* The size of the resource */
} wrc_resource16_t;

typedef struct wrc_resource32
{
        INT32   resid;          /* The resource id if resname == NULL */
        LPWSTR  resname;
        INT32   restype;        /* The resource type-id if typename == NULL */
        LPWSTR  typename;
        LPBYTE  data;           /* Actual resource data */
        UINT32  datasize;       /* The size of the resource */
} wrc_resource32_t;

The extension to winerc lies in the addition of the 'typename' field to
support usertype resoursec with names for types.

Note that _ALL_ names generated by wrc and to be used in interfacing with
wine are PASCAL-style strings, unlike winerc. The first element contains the
length and the strings are _not_ '\0'-terminated!

You can also generate header files with wrc when specifying the '-h' or
'-H<filename>' option.


NE/PE resource directory generation
-----------------------------------
A windows executable has a table/directory of resources avalable in that
module. Wrc will generate this directory with the '-s' option and place it
in the assembly output (and header-file). This will enable the separation
of different modules (dlls) in wine, which is the next project after wrc.

The layout of the PE directory should be exactly like the executable file.
The NE-directory layout _DIFFERS_ from the real NE-executable in such way
that all offsets to actual resource-data is relative to the NE-directory and
_NOT_ the beginning of the file.


Binary .res file generation/reading
-----------------------------------
Wrc can both generate (32 and 16 bit) and read (32 bit only) .res-files.
These can be used as intermediate files or binary files can be imported from
other sources. The reading of 16 bit .res-files is on the list for the next
release.

You cannot convert 32 bit .res-files into 16 bit output or vice versa. I
might implement 16 bit res into 32 bit output in the future, but I stronly
oppose to the other way arround.


Bugs
----
Inherent to programs you have bugs. These I know are there, plus a few
things that I noted in the above text (more lack of implementation than bug
though):
- No codepage translation
- UNICODE translations are not/not correct implemented
- No documentation ('wrc -?' gives command-line options though)
- grep for FIXME in the source
- Memory options are wrong under some conditions. There seems to be a
  different action for win32 and win16.
- User-type resources have slightly different layout.
- Filename scanning is still hopeless.

Reporting bugs and patches
--------------------------
Send problems to the wine newsgroup or, preferrably,  directly to me at:

bertho@akhphd.au.dk

Please send the problematic rc-source with the bug so I can reproduce it.
Patches should _not_ be send to Alexandre but to me. I will then review the
change and send a full patch to be included into the new wine release (I
prefer 'diff -u' format). You can always upload suggestions to wine
headquarters, but be sure to send me a copy.