Sweden-Number/tools/winemaker

3165 lines
89 KiB
Perl
Executable File

#!/usr/bin/perl -w
# Copyright 2000 Francois Gouget for CodeWeavers
# fgouget@codeweavers.com
#
my $version="0.5.7";
use Cwd;
use File::Basename;
use File::Copy;
#####
#
# Options
#
#####
# The following constants define what we do with the case of filenames
##
# Never rename a file to lowercase
my $OPT_LOWER_NONE=0;
##
# Rename all files to lowercase
my $OPT_LOWER_ALL=1;
##
# Rename only files that are all uppercase to lowercase
my $OPT_LOWER_UPPERCASE=2;
# The following constants define whether to ask questions or not
##
# No (synonym of never)
my $OPT_ASK_NO=0;
##
# Yes (always)
my $OPT_ASK_YES=1;
##
# Skip the questions till the end of this scope
my $OPT_ASK_SKIP=-1;
# General options
##
# This is the directory in which winemaker will operate.
my $opt_work_dir;
##
# Make a backup of the files
my $opt_backup;
##
# Defines which files to rename
my $opt_lower;
##
# If we don't find the file referenced by an include, lower it
my $opt_lower_include;
# Options for the 'Source' method
##
# Specifies that we have only one target so that all sources relate
# to this target. By default this variable is left undefined which
# means winemaker should try to find out by itself what the targets
# are. If not undefined then this contains the name of the default
# target (without the extension).
my $opt_single_target;
##
# If '$opt_single_target' has been specified then this is the type of
# that target. Otherwise it specifies whether the default target type
# is guiexe or cuiexe.
my $opt_target_type;
##
# Contains the default set of flags to be used when creating a new target.
my $opt_flags;
##
# If true then winemaker should ask questions to the user as it goes
# along.
my $opt_is_interactive;
my $opt_ask_project_options;
my $opt_ask_target_options;
##
# If false then winemaker should not generate any file, i.e.
# no makefiles, but also no .spec files, no configure.in, etc.
my $opt_no_generated_files;
##
# Specifies not to print the banner if set.
my $opt_no_banner;
#####
#
# Target modelization
#
#####
# The description of a target is stored in an array. The constants
# below identify what is stored at each index of the array.
##
# This is the name of the target.
my $T_NAME=0;
##
# Defines the type of target we want to build. See the TT_xxx
# constants below
my $T_TYPE=1;
##
# Defines the target's enty point, i.e. the function that is called
# on startup.
my $T_INIT=2;
##
# This is a bitfield containing flags refining the way the target
# should be handled. See the TF_xxx constants below
my $T_FLAGS=3;
##
# This is a reference to an array containing the list of the
# resp. C, C++, RC, other (.h, .hxx, etc.) source files.
my $T_SOURCES_C=4;
my $T_SOURCES_CXX=5;
my $T_SOURCES_RC=6;
my $T_SOURCES_MISC=7;
##
# This is a reference to an array containing the list of macro
# definitions
my $T_DEFINES=8;
##
# This is a reference to an array containing the list of directory
# names that constitute the include path
my $T_INCLUDE_PATH=9;
##
# Same as T_INCLUDE_PATH but for the library search path
my $T_LIBRARY_PATH=10;
##
# The list of Windows libraries to import
my $T_IMPORTS=11;
##
# The list of Unix libraries to link with
my $T_LIBRARIES=12;
##
# The list of dependencies between targets
my $T_DEPENDS=13;
# The following constants define the recognized types of target
##
# This is not a real target. This type of target is used to collect
# the sources that don't seem to belong to any other target. Thus no
# real target is generated for them, we just put the sources of the
# fake target in the global source list.
my $TT_SETTINGS=0;
##
# For executables in the windows subsystem
my $TT_GUIEXE=1;
##
# For executables in the console subsystem
my $TT_CUIEXE=2;
##
# For dynamically linked libraries
my $TT_DLL=3;
# The following constants further refine how the target should be handled
##
# This target needs a wrapper
my $TF_WRAP=1;
##
# This target is a wrapper
my $TF_WRAPPER=2;
##
# This target is an MFC-based target
my $TF_MFC=4;
##
# Initialize a target:
# - set the target type to TT_SETTINGS, i.e. no real target will
# be generated.
sub target_init
{
my $target=$_[0];
@$target[$T_TYPE]=$TT_SETTINGS;
# leaving $T_INIT undefined
@$target[$T_FLAGS]=$opt_flags;
@$target[$T_SOURCES_C]=[];
@$target[$T_SOURCES_CXX]=[];
@$target[$T_SOURCES_RC]=[];
@$target[$T_SOURCES_MISC]=[];
@$target[$T_DEFINES]=[];
@$target[$T_INCLUDE_PATH]=[];
@$target[$T_LIBRARY_PATH]=[];
@$target[$T_IMPORTS]=[];
@$target[$T_LIBRARIES]=[];
@$target[$T_DEPENDS]=[];
}
sub get_default_init
{
my $type=$_[0];
if ($type == $TT_GUIEXE) {
return "WinMain";
} elsif ($type == $TT_CUIEXE) {
return "main";
} elsif ($type == $TT_DLL) {
return "DllMain";
}
}
#####
#
# Project modelization
#
#####
# First we have the notion of project. A project is described by an
# array (since we don't have structs in perl). The constants below
# identify what is stored at each index of the array.
##
# This is the path in which this project is located. In other
# words, this is the path to the Makefile.
my $P_PATH=0;
##
# This index contains a reference to an array containing the project-wide
# settings. The structure of that arrray is actually identical to that of
# a regular target since it can also contain extra sources.
my $P_SETTINGS=1;
##
# This index contains a reference to an array of targets for this
# project. Each target describes how an executable or library is to
# be built. For each target this description takes the same form as
# that of the project: an array. So this entry is an array of arrays.
my $P_TARGETS=2;
##
# Initialize a project:
# - set the project's path
# - initialize the target list
# - create a default target (will be removed later if unnecessary)
sub project_init
{
my $project=$_[0];
my $path=$_[1];
my $project_settings=[];
target_init($project_settings);
@$project[$P_PATH]=$path;
@$project[$P_SETTINGS]=$project_settings;
@$project[$P_TARGETS]=[];
}
#####
#
# Global variables
#
#####
my %warnings;
my %templates;
##
# Contains the list of all projects. This list tells us what are
# the subprojects of the main Makefile and where we have to generate
# Makefiles.
my @projects=();
##
# This is the main project, i.e. the one in the "." directory.
# It may well be empty in which case the main Makefile will only
# call out subprojects.
my @main_project;
##
# Contains the defaults for the include path, etc.
# We store the defaults as if this were a target except that we only
# exploit the defines, include path, library path, library list and misc
# sources fields.
my @global_settings;
##
# If one of the projects requires the MFc then we set this global variable
# to true so that configure asks the user to provide a path tothe MFC
my $needs_mfc=0;
#####
#
# Utility functions
#
#####
##
# Cleans up a name to make it an acceptable Makefile
# variable name.
sub canonize
{
my $name=$_[0];
$name =~ tr/a-zA-Z0-9_/_/c;
return $name;
}
##
# Returns true is the specified pathname is absolute.
# Note: pathnames that start with a variable '$' or
# '~' are considered absolute.
sub is_absolute
{
my $path=$_[0];
return ($path =~ /^[\/~\$]/);
}
##
# Performs a binary search looking for the specified item
sub bsearch
{
my $array=$_[0];
my $item=$_[1];
my $last=@{$array}-1;
my $first=0;
while ($first<=$last) {
my $index=int(($first+$last)/2);
my $cmp=@$array[$index] cmp $item;
if ($cmp<0) {
$first=$index+1;
} elsif ($cmp>0) {
$last=$index-1;
} else {
return $index;
}
}
}
#####
#
# 'Source'-based Project analysis
#
#####
##
# Allows the user to specify makefile and target specific options
# - target: the structure in which to store the results
# - options: the string containing the options
sub source_set_options
{
my $target=$_[0];
my $options=$_[1];
#FIXME: we must deal with escaping of stuff and all
foreach $option (split / /,$options) {
if (@$target[$T_TYPE] == $TT_SETTINGS and $option =~ /^-D/) {
push @{@$target[$T_DEFINES]},$option;
} elsif (@$target[$T_TYPE] == $TT_SETTINGS and $option =~ /^-I/) {
push @{@$target[$T_INCLUDE_PATH]},$option;
} elsif ($option =~ /^-L/) {
push @{@$target[$T_LIBRARY_PATH]},$option;
} elsif ($option =~ /^-i/) {
push @{@$target[$T_IMPORTS]},$';
} elsif ($option =~ /^-l/) {
push @{@$target[$T_LIBRARIES]},$';
} elsif (@$target[$T_TYPE] != $TT_DLL and
$option =~ /^--wrap/) {
@$target[$T_FLAGS]|=$TF_WRAP;
} elsif (@$target[$T_TYPE] != $TT_DLL and
$option =~ /^--nowrap/) {
@$target[$T_FLAGS]&=~$TF_WRAP;
} elsif ($option =~ /^--mfc/) {
@$target[$T_FLAGS]|=$TF_MFC;
if (@$target[$T_TYPE] != $TT_DLL) {
@$target[$T_FLAGS]|=$TF_WRAP;
}
} elsif ($option =~ /^--nomfc/) {
@$target[$T_FLAGS]&=~$TF_MFC;
@$target[$T_FLAGS]&=~($TF_MFC|$TF_WRAP);
} else {
print STDERR "error: unknown option \"$option\"\n";
return 0;
}
}
return 1;
}
##
# Scans the specified directory to:
# - see if we should create a Makefile in this directory. We normally do
# so if we find a project file and sources
# - get a list of targets for this directory
# - get the list of source files
sub source_scan_directory
{
# a reference to the parent's project
my $parent_project=$_[0];
# the full relative path to the current directory, including a
# trailing '/', or an empty string if this is the top level directory
my $path=$_[1];
# the name of this directory, including a trailing '/', or an empty
# string if this is the top level directory
my $dirname=$_[2];
# if set then no targets will be looked for and the sources will all
# end up in the parent_project's 'misc' bucket
my $no_target=$_[3];
# reference to the project for this directory. May not be used
my $project;
# list of targets found in the 'current' directory
my %targets;
# list of sources found in the current directory
my @sources_c=();
my @sources_cxx=();
my @sources_rc=();
my @sources_misc=();
# true if this directory contains a Windows project
my $has_win_project=0;
# If we don't find any executable/library then we might make up targets
# from the list of .dsp/.mak files we find since they usually have the
# same name as their target.
my @dsp_files=();
my @mak_files=();
if (defined $opt_single_target or $dirname eq "") {
# Either there is a single target and thus a single project,
# or we are in the top level directory for which a project
# already exists
$project=$parent_project;
} else {
$project=[];
project_init($project,$path);
}
my $project_settings=@$project[$P_SETTINGS];
# First find out what this directory contains:
# collect all sources, targets and subdirectories
my $directory=get_directory_contents($path);
foreach $dentry (@$directory) {
if ($dentry =~ /^\./) {
next;
}
my $fullentry="$path$dentry";
if (-d "$fullentry") {
if ($dentry =~ /^(Release|Debug)/i) {
# These directories are often used to store the object files and the
# resulting executable/library. They should not contain anything else.
my @candidates=grep /\.(exe|dll)$/i, @{get_directory_contents("$fullentry")};
foreach $candidate (@candidates) {
if ($candidate =~ s/\.exe$//i) {
$targets{$candidate}=1;
} elsif ($candidate =~ s/^(.*)\.dll$/lib$1.so/i) {
$targets{$candidate}=1;
}
}
} elsif ($dentry =~ /^include/i) {
# This directory must contain headers we're going to need
push @{@$project_settings[$T_INCLUDE_PATH]},"-I$dentry";
source_scan_directory($project,"$fullentry/","$dentry/",1);
} else {
# Recursively scan this directory. Any source file that cannot be
# attributed to a project in one of the subdirectories will be
# attributed to this project.
source_scan_directory($project,"$fullentry/","$dentry/",$no_target);
}
} elsif (-f "$fullentry") {
if ($dentry =~ s/\.exe$//i) {
$targets{$dentry}=1;
} elsif ($dentry =~ s/^(.*)\.dll$/lib$1.so/i) {
$targets{$dentry}=1;
} elsif ($dentry =~ /\.c$/i and $dentry !~ /\.spec\.c$/) {
push @sources_c,"$dentry";
} elsif ($dentry =~ /\.(cpp|cxx)$/i) {
if ($dentry =~ /^stdafx.cpp$/i) {
push @sources_misc,"$dentry";
@$project_settings[$T_FLAGS]|=$TF_MFC;
} else {
push @sources_cxx,"$dentry";
}
} elsif ($dentry =~ /\.rc$/i) {
push @sources_rc,"$dentry";
} elsif ($dentry =~ /\.(h|hxx|hpp|inl|rc2|dlg)$/i) {
push @sources_misc,"$dentry";
if ($dentry =~ /^stdafx.h$/i) {
@$project_settings[$T_FLAGS]|=$TF_MFC;
}
} elsif ($dentry =~ /\.dsp$/i) {
push @dsp_files,"$dentry";
$has_win_project=1;
} elsif ($dentry =~ /\.mak$/i) {
push @mak_files,"$dentry";
$has_win_project=1;
} elsif ($dentry =~ /^makefile/i) {
$has_win_project=1;
}
}
}
closedir(DIRECTORY);
# If we have a single target then all we have to do is assign
# all the sources to it and we're done
# FIXME: does this play well with the --interactive mode?
if ($opt_single_target) {
my $target=@{@$project[$P_TARGETS]}[0];
push @{@$target[$T_SOURCES_C]},map "$path$_",@sources_c;
push @{@$target[$T_SOURCES_CXX]},map "$path$_",@sources_cxx;
push @{@$target[$T_SOURCES_RC]},map "$path$_",@sources_rc;
push @{@$target[$T_SOURCES_MISC]},map "$path$_",@sources_misc;
return;
}
if ($no_target) {
my $parent_settings=@$parent_project[$P_SETTINGS];
push @{@$parent_settings[$T_SOURCES_MISC]},map "$dirname$_",@sources_c;
push @{@$parent_settings[$T_SOURCES_MISC]},map "$dirname$_",@sources_cxx;
push @{@$parent_settings[$T_SOURCES_MISC]},map "$dirname$_",@sources_rc;
push @{@$parent_settings[$T_SOURCES_MISC]},map "$dirname$_",@sources_misc;
push @{@$parent_settings[$T_SOURCES_MISC]},map "$dirname$_",@{@$project_settings[$T_SOURCES_MISC]};
return;
}
my $source_count=@sources_c+@sources_cxx+@sources_rc+
@{@$project_settings[$T_SOURCES_C]}+
@{@$project_settings[$T_SOURCES_CXX]}+
@{@$project_settings[$T_SOURCES_RC]};
if ($source_count == 0) {
# A project without real sources is not a project, get out!
if ($project!=$parent_project) {
my $parent_settings=@$parent_project[$P_SETTINGS];
push @{@$parent_settings[$T_SOURCES_MISC]},map "$dirname$_",@sources_misc;
push @{@$parent_settings[$T_SOURCES_MISC]},map "$dirname$_",@{@$project_settings[$T_SOURCES_MISC]};
}
return;
}
#print "targets=",%targets,"\n";
#print "target_count=$target_count\n";
#print "has_win_project=$has_win_project\n";
#print "dirname=$dirname\n";
my $target_count;
if (($has_win_project != 0) or ($dirname eq "")) {
# Deal with cases where we could not find any executable/library, and
# thus have no target, although we did find some sort of windows project.
$target_count=keys %targets;
if ($target_count == 0) {
# Try to come up with a target list based on .dsp/.mak files
my $prj_list;
if (@dsp_files > 0) {
$prj_list=\@dsp_files;
} else {
$prj_list=\@mak_files;
}
foreach $filename (@$prj_list) {
$filename =~ s/\.(dsp|mak)$//i;
if ($opt_target_type == $TT_DLL) {
$filename = "lib$filename.so";
}
$targets{$filename}=1;
}
$target_count=keys %targets;
if ($target_count == 0) {
# Still nothing, try the name of the directory
my $name;
if ($dirname eq "") {
# Bad luck, this is the top level directory!
$name=(split /\//, cwd)[-1];
} else {
$name=$dirname;
# Remove the trailing '/'. Also eliminate whatever is after the last
# '.' as it is likely to be meaningless (.orig, .new, ...)
$name =~ s+(/|\.[^.]*)$++;
if ($name eq "src") {
# 'src' is probably a subdirectory of the real project directory.
# Try again with the parent (if any).
my $parent=$path;
if ($parent =~ s+([^/]*)/[^/]*/$+$1+) {
$name=$parent;
} else {
$name=(split /\//, cwd)[-1];
}
}
}
$name =~ s+(/|\.[^.]*)$++;
if ($opt_target_type == $TT_DLL) {
$name = "lib$name.so";
}
$targets{$name}=1;
}
}
# Ask confirmation to the user if he wishes so
if ($opt_is_interactive == $OPT_ASK_YES) {
my $target_list=join " ",keys %targets;
print "\n*** In ",($path?$path:"./"),"\n";
print "* winemaker found the following list of (potential) targets\n";
print "* $target_list\n";
print "* Type enter to use it as is, your own comma-separated list of\n";
print "* targets, 'none' to assign the source files to a parent directory,\n";
print "* or 'ignore' to ignore everything in this directory tree.\n";
print "* Target list:\n";
$target_list=<STDIN>;
chomp $target_list;
if ($target_list eq "") {
# Keep the target list as is, i.e. do nothing
} elsif ($target_list eq "none") {
# Empty the target list
undef %targets;
} elsif ($target_list eq "ignore") {
# Ignore this subtree altogether
return;
} else {
undef %targets;
foreach $target (split /,/,$target_list) {
$target =~ s+^\s*++;
$target =~ s+\s*$++;
# Also accept .exe and .dll as a courtesy
$target =~ s+(.*)\.dll$+lib$1.so+;
$target =~ s+\.exe$++;
$targets{$target}=1;
}
}
}
}
# If we have no project at this level, then transfer all
# the sources to the parent project
$target_count=keys %targets;
if ($target_count == 0) {
if ($project!=$parent_project) {
my $parent_settings=@$parent_project[$P_SETTINGS];
push @{@$parent_settings[$T_SOURCES_C]},map "$dirname$_",@sources_c;
push @{@$parent_settings[$T_SOURCES_CXX]},map "$dirname$_",@sources_cxx;
push @{@$parent_settings[$T_SOURCES_RC]},map "$dirname$_",@sources_rc;
push @{@$parent_settings[$T_SOURCES_MISC]},map "$dirname$_",@sources_misc;
push @{@$parent_settings[$T_SOURCES_MISC]},map "$dirname$_",@{@$project_settings[$T_SOURCES_MISC]};
}
return;
}
# Otherwise add this project to the project list, except for
# the main project which is already in the list.
if ($dirname ne "") {
push @projects,$project;
}
# Ask for project-wide options
if ($opt_ask_project_options == $OPT_ASK_YES) {
my $flag_desc="";
if ((@$project_settings[$T_FLAGS] & $TF_MFC)!=0) {
$flag_desc="mfc";
}
if ((@$project_settings[$T_FLAGS] & $TF_WRAP)!=0) {
if ($flag_desc ne "") {
$flag_desc.=", ";
}
$flag_desc.="wrapped";
}
print "* Type any project-wide options (-D/-I/-L/-i/-l/--mfc/--wrap),\n";
if (defined $flag_desc) {
print "* (currently $flag_desc)\n";
}
print "* or 'skip' to skip the target specific options,\n";
print "* or 'never' to not be asked this question again:\n";
while (1) {
my $options=<STDIN>;
chomp $options;
if ($options eq "skip") {
$opt_ask_target_options=$OPT_ASK_SKIP;
last;
} elsif ($options eq "never") {
$opt_ask_project_options=$OPT_ASK_NO;
last;
} elsif (source_set_options($project_settings,$options)) {
last;
}
print "Please re-enter the options:\n";
}
}
# - Create the targets
# - Check if we have both libraries and programs
# - Match each target with source files (sort in reverse
# alphabetical order to get the longest matches first)
my @local_imports=();
my @local_depends=();
my @exe_list=();
foreach $target_name (sort { $b cmp $a } keys %targets) {
# Create the target...
my $basename;
my $target=[];
target_init($target);
@$target[$T_NAME]=$target_name;
@$target[$T_FLAGS]|=@$project_settings[$T_FLAGS];
if ($target_name =~ /^lib(.*)\.so$/) {
@$target[$T_TYPE]=$TT_DLL;
@$target[$T_INIT]=get_default_init($TT_DLL);
@$target[$T_FLAGS]&=~$TF_WRAP;
$basename=$1;
push @local_depends,$target_name;
push @local_imports,$basename;
} else {
@$target[$T_TYPE]=$opt_target_type;
@$target[$T_INIT]=get_default_init($opt_target_type);
$basename=$target_name;
push @exe_list,$target;
}
# This is the default link list of Visual Studio, except odbccp32
# which we don't have in Wine. Also I add ntdll which seems
# necessary for Winelib.
my @std_imports=qw(advapi32.dll comdlg32.dll gdi32.dll kernel32.dll ntdll.dll odbc32.dll ole32.dll oleaut32.dll shell32.dll user32.dll winspool.drv);
@$target[$T_IMPORTS]=\@std_imports;
push @{@$project[$P_TARGETS]},$target;
# Ask for target-specific options
if ($opt_ask_target_options == $OPT_ASK_YES) {
my $flag_desc="";
if ((@$target[$T_FLAGS] & $TF_MFC)!=0) {
$flag_desc=" (mfc";
}
if ((@$target[$T_FLAGS] & $TF_WRAP)!=0) {
if ($flag_desc ne "") {
$flag_desc.=", ";
} else {
$flag_desc=" (";
}
$flag_desc.="wrapped";
}
if ($flag_desc ne "") {
$flag_desc.=")";
}
print "* Specify any link option (-L/-i/-l/--mfc/--wrap) specific to the target\n";
print "* \"$target_name\"$flag_desc or 'never' to not be asked this question again:\n";
while (1) {
my $options=<STDIN>;
chomp $options;
if ($options eq "never") {
$opt_ask_target_options=$OPT_ASK_NO;
last;
} elsif (source_set_options($target,$options)) {
last;
}
print "Please re-enter the options:\n";
}
}
if (@$target[$T_FLAGS] & $TF_MFC) {
@$project_settings[$T_FLAGS]|=$TF_MFC;
push @{@$target[$T_LIBRARY_PATH]},"\$(MFC_LIBRARY_PATH)";
push @{@$target[$T_IMPORTS]},"mfc.dll";
# FIXME: Link with the MFC in the Unix sense, until we
# start exporting the functions properly.
push @{@$target[$T_LIBRARIES]},"mfc";
}
# Match sources...
if ($target_count == 1) {
push @{@$target[$T_SOURCES_C]},@{@$project_settings[$T_SOURCES_C]},@sources_c;
@$project_settings[$T_SOURCES_C]=[];
@sources_c=();
push @{@$target[$T_SOURCES_CXX]},@{@$project_settings[$T_SOURCES_CXX]},@sources_cxx;
@$project_settings[$T_SOURCES_CXX]=[];
@sources_cxx=();
push @{@$target[$T_SOURCES_RC]},@{@$project_settings[$T_SOURCES_RC]},@sources_rc;
@$project_settings[$T_SOURCES_RC]=[];
@sources_rc=();
push @{@$target[$T_SOURCES_MISC]},@{@$project_settings[$T_SOURCES_MISC]},@sources_misc;
# No need for sorting these sources
@$project_settings[$T_SOURCES_MISC]=[];
@sources_misc=();
} else {
foreach $source (@sources_c) {
if ($source =~ /^$basename/i) {
push @{@$target[$T_SOURCES_C]},$source;
$source="";
}
}
foreach $source (@sources_cxx) {
if ($source =~ /^$basename/i) {
push @{@$target[$T_SOURCES_CXX]},$source;
$source="";
}
}
foreach $source (@sources_rc) {
if ($source =~ /^$basename/i) {
push @{@$target[$T_SOURCES_RC]},$source;
$source="";
}
}
foreach $source (@sources_misc) {
if ($source =~ /^$basename/i) {
push @{@$target[$T_SOURCES_MISC]},$source;
$source="";
}
}
}
@$target[$T_SOURCES_C]=[sort @{@$target[$T_SOURCES_C]}];
@$target[$T_SOURCES_CXX]=[sort @{@$target[$T_SOURCES_CXX]}];
@$target[$T_SOURCES_RC]=[sort @{@$target[$T_SOURCES_RC]}];
@$target[$T_SOURCES_MISC]=[sort @{@$target[$T_SOURCES_MISC]}];
}
if ($opt_ask_target_options == $OPT_ASK_SKIP) {
$opt_ask_target_options=$OPT_ASK_YES;
}
if (@$project_settings[$T_FLAGS] & $TF_MFC) {
push @{@$project_settings[$T_INCLUDE_PATH]},"\$(MFC_INCLUDE_PATH)";
}
# The sources that did not match, if any, go to the extra
# source list of the project settings
foreach $source (@sources_c) {
if ($source ne "") {
push @{@$project_settings[$T_SOURCES_C]},$source;
}
}
@$project_settings[$T_SOURCES_C]=[sort @{@$project_settings[$T_SOURCES_C]}];
foreach $source (@sources_cxx) {
if ($source ne "") {
push @{@$project_settings[$T_SOURCES_CXX]},$source;
}
}
@$project_settings[$T_SOURCES_CXX]=[sort @{@$project_settings[$T_SOURCES_CXX]}];
foreach $source (@sources_rc) {
if ($source ne "") {
push @{@$project_settings[$T_SOURCES_RC]},$source;
}
}
@$project_settings[$T_SOURCES_RC]=[sort @{@$project_settings[$T_SOURCES_RC]}];
foreach $source (@sources_misc) {
if ($source ne "") {
push @{@$project_settings[$T_SOURCES_MISC]},$source;
}
}
@$project_settings[$T_SOURCES_MISC]=[sort @{@$project_settings[$T_SOURCES_MISC]}];
# Finally if we are building both libraries and programs in
# this directory, then the programs should be linked with all
# the libraries
if (@local_imports > 0 and @exe_list > 0) {
foreach $target (@exe_list) {
push @{@$target[$T_LIBRARY_PATH]},"-L.";
push @{@$target[$T_IMPORTS]},map { "$_.dll" } @local_imports;
# Also link in the Unix sense since none of the functions
# will be exported.
push @{@$target[$T_LIBRARIES]},@local_imports;
push @{@$target[$T_DEPENDS]},@local_depends;
}
}
}
##
# Scan the source directories in search of things to build
sub source_scan
{
# If there's a single target then this is going to be the default target
if (defined $opt_single_target) {
# Create the main target
my $main_target=[];
target_init($main_target);
if ($opt_target_type == $TT_DLL) {
@$main_target[$T_NAME]="lib$opt_single_target.so";
} else {
@$main_target[$T_NAME]="$opt_single_target";
}
@$main_target[$T_TYPE]=$opt_target_type;
# Add it to the list
push @{$main_project[$P_TARGETS]},$main_target;
}
# The main directory is always going to be there
push @projects,\@main_project;
# Now scan the directory tree looking for source files and, maybe, targets
print "Scanning the source directories...\n";
source_scan_directory(\@main_project,"","",0);
@projects=sort { @$a[$P_PATH] cmp @$b[$P_PATH] } @projects;
}
#####
#
# 'vc.dsp'-based Project analysis
#
#####
#sub analyze_vc_dsp
#{
#
#}
#####
#
# Creating the wrapper targets
#
#####
sub postprocess_targets
{
foreach $project (@projects) {
foreach $target (@{@$project[$P_TARGETS]}) {
if ((@$target[$T_FLAGS] & $TF_WRAP) != 0) {
my $wrapper=[];
target_init($wrapper);
@$wrapper[$T_NAME]=@$target[$T_NAME];
@$wrapper[$T_TYPE]=@$target[$T_TYPE];
@$wrapper[$T_INIT]=get_default_init(@$target[$T_TYPE]);
@$wrapper[$T_FLAGS]=$TF_WRAPPER | (@$target[$T_FLAGS] & $TF_MFC);
@$wrapper[$T_IMPORTS]=[ "kernel32.dll", "ntdll.dll", "user32.dll" ];
push @{@$wrapper[$T_SOURCES_C]},"@$wrapper[$T_NAME]_wrapper.c";
my $index=bsearch(@$target[$T_SOURCES_C],"@$wrapper[$T_NAME]_wrapper.c");
if (defined $index) {
splice(@{@$target[$T_SOURCES_C]},$index,1);
}
@$target[$T_NAME]="lib@$target[$T_NAME].so";
@$target[$T_TYPE]=$TT_DLL;
push @{@$project[$P_TARGETS]},$wrapper;
}
if ((@$target[$T_FLAGS] & $TF_MFC) != 0) {
@{@$project[$P_SETTINGS]}[$T_FLAGS]|=$TF_MFC;
$needs_mfc=1;
}
}
}
}
#####
#
# Source search
#
#####
##
# Performs a directory traversal and renames the files so that:
# - they have the case desired by the user
# - their extension is of the appropriate case
# - they don't contain annoying characters like ' ', '$', '#', ...
sub fix_file_and_directory_names
{
my $dirname=$_[0];
if (opendir(DIRECTORY, "$dirname")) {
foreach $dentry (readdir DIRECTORY) {
if ($dentry =~ /^\./ or $dentry eq "CVS") {
next;
}
# Set $warn to 1 if the user should be warned of the renaming
my $warn=0;
# autoconf and make don't support these characters well
my $new_name=$dentry;
$new_name =~ s/[ \$]/_/g;
# Only all lowercase extensions are supported (because of the
# transformations ':.c=.o') .
if (-f "$dirname/$new_name") {
if ($new_name =~ /\.C$/) {
$new_name =~ s/\.C$/.c/;
}
if ($new_name =~ /\.cpp$/i) {
$new_name =~ s/\.cpp$/.cpp/i;
}
if ($new_name =~ s/\.cxx$/.cpp/i) {
$warn=1;
}
if ($new_name =~ /\.rc$/i) {
$new_name =~ s/\.rc$/.rc/i;
}
# And this last one is to avoid confusion then running make
if ($new_name =~ s/^makefile$/makefile.win/) {
$warn=1;
}
}
# Adjust the case to the user's preferences
if (($opt_lower == $OPT_LOWER_ALL and $dentry =~ /[A-Z]/) or
($opt_lower == $OPT_LOWER_UPPERCASE and $dentry !~ /[a-z]/)
) {
$new_name=lc $new_name;
}
# And finally, perform the renaming
if ($new_name ne $dentry) {
if ($warn) {
print STDERR "warning: in \"$dirname\", renaming \"$dentry\" to \"$new_name\"\n";
}
if (!rename("$dirname/$dentry","$dirname/$new_name")) {
print STDERR "error: in \"$dirname\", unable to rename \"$dentry\" to \"$new_name\"\n";
print STDERR " $!\n";
$new_name=$dentry;
}
}
if (-d "$dirname/$new_name") {
fix_file_and_directory_names("$dirname/$new_name");
}
}
closedir(DIRECTORY);
}
}
#####
#
# Source fixup
#
#####
##
# This maps a directory name to a reference to an array listing
# its contents (files and directories)
my %directories;
##
# Retrieves the contents of the specified directory.
# We either get it from the directories hashtable which acts as a
# cache, or use opendir, readdir, closedir and store the result
# in the hashtable.
sub get_directory_contents
{
my $dirname=$_[0];
my $directory;
#print "getting the contents of $dirname\n";
# check for a cached version
$dirname =~ s+/$++;
if ($dirname eq "") {
$dirname=cwd;
}
$directory=$directories{$dirname};
if (defined $directory) {
#print "->@$directory\n";
return $directory;
}
# Read this directory
if (opendir(DIRECTORY, "$dirname")) {
my @files=readdir DIRECTORY;
closedir(DIRECTORY);
$directory=\@files;
} else {
# Return an empty list
#print "error: cannot open $dirname\n";
my @files;
$directory=\@files;
}
#print "->@$directory\n";
$directories{$dirname}=$directory;
return $directory;
}
##
# Try to find a file for the specified filename. The attempt is
# case-insensitive which is why it's not trivial. If a match is
# found then we return the pathname with the correct case.
sub search_from
{
my $dirname=$_[0];
my $path=$_[1];
my $real_path="";
if ($dirname eq "" or $dirname eq ".") {
$dirname=cwd;
} elsif ($dirname =~ m+^[^/]+) {
$dirname=cwd . "/" . $dirname;
}
if ($dirname !~ m+/$+) {
$dirname.="/";
}
foreach $component (@$path) {
#print " looking for $component in \"$dirname\"\n";
if ($component eq ".") {
# Pass it as is
$real_path.="./";
} elsif ($component eq "..") {
# Go up one level
$dirname=dirname($dirname) . "/";
$real_path.="../";
} else {
# The file/directory may have been renamed before. Also try to
# match the renamed file.
my $renamed=$component;
$renamed =~ s/[ \$]/_/g;
if ($renamed eq $component) {
undef $renamed;
}
my $directory=get_directory_contents $dirname;
my $found;
foreach $dentry (@$directory) {
if ($dentry =~ /^$component$/i or
(defined $renamed and $dentry =~ /^$renamed$/i)
) {
$dirname.="$dentry/";
$real_path.="$dentry/";
$found=1;
last;
}
}
if (!defined $found) {
# Give up
#print " could not find $component in $dirname\n";
return;
}
}
}
$real_path=~ s+/$++;
#print " -> found $real_path\n";
return $real_path;
}
##
# Performs a case-insensitive search for the specified file in the
# include path.
# $line is the line number that should be referenced when an error occurs
# $filename is the file we are looking for
# $dirname is the directory of the file containing the '#include' directive
# if '"' was used, it is an empty string otherwise
# $project and $target specify part of the include path
sub get_real_include_name
{
my $line=$_[0];
my $filename=$_[1];
my $dirname=$_[2];
my $project=$_[3];
my $target=$_[4];
if ($filename =~ /^([a-zA-Z]:)?[\/]/ or $filename =~ /^[a-zA-Z]:[\/]?/) {
# This is not a relative path, we cannot make any check
my $warning="path:$filename";
if (!defined $warnings{$warning}) {
$warnings{$warning}="1";
print STDERR "warning: cannot check the case of absolute pathnames:\n";
print STDERR "$line: $filename\n";
}
} else {
# Here's how we proceed:
# - split the filename we look for into its components
# - then for each directory in the include path
# - trace the directory components starting from that directory
# - if we fail to find a match at any point then continue with
# the next directory in the include path
# - otherwise, rejoice, our quest is over.
my @file_components=split /[\/\\]+/, $filename;
#print " Searching for $filename from @$project[$P_PATH]\n";
my $real_filename;
if ($dirname ne "") {
# This is an 'include ""' -> look in dirname first.
#print " in $dirname (include \"\")\n";
$real_filename=search_from($dirname,\@file_components);
if (defined $real_filename) {
return $real_filename;
}
}
my $project_settings=@$project[$P_SETTINGS];
foreach $include (@{@$target[$T_INCLUDE_PATH]}, @{@$project_settings[$T_INCLUDE_PATH]}) {
my $dirname=$include;
$dirname=~ s+^-I++;
if (!is_absolute($dirname)) {
$dirname="@$project[$P_PATH]$dirname";
} else {
$dirname=~ s+^\$\(TOPSRCDIR\)/++;
$dirname=~ s+^\$\(SRCDIR\)/+@$project[$P_PATH]+;
}
#print " in $dirname\n";
$real_filename=search_from("$dirname",\@file_components);
if (defined $real_filename) {
return $real_filename;
}
}
my $dotdotpath=@$project[$P_PATH];
$dotdotpath =~ s/[^\/]+/../g;
foreach $include (@{$global_settings[$T_INCLUDE_PATH]}) {
my $dirname=$include;
$dirname=~ s+^-I++;
$dirname=~ s+^\$\(TOPSRCDIR\)\/++;
$dirname=~ s+^\$\(SRCDIR\)\/+@$project[$P_PATH]+;
#print " in $dirname (global setting)\n";
$real_filename=search_from("$dirname",\@file_components);
if (defined $real_filename) {
return $real_filename;
}
}
}
$filename =~ s+\\\\+/+g; # in include ""
$filename =~ s+\\+/+g; # in include <> !
if ($opt_lower_include) {
return lc "$filename";
}
return $filename;
}
sub print_pack
{
my $indent=$_[0];
my $size=$_[1];
my $trailer=$_[2];
if ($size =~ /^(1|2|4|8)$/) {
print FILEO "$indent#include <pshpack$size.h>$trailer";
} else {
print FILEO "$indent/* winemaker:warning: Unknown size \"$size\". Defaulting to 4 */\n";
print FILEO "$indent#include <pshpack4.h>$trailer";
}
}
##
# 'Parses' a source file and fixes constructs that would not work with
# Winelib. The parsing is rather simple and not all non-portable features
# are corrected. The most important feature that is corrected is the case
# and path separator of '#include' directives. This requires that each
# source file be associated to a project & target so that the proper
# include path is used.
# Also note that the include path is relative to the directory in which the
# compiler is run, i.e. that of the project, not to that of the file.
sub fix_file
{
my $filename=$_[0];
my $project=$_[1];
my $target=$_[2];
$filename="@$project[$P_PATH]$filename";
if (! -e $filename) {
return;
}
my $is_rc=($filename =~ /\.(rc2?|dlg)$/i);
my $dirname=dirname($filename);
my $is_mfc=0;
if (defined $target and (@$target[$T_FLAGS] & $TF_MFC)) {
$is_mfc=1;
}
print " $filename\n";
#FIXME:assuming that because there is a .bak file, this is what we want is
#probably flawed. Or is it???
if (! -e "$filename.bak") {
if (!copy("$filename","$filename.bak")) {
print STDERR "error: unable to make a backup of $filename:\n";
print STDERR " $!\n";
return;
}
}
if (!open(FILEI,"$filename.bak")) {
print STDERR "error: unable to open $filename.bak for reading:\n";
print STDERR " $!\n";
return;
}
if (!open(FILEO,">$filename")) {
print STDERR "error: unable to open $filename for writing:\n";
print STDERR " $!\n";
return;
}
my $line=0;
my $modified=0;
my $rc_block_depth=0;
my $rc_textinclude_state=0;
my @pack_stack;
while (<FILEI>) {
$line++;
s/\r\n$/\n/;
if (!/\n$/) {
# Make sure all files are '\n' terminated
$_ .= "\n";
}
if ($is_rc and !$is_mfc and /^(\s*)(\#\s*include\s*)\"afxres\.h\"/) {
# VC6 automatically includes 'afxres.h', an MFC specific header, in
# the RC files it generates (even in non-MFC projects). So we replace
# it with 'winres.h' its very close standard cousin so that non MFC
# projects can compile in Wine without the MFC sources.
my $warning="mfc:afxres.h";
if (!defined $warnings{$warning}) {
$warnings{$warning}="1";
print STDERR "warning: In non-MFC projects, winemaker replaces the MFC specific header 'afxres.h' with 'winres.h'\n";
print STDERR "warning: the above warning is issued only once\n";
}
print FILEO "$1/* winemaker: $2\"afxres.h\" */\n";
print FILEO "$1/* winemaker:warning: 'afxres.h' is an MFC specific header. Replacing it with 'winres.h' */\n";
print FILEO "$1$2\"winres.h\"$'";
$modified=1;
} elsif (/^(\s*\#\s*include\s*)([\"<])([^\"]+)([\">])/) {
my $from_file=($2 eq "<"?"":$dirname);
my $real_include_name=get_real_include_name($line,$3,$from_file,$project,$target);
print FILEO "$1$2$real_include_name$4$'";
$modified|=($real_include_name ne $3);
} elsif (s/^(\s*)(\#\s*pragma\s+pack\s*\(\s*)//) {
# Pragma pack handling
#
# pack_stack is an array of references describing the stack of
# pack directives currently in effect. Each directive if described
# by a reference to an array containing:
# - "push" for pack(push,...) directives, "" otherwise
# - the directive's identifier at index 1
# - the directive's alignement value at index 2
#
# Don't believe a word of what the documentation says: it's all wrong.
# The code below is based on the actual behavior of Visual C/C++ 6.
my $pack_indent=$1;
my $pack_header=$2;
if (/^(\))/) {
# pragma pack()
# Pushes the default stack alignment
print FILEO "$pack_indent/* winemaker: $pack_header$1 */\n";
print FILEO "$pack_indent/* winemaker:warning: Using 4 as the default alignment */\n";
print_pack($pack_indent,4,$');
push @pack_stack, [ "", "", 4 ];
} elsif (/^(pop\s*(,\s*\d+\s*)?\))/) {
# pragma pack(pop)
# pragma pack(pop,n)
# Goes up the stack until it finds a pack(push,...), and pops it
# Ignores any pack(n) entry
# Issues a warning if the pack is of the form pack(push,label)
print FILEO "$pack_indent/* winemaker: $pack_header$1 */\n";
my $pack_comment=$';
$pack_comment =~ s/^\s*//;
if ($pack_comment ne "") {
print FILEO "$pack_indent$pack_comment";
}
while (1) {
my $alignment=pop @pack_stack;
if (!defined $alignment) {
print FILEO "$pack_indent/* winemaker:warning: No pack(push,...) found. All the stack has been popped */\n";
last;
}
if (@$alignment[1]) {
print FILEO "$pack_indent/* winemaker:warning: Anonymous pop of pack(push,@$alignment[1]) (@$alignment[2]) */\n";
}
print FILEO "$pack_indent#include <poppack.h>\n";
if (@$alignment[0]) {
last;
}
}
} elsif (/^(pop\s*,\s*(\w+)\s*(,\s*\d+\s*)?\))/) {
# pragma pack(pop,label[,n])
# Goes up the stack until finding a pack(push,...) and pops it.
# 'n', if specified, is ignored.
# Ignores any pack(n) entry
# Issues a warning if the label of the pack does not match,
# or if it is in fact a pack(push,n)
my $label=$2;
print FILEO "$pack_indent/* winemaker: $pack_header$1 */\n";
my $pack_comment=$';
$pack_comment =~ s/^\s*//;
if ($pack_comment ne "") {
print FILEO "$pack_indent$pack_comment";
}
while (1) {
my $alignment=pop @pack_stack;
if (!defined $alignment) {
print FILEO "$pack_indent/* winemaker:warning: No pack(push,$label) found. All the stack has been popped */\n";
last;
}
if (@$alignment[1] and @$alignment[1] ne $label) {
print FILEO "$pack_indent/* winemaker:warning: Push/pop mismatch: \"@$alignment[1]\" (@$alignment[2]) != \"$label\" */\n";
}
print FILEO "$pack_indent#include <poppack.h>\n";
if (@$alignment[0]) {
last;
}
}
} elsif (/^(push\s*\))/) {
# pragma pack(push)
# Push the current alignment
print FILEO "$pack_indent/* winemaker: $pack_header$1 */\n";
if (@pack_stack > 0) {
my $alignment=$pack_stack[$#pack_stack];
print_pack($pack_indent,@$alignment[2],$');
push @pack_stack, [ "push", "", @$alignment[2] ];
} else {
print FILEO "$pack_indent/* winemaker:warning: Using 4 as the default alignment */\n";
print_pack($pack_indent,4,$');
push @pack_stack, [ "push", "", 4 ];
}
} elsif (/^((push\s*,\s*)?(\d+)\s*\))/) {
# pragma pack([push,]n)
# Push new alignment n
print FILEO "$pack_indent/* winemaker: $pack_header$1 */\n";
print_pack($pack_indent,$3,"$'");
push @pack_stack, [ ($2 ? "push" : ""), "", $3 ];
} elsif (/^((\w+)\s*\))/) {
# pragma pack(label)
# label must in fact be a macro that resolves to an integer
# Then behaves like 'pragma pack(n)'
print FILEO "$pack_indent/* winemaker: $pack_header$1 */\n";
print FILEO "$pack_indent/* winemaker:warning: Assuming $2 == 4 */\n";
print_pack($pack_indent,4,$');
push @pack_stack, [ "", "", 4 ];
} elsif (/^(push\s*,\s*(\w+)\s*(,\s*(\d+)\s*)?\))/) {
# pragma pack(push,label[,n])
# Pushes a new label on the stack. It is possible to push the same
# label multiple times. If 'n' is omitted then the alignment is
# unchanged. Otherwise it becomes 'n'.
print FILEO "$pack_indent/* winemaker: $pack_header$1 */\n";
my $size;
if (defined $4) {
$size=$4;
} elsif (@pack_stack > 0) {
my $alignment=$pack_stack[$#pack_stack];
$size=@$alignment[2];
} else {
print FILEO "$pack_indent/* winemaker:warning: Using 4 as the default alignment */\n";
$size=4;
}
print_pack($pack_indent,$size,$');
push @pack_stack, [ "push", $2, $size ];
} else {
# pragma pack(??? -> What's that?
print FILEO "$pack_indent/* winemaker:warning: Unknown type of pragma pack directive */\n";
print FILEO "$pack_indent$pack_header$_";
}
$modified=1;
} elsif ($is_rc) {
if ($rc_block_depth == 0 and /^(\w+\s+(BITMAP|CURSOR|FONT|FONTDIR|ICON|MESSAGETABLE|TEXT|RTF)\s+((DISCARDABLE|FIXED|IMPURE|LOADONCALL|MOVEABLE|PRELOAD|PURE)\s+)*)([\"<]?)([^\">\r\n]+)([\">]?)/) {
my $from_file=($5 eq "<"?"":$dirname);
my $real_include_name=get_real_include_name($line,$6,$from_file,$project,$target);
print FILEO "$1$5$real_include_name$7$'";
$modified|=($real_include_name ne $6);
} elsif (/^(\s*RCINCLUDE\s*)([\"<]?)([^\">\r\n]+)([\">]?)/) {
my $from_file=($2 eq "<"?"":$dirname);
my $real_include_name=get_real_include_name($line,$3,$from_file,$project,$target);
print FILEO "$1$2$real_include_name$4$'";
$modified|=($real_include_name ne $3);
} elsif ($is_rc and !$is_mfc and $rc_block_depth == 0 and /^\s*\d+\s+TEXTINCLUDE\s*/) {
$rc_textinclude_state=1;
print FILEO;
} elsif ($rc_textinclude_state == 3 and /^(\s*\"\#\s*include\s*\"\")afxres\.h(\"\"\\r\\n\")/) {
print FILEO "$1winres.h$2$'";
$modified=1;
} elsif (/^\s*BEGIN(\W.*)?$/) {
$rc_textinclude_state|=2;
$rc_block_depth++;
print FILEO;
} elsif (/^\s*END(\W.*)?$/) {
$rc_textinclude_state=0;
if ($rc_block_depth>0) {
$rc_block_depth--;
}
print FILEO;
} else {
print FILEO;
}
} else {
print FILEO;
}
}
close(FILEI);
close(FILEO);
if ($opt_backup == 0 or $modified == 0) {
if (!unlink("$filename.bak")) {
print STDERR "error: unable to delete $filename.bak:\n";
print STDERR " $!\n";
}
}
}
##
# Analyzes each source file in turn to find and correct issues
# that would cause it not to compile.
sub fix_source
{
print "Fixing the source files...\n";
foreach $project (@projects) {
foreach $target (@$project[$P_SETTINGS],@{@$project[$P_TARGETS]}) {
if (@$target[$T_FLAGS] & $TF_WRAPPER) {
next;
}
foreach $source (@{@$target[$T_SOURCES_C]}, @{@$target[$T_SOURCES_CXX]}, @{@$target[$T_SOURCES_RC]}, @{@$target[$T_SOURCES_MISC]}) {
fix_file($source,$project,$target);
}
}
}
}
#####
#
# File generation
#
#####
##
# Generates a target's .spec file
sub generate_spec_file
{
my $path=$_[0];
my $target=$_[1];
my $project_settings=$_[2];
my $basename=@$target[$T_NAME];
$basename =~ s+\.so$++;
if (@$target[$T_FLAGS] & $TF_WRAP) {
$basename =~ s+^lib++;
} elsif (@$target[$T_FLAGS] & $TF_WRAPPER) {
$basename.="_wrapper";
}
if (!open(FILEO,">$path$basename.spec")) {
print STDERR "error: could not open \"$path$basename.spec\" for writing\n";
print STDERR " $!\n";
return;
}
my $module=$basename;
$module =~ s+^lib++;
$module=canonize($module);
print FILEO "name $module\n";
print FILEO "type win32\n";
if (@$target[$T_TYPE] == $TT_GUIEXE) {
print FILEO "mode guiexe\n";
} elsif (@$target[$T_TYPE] == $TT_CUIEXE) {
print FILEO "mode cuiexe\n";
} else {
print FILEO "mode dll\n";
}
if (defined @$target[$T_INIT] and ((@$target[$T_FLAGS] & $TF_WRAP) == 0)) {
print FILEO "init @$target[$T_INIT]\n";
}
if (@{@$target[$T_SOURCES_RC]} > 0) {
if (@{@$target[$T_SOURCES_RC]} > 1) {
print STDERR "warning: the target $basename has more than one RC file. Modify the Makefile.in to remove redundant RC files, and fix the spec file\n";
}
my $rcname=@{@$target[$T_SOURCES_RC]}[0];
$rcname =~ s+\.rc$++i;
$rcname =~ s+([^/\w])+\\$1+g;
print FILEO "rsrc $rcname.res\n";
}
print FILEO "\n";
my %imports;
foreach $library (@{$global_settings[$T_IMPORTS]}) {
if (!defined $imports{$library}) {
print FILEO "import $library\n";
$imports{$library}=1;
}
}
if (defined $project_settings) {
foreach $library (@{@$project_settings[$T_IMPORTS]}) {
if (!defined $imports{$library}) {
print FILEO "import $library\n";
$imports{$library}=1;
}
}
}
foreach $library (@{@$target[$T_IMPORTS]}) {
if (!defined $imports{$library}) {
print FILEO "import $library\n";
$imports{$library}=1;
}
}
# Don't forget to export the 'Main' function for wrapped executables,
# except for MFC ones!
if (@$target[$T_FLAGS] == $TF_WRAP) {
if (@$target[$T_TYPE] == $TT_GUIEXE) {
print FILEO "\n@ stdcall @$target[$T_INIT](long long ptr long) @$target[$T_INIT]\n";
} elsif (@$target[$T_TYPE] == $TT_CUIEXE) {
print FILEO "\n@ stdcall @$target[$T_INIT](long ptr ptr) @$target[$T_INIT]\n";
} else {
print FILEO "\n@ stdcall @$target[$T_INIT](ptr long ptr) @$target[$T_INIT]\n";
}
}
close(FILEO);
}
##
# Generates a target's wrapper file
sub generate_wrapper_file
{
my $path=$_[0];
my $target=$_[1];
if (!defined $templates{"wrapper.c"}) {
print STDERR "winemaker: internal error: No template called 'wrapper.c'\n";
return;
}
if (!open(FILEO,">$path@$target[$T_NAME]_wrapper.c")) {
print STDERR "error: unable to open \"$path$basename.c\" for writing:\n";
print STDERR " $!\n";
return;
}
my $app_name="\"@$target[$T_NAME]\"";
my $app_type=(@$target[$T_TYPE]==$TT_GUIEXE?"GUIEXE":"CUIEXE");
my $app_init=(@$target[$T_TYPE]==$TT_GUIEXE?"\"WinMain\"":"\"main\"");
my $app_mfc=(@$target[$T_FLAGS] & $TF_MFC?"\"mfc\"":NULL);
foreach $line (@{$templates{"wrapper.c"}}) {
my $l=$line;
$l =~ s/\#\#WINEMAKER_APP_NAME\#\#/$app_name/;
$l =~ s/\#\#WINEMAKER_APP_TYPE\#\#/$app_type/;
$l =~ s/\#\#WINEMAKER_APP_INIT\#\#/$app_init/;
$l =~ s/\#\#WINEMAKER_APP_MFC\#\#/$app_mfc/;
print FILEO $l;
}
close(FILEO);
}
##
# A convenience function to generate all the lists (defines,
# C sources, C++ source, etc.) in the Makefile
sub generate_list
{
my $name=$_[0];
my $last=$_[1];
my $list=$_[2];
my $data=$_[3];
my $first=$name;
if ($name) {
printf FILEO "%-22s=",$name;
}
if (defined $list) {
foreach $item (@$list) {
my $value;
if (defined $data) {
$value=&$data($item);
} else {
$value=$item;
}
if ($value ne "") {
if ($first) {
print FILEO " $value";
$first=0;
} else {
print FILEO " \\\n\t\t\t$value";
}
}
}
}
if ($last) {
print FILEO "\n";
}
}
##
# Generates a project's Makefile.in and all the target files
sub generate_project_files
{
my $project=$_[0];
my $project_settings=@$project[$P_SETTINGS];
my @dll_list=();
my @exe_list=();
# Then sort the targets and separate the libraries from the programs
foreach $target (sort { @$a[$T_NAME] cmp @$b[$T_NAME] } @{@$project[$P_TARGETS]}) {
if (@$target[$T_TYPE] == $TT_DLL) {
push @dll_list,$target;
} else {
push @exe_list,$target;
}
}
@$project[$P_TARGETS]=[];
push @{@$project[$P_TARGETS]}, @dll_list;
push @{@$project[$P_TARGETS]}, @exe_list;
if (!open(FILEO,">@$project[$P_PATH]Makefile.in")) {
print STDERR "error: could not open \"@$project[$P_PATH]/Makefile.in\" for writing\n";
print STDERR " $!\n";
return;
}
print FILEO "### Generated by Winemaker\n";
print FILEO "\n\n";
print FILEO "### Generic autoconf variables\n\n";
generate_list("TOPSRCDIR",1,[ "\@top_srcdir\@" ]);
generate_list("TOPOBJDIR",1,[ "." ]);
generate_list("SRCDIR",1,[ "\@srcdir\@" ]);
generate_list("VPATH",1,[ "\@srcdir\@" ]);
print FILEO "\n";
if (@$project[$P_PATH] eq "") {
# This is the main project. It is also responsible for recursively
# calling the other projects
generate_list("SUBDIRS",1,\@projects,sub
{
if ($_[0] != \@main_project) {
my $subdir=@{$_[0]}[$P_PATH];
$subdir =~ s+/$++;
return $subdir;
}
# Eliminating the main project by returning undefined!
});
}
if (@{@$project[$P_TARGETS]} > 0) {
generate_list("DLLS",1,\@dll_list,sub
{
return @{$_[0]}[$T_NAME];
});
generate_list("EXES",1,\@exe_list,sub
{
return "@{$_[0]}[$T_NAME]";
});
print FILEO "\n\n\n";
print FILEO "### Global settings\n\n";
# Make it so that the project-wide settings override the global settings
generate_list("DEFINES",0,@$project_settings[$T_DEFINES]);
generate_list("",1,$global_settings[$T_DEFINES]);
generate_list("INCLUDE_PATH",$no_extra,@$project_settings[$T_INCLUDE_PATH]);
generate_list("",1,$global_settings[$T_INCLUDE_PATH],sub
{
if ($_[0] !~ /^-I/ or is_absolute($')) {
return "$_[0]";
}
return "-I\$(TOPSRCDIR)/$'";
});
generate_list("LIBRARY_PATH",$no_extra,@$project_settings[$T_LIBRARY_PATH]);
generate_list("",1,$global_settings[$T_LIBRARY_PATH],sub
{
if ($_[0] !~ /^-L/ or is_absolute($')) {
return "$_[0]";
}
return "-L\$(TOPSRCDIR)/$'";
});
generate_list("LIBRARIES",$no_extra,@$project_settings[$T_LIBRARIES]);
generate_list("",1,$global_settings[$T_LIBRARIES]);
print FILEO "\n\n";
my $extra_source_count=@{@$project_settings[$T_SOURCES_C]}+
@{@$project_settings[$T_SOURCES_CXX]}+
@{@$project_settings[$T_SOURCES_RC]};
my $no_extra=($extra_source_count == 0);
if (!$no_extra) {
print FILEO "### Extra source lists\n\n";
generate_list("EXTRA_C_SRCS",1,@$project_settings[$T_SOURCES_C]);
generate_list("EXTRA_CXX_SRCS",1,@$project_settings[$T_SOURCES_CXX]);
generate_list("EXTRA_RC_SRCS",1,@$project_settings[$T_SOURCES_RC]);
print FILEO "\n";
generate_list("EXTRA_OBJS",1,["\$(EXTRA_C_SRCS:.c=.o)","\$(EXTRA_CXX_SRCS:.cpp=.o)"]);
print FILEO "\n\n\n";
}
# Iterate over all the targets...
foreach $target (@{@$project[$P_TARGETS]}) {
print FILEO "### @$target[$T_NAME] sources and settings\n\n";
my $canon=canonize("@$target[$T_NAME]");
$canon =~ s+_so$++;
generate_list("${canon}_C_SRCS",1,@$target[$T_SOURCES_C]);
generate_list("${canon}_CXX_SRCS",1,@$target[$T_SOURCES_CXX]);
generate_list("${canon}_RC_SRCS",1,@$target[$T_SOURCES_RC]);
my $basename=@$target[$T_NAME];
$basename =~ s+\.so$++;
if (@$target[$T_FLAGS] & $TF_WRAP) {
$basename =~ s+^lib++;
} elsif (@$target[$T_FLAGS] & $TF_WRAPPER) {
$basename.="_wrapper";
}
generate_list("${canon}_SPEC_SRCS",1,[ "$basename.spec" ]);
generate_list("${canon}_LIBRARY_PATH",1,@$target[$T_LIBRARY_PATH]);
generate_list("${canon}_LIBRARIES",1,@$target[$T_LIBRARIES]);
generate_list("${canon}_DEPENDS",1,@$target[$T_DEPENDS]);
print FILEO "\n";
generate_list("${canon}_OBJS",1,["\$(${canon}_C_SRCS:.c=.o)","\$(${canon}_CXX_SRCS:.cpp=.o)","\$(EXTRA_OBJS)"]);
print FILEO "\n\n\n";
}
print FILEO "### Global source lists\n\n";
generate_list("C_SRCS",$no_extra,@$project[$P_TARGETS],sub
{
my $canon=canonize(@{$_[0]}[$T_NAME]);
$canon =~ s+_so$++;
return "\$(${canon}_C_SRCS)";
});
if (!$no_extra) {
generate_list("",1,[ "\$(EXTRA_C_SRCS)" ]);
}
generate_list("CXX_SRCS",$no_extra,@$project[$P_TARGETS],sub
{
my $canon=canonize(@{$_[0]}[$T_NAME]);
$canon =~ s+_so$++;
return "\$(${canon}_CXX_SRCS)";
});
if (!$no_extra) {
generate_list("",1,[ "\$(EXTRA_CXX_SRCS)" ]);
}
generate_list("RC_SRCS",$no_extra,@$project[$P_TARGETS],sub
{
my $canon=canonize(@{$_[0]}[$T_NAME]);
$canon =~ s+_so$++;
return "\$(${canon}_RC_SRCS)";
});
if (!$no_extra) {
generate_list("",1,[ "\$(EXTRA_RC_SRCS)" ]);
}
generate_list("SPEC_SRCS",1,@$project[$P_TARGETS],sub
{
my $canon=canonize(@{$_[0]}[$T_NAME]);
$canon =~ s+_so$++;
return "\$(${canon}_SPEC_SRCS)";
});
}
print FILEO "\n\n\n";
print FILEO "### Generic autoconf targets\n\n";
print FILEO "all: ";
if (@$project[$P_PATH] eq "") {
print FILEO "\$(SUBDIRS)";
}
if (@{@$project[$P_TARGETS]} > 0) {
print FILEO "\$(DLLS) \$(EXES:%=%.so)";
}
print FILEO "\n\n";
print FILEO "\@MAKE_RULES\@\n";
print FILEO "\n";
print FILEO "install::\n";
if (@$project[$P_PATH] eq "") {
# This is the main project. It is also responsible for recursively
# calling the other projects
print FILEO "\tfor i in \$(SUBDIRS); do (cd \$\$i; \$(MAKE) install) || exit 1; done\n";
}
if (@{@$project[$P_TARGETS]} > 0) {
print FILEO "\tfor i in \$(EXES); do \$(INSTALL_PROGRAM) \$\$i \$(bindir); done\n";
print FILEO "\tfor i in \$(EXES:%=%.so) \$(DLLS); do \$(INSTALL_LIBRARY) \$\$i \$(libdir); done\n";
}
print FILEO "\n";
print FILEO "uninstall::\n";
if (@$project[$P_PATH] eq "") {
# This is the main project. It is also responsible for recursively
# calling the other projects
print FILEO "\tfor i in \$(SUBDIRS); do (cd \$\$i; \$(MAKE) uninstall) || exit 1; done\n";
}
if (@{@$project[$P_TARGETS]} > 0) {
print FILEO "\tfor i in \$(EXES); do \$(RM) \$(bindir)/\$\$i;done\n";
print FILEO "\tfor i in \$(EXES:%=%.so) \$(DLLS); do \$(RM) \$(libdir)/\$\$i;done\n";
}
print FILEO "\n\n\n";
if (@{@$project[$P_TARGETS]} > 0) {
print FILEO "### Target specific build rules\n\n";
foreach $target (@{@$project[$P_TARGETS]}) {
my $canon=canonize("@$target[$T_NAME]");
$canon =~ s/_so$//;
print FILEO "\$(${canon}_SPEC_SRCS:.spec=.tmp.o): \$(${canon}_OBJS)\n";
print FILEO "\t\$(LDCOMBINE) \$(${canon}_OBJS) -o \$\@\n";
print FILEO "\t-\$(STRIP) \$(STRIPFLAGS) \$\@\n";
print FILEO "\n";
print FILEO "\$(${canon}_SPEC_SRCS:.spec=.spec.c): \$(${canon}_SPEC_SRCS:.spec) \$(${canon}_SPEC_SRCS:.spec=.tmp.o) \$(${canon}_RC_SRCS:.rc=.res)\n";
print FILEO "\t\$(LD_PATH) \$(WINEBUILD) -fPIC \$(${canon}_LIBRARY_PATH) \$(WINE_LIBRARY_PATH) -sym \$(${canon}_SPEC_SRCS:.spec=.tmp.o) -o \$\@ -spec \$(SRCDIR)/\$(${canon}_SPEC_SRCS)\n";
print FILEO "\n";
my $t_name=@$target[$T_NAME];
if (@$target[$T_TYPE]!=$TT_DLL) {
$t_name.=".so";
}
print FILEO "$t_name: \$(${canon}_SPEC_SRCS:.spec=.spec.o) \$(${canon}_OBJS) \$(${canon}_DEPENDS) \n";
if (@{@$target[$T_SOURCES_CXX]} > 0 or @{@$project_settings[$T_SOURCES_CXX]} > 0) {
print FILEO "\t\$(LDXXSHARED)";
} else {
print FILEO "\t\$(LDSHARED)";
}
print FILEO " \$(LDDLLFLAGS) -o \$\@ \$(${canon}_OBJS) \$(${canon}_SPEC_SRCS:.spec=.spec.o) \$(${canon}_LIBRARY_PATH) \$(${canon}_LIBRARIES:%=-l%) \$(DLL_LINK) \$(LIBS)\n";
if (@$target[$T_TYPE] ne $TT_DLL) {
print FILEO "\ttest -e @$target[$T_NAME] || \$(LN_S) \$(WINE) @$target[$T_NAME]\n";
}
print FILEO "\n\n";
}
}
close(FILEO);
foreach $target (@{@$project[$P_TARGETS]}) {
generate_spec_file(@$project[$P_PATH],$target,$project_settings);
if (@$target[$T_FLAGS] & $TF_WRAPPER) {
generate_wrapper_file(@$project[$P_PATH],$target);
}
}
}
##
# Perform the replacements in the template configure files
# Return 1 for success, 0 for failure
sub generate_configure
{
my $filename=$_[0];
my $a_source_file=$_[1];
if (!defined $templates{$filename}) {
if ($filename ne "configure") {
print STDERR "winemaker: internal error: No template called '$filename'\n";
}
return 0;
}
if (!open(FILEO,">$filename")) {
print STDERR "error: unable to open \"$filename\" for writing:\n";
print STDERR " $!\n";
return 0;
}
foreach $line (@{$templates{$filename}}) {
if ($line =~ /^\#\#WINEMAKER_PROJECTS\#\#$/) {
foreach $project (@projects) {
print FILEO "@$project[$P_PATH]Makefile\n";
}
} else {
$line =~ s+\#\#WINEMAKER_SOURCE\#\#+$a_source_file+;
$line =~ s+\#\#WINEMAKER_NEEDS_MFC\#\#+$needs_mfc+;
print FILEO $line;
}
}
close(FILEO);
return 1;
}
sub generate_generic
{
my $filename=$_[0];
if (!defined $templates{$filename}) {
print STDERR "winemaker: internal error: No template called '$filename'\n";
return;
}
if (!open(FILEO,">$filename")) {
print STDERR "error: unable to open \"$filename\" for writing:\n";
print STDERR " $!\n";
return;
}
foreach $line (@{$templates{$filename}}) {
print FILEO $line;
}
close(FILEO);
}
##
# Generates the global files:
# configure
# configure.in
# Make.rules.in
sub generate_global_files
{
generate_generic("Make.rules.in");
# Get the name of a source file for configure.in
my $a_source_file;
search_a_file: foreach $project (@projects) {
foreach $target (@{@$project[$P_TARGETS]}, @$project[$P_SETTINGS]) {
$a_source_file=@{@$target[$T_SOURCES_C]}[0];
if (!defined $a_source_file) {
$a_source_file=@{@$target[$T_SOURCES_CXX]}[0];
}
if (!defined $a_source_file) {
$a_source_file=@{@$target[$T_SOURCES_RC]}[0];
}
if (defined $a_source_file) {
$a_source_file="@$project[$P_PATH]$a_source_file";
last search_a_file;
}
}
}
if (!defined $a_source_file) {
$a_source_file="Makefile.in";
}
generate_configure("configure.in",$a_source_file);
unlink("configure");
if (generate_configure("configure",$a_source_file) == 0) {
system("autoconf");
}
# Add execute permission to configure for whoever has the right to read it
my @st=stat("configure");
if (@st) {
my $mode=$st[2];
$mode|=($mode & 0444) >>2;
chmod($mode,"configure");
} else {
print "warning: could not generate the configure script. You need to run autoconf\n";
}
}
##
#
sub generate_read_templates
{
my $file;
while (<DATA>) {
if (/^--- ((\w\.?)+) ---$/) {
my $filename=$1;
if (defined $templates{$filename}) {
print STDERR "winemaker: internal error: There is more than one template for $filename\n";
undef $file;
} else {
$file=[];
$templates{$filename}=$file;
}
} elsif (defined $file) {
push @$file, $_;
}
}
}
##
# This is where we finally generate files. In fact this method does not
# do anything itself but calls the methods that do the actual work.
sub generate
{
print "Generating project files...\n";
generate_read_templates();
generate_global_files();
foreach $project (@projects) {
my $path=@$project[$P_PATH];
if ($path eq "") {
$path=".";
} else {
$path =~ s+/$++;
}
print " $path\n";
generate_project_files($project);
}
}
#####
#
# Option defaults
#
#####
$opt_backup=1;
$opt_lower=$OPT_LOWER_UPPERCASE;
$opt_lower_include=1;
# $opt_work_dir=<undefined>
# $opt_single_target=<undefined>
$opt_target_type=$TT_GUIEXE;
$opt_flags=0;
$opt_is_interactive=$OPT_ASK_NO;
$opt_ask_project_options=$OPT_ASK_NO;
$opt_ask_target_options=$OPT_ASK_NO;
$opt_no_generated_files=0;
$opt_no_banner=0;
#####
#
# Main
#
#####
sub print_banner
{
print "Winemaker $version\n";
print "Copyright 2000 Francois Gouget <fgouget\@codeweavers.com> for CodeWeavers\n";
}
sub usage
{
print_banner();
print STDERR "Usage: winemaker [--nobanner] [--backup|--nobackup]\n";
print STDERR " [--lower-none|--lower-all|--lower-uppercase]\n";
print STDERR " [--lower-include|--nolower-include]\n";
print STDERR " [--guiexe|--windows|--cuiexe|--console|--dll]\n";
print STDERR " [--wrap|--nowrap] [--mfc|--nomfc]\n";
print STDERR " [-Dmacro[=defn]] [-Idir] [-Ldir] [-idll] [-llibrary]\n";
print STDERR " [--interactive] [--single-target name]\n";
print STDERR " [--generated-files|--nogenerated-files]\n";
print STDERR " work_directory\n";
print STDERR "\nWinemaker is designed to recursively convert all the Windows sources found in\n";
print STDERR "the specified directory so that they can be compiled with Winelib. During this\n";
print STDERR "process it will modify and rename some of the files in that directory.\n";
print STDERR "\tPlease read the manual page before use.\n";
exit (2);
}
project_init(\@main_project,"");
while (@ARGV>0) {
my $arg=shift @ARGV;
# General options
if ($arg eq "--nobanner") {
$opt_no_banner=1;
} elsif ($arg eq "--backup") {
$opt_backup=1;
} elsif ($arg eq "--nobackup") {
$opt_backup=0;
} elsif ($arg eq "--single-target") {
$opt_single_target=shift @ARGV;
} elsif ($arg eq "--lower-none") {
$opt_lower=$OPT_LOWER_NONE;
} elsif ($arg eq "--lower-all") {
$opt_lower=$OPT_LOWER_ALL;
} elsif ($arg eq "--lower-uppercase") {
$opt_lower=$OPT_LOWER_UPPERCASE;
} elsif ($arg eq "--lower-include") {
$opt_lower_include=1;
} elsif ($arg eq "--nolower-include") {
$opt_lower_include=0;
} elsif ($arg eq "--generated-files") {
$opt_no_generated_files=0;
} elsif ($arg eq "--nogenerated-files") {
$opt_no_generated_files=1;
} elsif ($arg =~ /^-D/) {
push @{$global_settings[$T_DEFINES]},$arg;
} elsif ($arg =~ /^-I/) {
push @{$global_settings[$T_INCLUDE_PATH]},$arg;
} elsif ($arg =~ /^-L/) {
push @{$global_settings[$T_LIBRARY_PATH]},$arg;
} elsif ($arg =~ /^-i/) {
push @{$global_settings[$T_IMPORTS]},$';
} elsif ($arg =~ /^-l/) {
push @{$global_settings[$T_LIBRARIES]},$';
# 'Source'-based method options
} elsif ($arg eq "--dll") {
$opt_target_type=$TT_DLL;
} elsif ($arg eq "--guiexe" or $arg eq "--windows") {
$opt_target_type=$TT_GUIEXE;
} elsif ($arg eq "--cuiexe" or $arg eq "--console") {
$opt_target_type=$TT_CUIEXE;
} elsif ($arg eq "--interactive") {
$opt_is_interactive=$OPT_ASK_YES;
$opt_ask_project_options=$OPT_ASK_YES;
$opt_ask_target_options=$OPT_ASK_YES;
} elsif ($arg eq "--wrap") {
$opt_flags|=$TF_WRAP;
} elsif ($arg eq "--nowrap") {
$opt_flags&=~$TF_WRAP;
} elsif ($arg eq "--mfc") {
$opt_flags|=$TF_MFC;
$opt_flags|=$TF_MFC|$TF_WRAP;
$needs_mfc=1;
} elsif ($arg eq "--nomfc") {
$opt_flags&=~($TF_MFC|$TF_WRAP);
$needs_mfc=0;
# Catch errors
} else {
if ($arg ne "--help" and $arg ne "-h" and $arg ne "-?") {
if (!defined $opt_work_dir) {
$opt_work_dir=$arg;
} else {
print STDERR "error: the work directory, \"$arg\", has already been specified (was \"$opt_work_dir\")\n";
usage();
}
} else {
usage();
}
}
}
if (!defined $opt_work_dir) {
print STDERR "error: you must specify the directory containing the sources to be converted\n";
usage();
} elsif (!chdir $opt_work_dir) {
print STDERR "error: could not chdir to the work directory\n";
print STDERR " $!\n";
usage();
}
if ($opt_no_banner == 0) {
print_banner();
}
# Fix the file and directory names
fix_file_and_directory_names(".");
# Scan the sources to identify the projects and targets
source_scan();
# Create targets for wrappers, etc.
postprocess_targets();
# Fix the source files
fix_source();
# Generate the Makefile and the spec file
if (! $opt_no_generated_files) {
generate();
}
__DATA__
--- configure.in ---
dnl Process this file with autoconf to produce a configure script.
dnl Author: Michael Patra <micky@marie.physik.tu-berlin.de>
dnl <patra@itp1.physik.tu-berlin.de>
dnl Francois Gouget <fgouget@codeweavers.com> for CodeWeavers
AC_REVISION([configure.in 1.00])
AC_INIT(##WINEMAKER_SOURCE##)
NEEDS_MFC=##WINEMAKER_NEEDS_MFC##
dnl **** Command-line arguments ****
AC_SUBST(OPTIONS)
dnl **** Check for some programs ****
AC_PROG_MAKE_SET
AC_PROG_CC
AC_PROG_CXX
AC_PROG_CPP
AC_PATH_XTRA
AC_PROG_RANLIB
AC_PROG_LN_S
AC_PATH_PROG(LDCONFIG, ldconfig, true, /sbin:/usr/sbin:$PATH)
dnl **** Check for some libraries ****
dnl Check for -lm for BeOS
AC_CHECK_LIB(m,sqrt)
dnl Check for -li386 for NetBSD and OpenBSD
AC_CHECK_LIB(i386,i386_set_ldt)
dnl Check for -lossaudio for NetBSD
AC_CHECK_LIB(ossaudio,_oss_ioctl)
dnl Check for -lw for Solaris
AC_CHECK_LIB(w,iswalnum)
dnl Check for -lnsl for Solaris
AC_CHECK_FUNCS(gethostbyname,, AC_CHECK_LIB(nsl, gethostbyname, X_EXTRA_LIBS="$X_EXTRA_LIBS -lnsl", AC_CHECK_LIB(socket, gethostbyname, X_EXTRA_LIBS="$X_EXTRA_LIBS -lnsl", , -lnsl), -lsocket))
dnl Check for -lsocket for Solaris
AC_CHECK_FUNCS(connect,,AC_CHECK_LIB(socket,connect))
dnl Check for -lxpg4 for FreeBSD
AC_CHECK_LIB(xpg4,setrunelocale)
dnl Check for -lmmap for OS/2
AC_CHECK_LIB(mmap,mmap)
dnl Check for openpty
AC_CHECK_FUNCS(openpty,,
AC_CHECK_LIB(util,openpty,
AC_DEFINE(HAVE_OPENPTY)
LIBS="$LIBS -lutil"
))
AC_CHECK_HEADERS(dlfcn.h,
AC_CHECK_FUNCS(dlopen,
AC_DEFINE(HAVE_DL_API),
AC_CHECK_LIB(dl,dlopen,
AC_DEFINE(HAVE_DL_API)
LIBS="$LIBS -ldl",
)
),
)
dnl **** Check which curses lib to use ***
if test "$CURSES" = "yes"
then
AC_CHECK_HEADERS(ncurses.h)
if test "$ac_cv_header_ncurses_h" = "yes"
then
AC_CHECK_LIB(ncurses,waddch)
fi
if test "$ac_cv_lib_ncurses_waddch" = "yes"
then
AC_CHECK_LIB(ncurses,resizeterm,AC_DEFINE(HAVE_RESIZETERM))
AC_CHECK_LIB(ncurses,getbkgd,AC_DEFINE(HAVE_GETBKGD))
else
AC_CHECK_HEADERS(curses.h)
if test "$ac_cv_header_curses_h" = "yes"
then
AC_CHECK_LIB(curses,waddch)
if test "$ac_cv_lib_curses_waddch" = "yes"
then
AC_CHECK_LIB(curses,resizeterm,AC_DEFINE(HAVE_RESIZETERM))
AC_CHECK_LIB(curses,getbkgd,AC_DEFINE(HAVE_GETBKGD))
fi
fi
fi
fi
dnl **** If ln -s doesn't work, use cp instead ****
if test "$ac_cv_prog_LN_S" = "ln -s"; then : ; else LN_S=cp ; fi
dnl **** Check for gcc strength-reduce bug ****
if test "x${GCC}" = "xyes"
then
AC_CACHE_CHECK( "for gcc strength-reduce bug", ac_cv_c_gcc_strength_bug,
AC_TRY_RUN([
int main(void) {
static int Array[[3]];
unsigned int B = 3;
int i;
for(i=0; i<B; i++) Array[[i]] = i - 3;
exit( Array[[1]] != -2 );
}],
ac_cv_c_gcc_strength_bug="no",
ac_cv_c_gcc_strength_bug="yes",
ac_cv_c_gcc_strength_bug="yes") )
if test "$ac_cv_c_gcc_strength_bug" = "yes"
then
CFLAGS="$CFLAGS -fno-strength-reduce"
fi
fi
dnl **** Check for underscore on external symbols ****
AC_CACHE_CHECK("whether external symbols need an underscore prefix",
ac_cv_c_extern_prefix,
[saved_libs=$LIBS
LIBS="conftest_asm.s $LIBS"
cat > conftest_asm.s <<EOF
.globl _ac_test
_ac_test:
.long 0
EOF
AC_TRY_LINK([extern int ac_test;],[if (ac_test) return 1],
ac_cv_c_extern_prefix="yes",ac_cv_c_extern_prefix="no")
LIBS=$saved_libs])
if test "$ac_cv_c_extern_prefix" = "yes"
then
AC_DEFINE(NEED_UNDERSCORE_PREFIX)
fi
dnl **** Check for working dll ****
LDSHARED=""
LDXXSHARED=""
LDDLLFLAGS=""
AC_CACHE_CHECK("whether we can build a Linux dll",
ac_cv_c_dll_linux,
[saved_cflags=$CFLAGS
CFLAGS="$CFLAGS -fPIC -shared -Wl,-soname,conftest.so.1.0,-Bsymbolic"
AC_TRY_LINK(,[return 1],ac_cv_c_dll_linux="yes",ac_cv_c_dll_linux="no")
CFLAGS=$saved_cflags
])
if test "$ac_cv_c_dll_linux" = "yes"
then
LDSHARED="\$(CC) -shared -Wl,-rpath,\$(libdir)"
LDXXSHARED="\$(CXX) -shared -Wl,-rpath,\$(libdir)"
LDDLLFLAGS="-Wl,-Bsymbolic"
else
AC_CACHE_CHECK(whether we can build a UnixWare (Solaris) dll,
ac_cv_c_dll_unixware,
[saved_cflags=$CFLAGS
CFLAGS="$CFLAGS -fPIC -Wl,-G,-h,conftest.so.1.0,-B,symbolic"
AC_TRY_LINK(,[return 1],ac_cv_c_dll_unixware="yes",ac_cv_c_dll_unixware="no")
CFLAGS=$saved_cflags
])
if test "$ac_cv_c_dll_unixware" = "yes"
then
LDSHARED="\$(CC) -Wl,-G"
LDXXSHARED="\$(CXX) -Wl,-G"
LDDLLFLAGS="-Wl,-B,symbolic"
else
AC_CACHE_CHECK("whether we can build a NetBSD dll",
ac_cv_c_dll_netbsd,
[saved_cflags=$CFLAGS
CFLAGS="$CFLAGS -fPIC -Wl,-Bshareable,-Bforcearchive"
AC_TRY_LINK(,[return 1],ac_cv_c_dll_netbsd="yes",ac_cv_c_dll_netbsd="no")
CFLAGS=$saved_cflags
])
if test "$ac_cv_c_dll_netbsd" = "yes"
then
LDSHARED="\$(CC) -Wl,-Bshareable,-Bforcearchive"
LDXXSHARED="\$(CXX) -Wl,-Bshareable,-Bforcearchive"
LDDLLFLAGS="" #FIXME
fi
fi
fi
if test "$ac_cv_c_dll_linux" = "no" -a "$ac_cv_c_dll_unixware" = "no" -a "$ac_cv_c_dll_netbsd" = "no"
then
AC_MSG_ERROR([Could not find how to build a dynamically linked library])
fi
CFLAGS="$CFLAGS -fPIC"
DLL_LINK="\$(WINE_LIBRARY_PATH) \$(LIBRARY_PATH) \$(LIBRARIES:%=-l%) -lwine -lwine_unicode -lwine_uuid"
AC_SUBST(DLL_LINK)
AC_SUBST(LDSHARED)
AC_SUBST(LDXXSHARED)
AC_SUBST(LDDLLFLAGS)
dnl *** check for the need to define __i386__
AC_CACHE_CHECK("whether we need to define __i386__",ac_cv_cpp_def_i386,
AC_EGREP_CPP(yes,[#if (defined(i386) || defined(__i386)) && !defined(__i386__)
yes
#endif],
ac_cv_cpp_def_i386="yes", ac_cv_cpp_def_i386="no"))
if test "$ac_cv_cpp_def_i386" = "yes"
then
CFLAGS="$CFLAGS -D__i386__"
fi
dnl $GCC is set by autoconf
GCC_NO_BUILTIN=""
if test "$GCC" = "yes"
then
GCC_NO_BUILTIN="-fno-builtin"
fi
AC_SUBST(GCC_NO_BUILTIN)
dnl **** Test Winelib-related features of the C++ compiler
AC_LANG_CPLUSPLUS()
if test "x${GCC}" = "xyes"
then
OLDCXXFLAGS="$CXXFLAGS";
CXXFLAGS="-fpermissive";
AC_CACHE_CHECK("for g++ -fpermissive option", has_gxx_permissive,
AC_TRY_COMPILE(,[
for (int i=0;i<2;i++);
i=0;
],
[has_gxx_permissive="yes"],
[has_gxx_permissive="no"])
)
CXXFLAGS="-fno-for-scope";
AC_CACHE_CHECK("for g++ -fno-for-scope option", has_gxx_no_for_scope,
AC_TRY_COMPILE(,[
for (int i=0;i<2;i++);
i=0;
],
[has_gxx_no_for_scope="yes"],
[has_gxx_no_for_scope="no"])
)
CXXFLAGS="$OLDCXXFLAGS";
if test "$has_gxx_permissive" = "yes"
then
CXXFLAGS="$CXXFLAGS -fpermissive"
fi
if test "$has_gxx_no_for_scope" = "yes"
then
CXXFLAGS="$CXXFLAGS -fno-for-scope"
fi
fi
AC_LANG_C()
dnl **** Test Winelib-related features of the C compiler
dnl none for now
dnl **** Macros for finding a headers/libraries in a collection of places
dnl AC_PATH_HEADER(variable,header,action-if-not-found,default-locations)
dnl Note that the above may set variable to an empty value if the header is
dnl already in the include path
AC_DEFUN(AC_PATH_HEADER,[
AC_MSG_CHECKING([for $2])
AC_CACHE_VAL(ac_cv_path_$1,
[
ac_found=
ac_dummy="ifelse([$4], , :/usr/local/include, [$4])"
save_CPPFLAGS="$CPPFLAGS"
IFS="${IFS= }"; ac_save_ifs="$IFS"; IFS=":"
for ac_dir in $ac_dummy; do
IFS="$ac_save_ifs"
if test -z "$ac_dir"
then
CPPFLAGS="$save_CPPFLAGS"
else
CPPFLAGS="-I$ac_dir $save_CPPFLAGS"
fi
AC_TRY_COMPILE([#include <$2>],,ac_found=1;ac_cv_path_$1="$ac_dir";break)
done
CPPFLAGS="$save_CPPFLAGS"
ifelse([$3],,,[if test -z "$ac_found"
then
$3
fi
])
])
$1="$ac_cv_path_$1"
if test -n "$ac_found" -o -n "[$]$1"
then
AC_MSG_RESULT([$]$1)
else
AC_MSG_RESULT(no)
fi
AC_SUBST($1)
])
dnl AC_PATH_LIBRARY(variable,libraries,extra libs,action-if-not-found,default-locations)
AC_DEFUN(AC_PATH_LIBRARY,[
AC_MSG_CHECKING([for $2])
AC_CACHE_VAL(ac_cv_path_$1,
[
ac_found=
ac_dummy="ifelse([$5], , :/usr/local/lib, [$5])"
save_LIBS="$LIBS"
IFS="${IFS= }"; ac_save_ifs="$IFS"; IFS=":"
for ac_dir in $ac_dummy; do
IFS="$ac_save_ifs"
if test -z "$ac_dir"
then
LIBS="$2 $3 $save_LIBS"
else
LIBS="-L$ac_dir $2 $3 $save_LIBS"
fi
AC_TRY_LINK(,,ac_found=1;ac_cv_path_$1="$ac_dir";break)
done
LIBS="$save_LIBS"
ifelse([$4],,,[if test -z "$ac_found"
then
$4
fi
])
])
$1="$ac_cv_path_$1"
if test -n "$ac_found" -o -n "[$]$1"
then
AC_MSG_RESULT([$]$1)
else
AC_MSG_RESULT(no)
fi
AC_SUBST($1)
])
dnl **** Try to find where winelib is located ****
LD_PATH="";
WINE_INCLUDE_ROOT="";
WINE_INCLUDE_PATH="";
WINE_LIBRARY_ROOT="";
WINE_LIBRARY_PATH="";
WINE_TOOL_PATH="";
WINE="";
WINEBUILD="";
WRC="";
AC_ARG_WITH(wine,
[ --with-wine=DIR the Wine package (or sources) is in DIR],
[if test "$withval" != "no"; then
WINE_ROOT="$withval";
WINE_INCLUDES="";
WINE_LIBRARIES="";
WINE_TOOLS="";
else
WINE_ROOT="";
fi])
if test -n "$WINE_ROOT"
then
WINE_INCLUDE_ROOT="$WINE_ROOT/include:$WINE_ROOT/include/wine";
WINE_LIBRARY_ROOT="$WINE_ROOT";
WINE_TOOL_PATH="$WINE_ROOT:$WINE_ROOT/bin:$WINE_ROOT/tools/wrc:$WINE_ROOT/tools/winebuild:$PATH";
fi
AC_ARG_WITH(wine-includes,
[ --with-wine-includes=DIR the Wine includes are in DIR],
[if test "$withval" != "no"; then
WINE_INCLUDES="$withval";
else
WINE_INCLUDES="";
fi])
if test -n "$WINE_INCLUDES"
then
WINE_INCLUDE_ROOT="$WINE_INCLUDES";
fi
AC_ARG_WITH(wine-libraries,
[ --with-wine-libraries=DIR the Wine libraries are in DIR],
[if test "$withval" != "no"; then
WINE_LIBRARIES="$withval";
else
WINE_LIBRARIES="";
fi])
if test -n "$WINE_LIBRARIES"
then
WINE_LIBRARY_ROOT="$WINE_LIBRARIES";
fi
AC_ARG_WITH(wine-tools,
[ --with-wine-tools=DIR the Wine tools are in DIR],
[if test "$withval" != "no"; then
WINE_TOOLS="$withval";
else
WINE_TOOLS="";
fi])
if test -n "$WINE_TOOLS"
then
WINE_TOOL_PATH="$WINE_TOOLS:$WINE_TOOLS/wrc:$WINE_TOOLS/winebuild";
fi
if test -z "$WINE_INCLUDE_ROOT"
then
WINE_INCLUDE_ROOT=":/usr/include/wine:/usr/local/include/wine:/opt/wine/include:/opt/wine/include/wine";
fi
AC_PATH_HEADER(WINE_INCLUDE_ROOT,windef.h,[
AC_MSG_ERROR([Could not find the Wine includes])
],$WINE_INCLUDE_ROOT)
if test -n "$WINE_INCLUDE_ROOT"
then
WINE_INCLUDE_PATH="-I$WINE_INCLUDE_ROOT"
else
WINE_INCLUDE_PATH=""
fi
if test -z "$WINE_LIBRARY_ROOT"
then
WINE_LIBRARY_ROOT=":/usr/lib/wine:/usr/local/lib:/usr/local/lib/wine:/opt/wine/lib";
else
WINE_LIBRARY_ROOT="$WINE_LIBRARY_ROOT:$WINE_LIBRARY_ROOT/lib";
fi
AC_PATH_LIBRARY(WINE_LIBRARY_ROOT,[-lwine],[-lutil],[
AC_MSG_ERROR([Could not find the Wine libraries (libwine.so)])
],$WINE_LIBRARY_ROOT)
if test -n "$WINE_LIBRARY_ROOT"
then
WINE_LIBRARY_PATH="-L$WINE_LIBRARY_ROOT"
else
WINE_LIBRARY_PATH=""
fi
AC_PATH_LIBRARY(LIBNTDLL_PATH,[-lntdll],[$WINE_LIBRARY_PATH -lwine -lwine_unicode -lncurses -ldl -lutil],[
AC_MSG_ERROR([Could not find the Wine libraries (libntdll.so)])
],[$WINE_LIBRARY_ROOT:$WINE_LIBRARY_ROOT/dlls])
if test -n "$LIBNTDLL_PATH" -a "-L$LIBNTDLL_PATH" != "$WINE_LIBRARY_PATH"
then
WINE_LIBRARY_PATH="$WINE_LIBRARY_PATH -L$LIBNTDLL_PATH"
fi
if test -n "$WINE_LIBRARY_PATH"
then
LD_PATH="LD_LIBRARY_PATH=\"`echo $WINE_LIBRARY_PATH | sed -e 's/ *-L/:/g' -e 's/^://' -e 's/ *$//'`:\$\$LD_LIBRARY_PATH\""
fi
if test -z "$WINE_TOOL_PATH"
then
WINE_TOOL_PATH="$PATH:/usr/local/bin:/opt/wine/bin";
fi
AC_PATH_PROG(WINE,wine,,$WINE_TOOL_PATH)
if test -z "$WINE"
then
AC_MSG_ERROR([Could not find Wine's wine tool])
fi
AC_PATH_PROG(WINEBUILD,winebuild,,$WINE_TOOL_PATH)
if test -z "$WINEBUILD"
then
AC_MSG_ERROR([Could not find Wine's winebuild tool])
fi
AC_PATH_PROG(WRC,wrc,,$WINE_TOOL_PATH)
if test -z "$WRC"
then
AC_MSG_ERROR([Could not find Wine's wrc tool])
fi
AC_SUBST(LD_PATH)
AC_SUBST(WINE_INCLUDE_PATH)
AC_SUBST(WINE_LIBRARY_PATH)
dnl **** Try to find where the MFC are located ****
AC_LANG_CPLUSPLUS()
if test "x$NEEDS_MFC" = "x1"
then
ATL_INCLUDE_ROOT="";
ATL_INCLUDE_PATH="";
MFC_INCLUDE_ROOT="";
MFC_INCLUDE_PATH="";
MFC_LIBRARY_ROOT="";
MFC_LIBRARY_PATH="";
AC_ARG_WITH(mfc,
[ --with-mfc=DIR the MFC package (or sources) is in DIR],
[if test "$withval" != "no"; then
MFC_ROOT="$withval";
ATL_INCLUDES="";
MFC_INCLUDES="";
MFC_LIBRARIES="";
else
MFC_ROOT="";
fi])
if test -n "$MFC_ROOT"
then
ATL_INCLUDE_ROOT="$MFC_ROOT";
MFC_INCLUDE_ROOT="$MFC_ROOT";
MFC_LIBRARY_ROOT="$MFC_ROOT";
fi
AC_ARG_WITH(atl-includes,
[ --with-atl-includes=DIR the ATL includes are in DIR],
[if test "$withval" != "no"; then
ATL_INCLUDES="$withval";
else
ATL_INCLUDES="";
fi])
if test -n "$ATL_INCLUDES"
then
ATL_INCLUDE_ROOT="$ATL_INCLUDES";
fi
AC_ARG_WITH(mfc-includes,
[ --with-mfc-includes=DIR the MFC includes are in DIR],
[if test "$withval" != "no"; then
MFC_INCLUDES="$withval";
else
MFC_INCLUDES="";
fi])
if test -n "$MFC_INCLUDES"
then
MFC_INCLUDE_ROOT="$MFC_INCLUDES";
fi
AC_ARG_WITH(mfc-libraries,
[ --with-mfc-libraries=DIR the MFC libraries are in DIR],
[if test "$withval" != "no"; then
MFC_LIBRARIES="$withval";
else
MFC_LIBRARIES="";
fi])
if test -n "$MFC_LIBRARIES"
then
MFC_LIBRARY_ROOT="$MFC_LIBRARIES";
fi
OLDCPPFLAGS="$CPPFLAGS"
dnl FIXME: We should not have defines in any of the include paths
CPPFLAGS="$WINE_INCLUDE_PATH -I$WINE_INCLUDE_ROOT/mixedcrt -D_DLL -D_MT $CPPFLAGS"
ATL_INCLUDE_PATH="-I\$(WINE_INCLUDE_ROOT)/mixedcrt -D_DLL -D_MT"
if test -z "$ATL_INCLUDE_ROOT"
then
ATL_INCLUDE_ROOT=":$WINE_INCLUDE_ROOT/atl:/usr/include/atl:/usr/local/include/atl:/opt/mfc/include/atl:/opt/atl/include"
else
ATL_INCLUDE_ROOT="$ATL_INCLUDE_ROOT:$ATL_INCLUDE_ROOT/atl:$ATL_INCLUDE_ROOT/atl/include"
fi
AC_PATH_HEADER(ATL_INCLUDE_ROOT,atldef.h,[
AC_MSG_ERROR([Could not find the ATL includes])
],$ATL_INCLUDE_ROOT)
if test -n "$ATL_INCLUDE_ROOT"
then
ATL_INCLUDE_PATH="$ATL_INCLUDE_PATH -I$ATL_INCLUDE_ROOT"
fi
MFC_INCLUDE_PATH="$ATL_INCLUDE_PATH"
if test -z "$MFC_INCLUDE_ROOT"
then
MFC_INCLUDE_ROOT=":$WINE_INCLUDE_ROOT/mfc:/usr/include/mfc:/usr/local/include/mfc:/opt/mfc/include/mfc:/opt/mfc/include"
else
MFC_INCLUDE_ROOT="$MFC_INCLUDE_ROOT:$MFC_INCLUDE_ROOT/mfc:$MFC_INCLUDE_ROOT/mfc/include"
fi
AC_PATH_HEADER(MFC_INCLUDE_ROOT,afx.h,[
AC_MSG_ERROR([Could not find the MFC includes])
],$MFC_INCLUDE_ROOT)
if test -n "$MFC_INCLUDE_ROOT" -a "$ATL_INCLUDE_ROOT" != "$MFC_INCLUDE_ROOT"
then
MFC_INCLUDE_PATH="$MFC_INCLUDE_PATH -I$MFC_INCLUDE_ROOT"
fi
CPPFLAGS="$OLDCPPFLAGS"
if test -z "$MFC_LIBRARY_ROOT"
then
MFC_LIBRARY_ROOT=":$WINE_LIBRARY_ROOT:/usr/lib/mfc:/usr/local/lib:/usr/local/lib/mfc:/opt/mfc/lib";
else
MFC_LIBRARY_ROOT="$MFC_LIBRARY_ROOT:$MFC_LIBRARY_ROOT/lib:$MFC_LIBRARY_ROOT/mfc/src";
fi
AC_PATH_LIBRARY(MFC_LIBRARY_ROOT,[-lmfc],[$WINE_LIBRARY_PATH -lwine -lwine_unicode],[
AC_MSG_ERROR([Could not find the MFC library])
],$MFC_LIBRARY_ROOT)
if test -n "$MFC_LIBRARY_ROOT" -a "$MFC_LIBRARY_ROOT" != "$WINE_LIBRARY_ROOT"
then
MFC_LIBRARY_PATH="-L$MFC_LIBRARY_ROOT"
else
MFC_LIBRARY_PATH=""
fi
AC_SUBST(ATL_INCLUDE_PATH)
AC_SUBST(MFC_INCLUDE_PATH)
AC_SUBST(MFC_LIBRARY_PATH)
fi
AC_LANG_C()
dnl **** Generate output files ****
MAKE_RULES=Make.rules
AC_SUBST_FILE(MAKE_RULES)
AC_OUTPUT([
Make.rules
##WINEMAKER_PROJECTS##
])
echo
echo "Configure finished. Do 'make' to build the project."
echo
dnl Local Variables:
dnl comment-start: "dnl "
dnl comment-end: ""
dnl comment-start-skip: "\\bdnl\\b\\s *"
dnl compile-command: "autoconf"
dnl End:
--- Make.rules.in ---
# Copyright 2000 Francois Gouget for CodeWeavers
# fgouget@codeweavers.com
#
# Global rules shared by all makefiles -*-Makefile-*-
#
# Each individual makefile must define the following variables:
# WINE_INCLUDE_ROOT: Wine's headers location
# WINE_LIBRARY_ROOT: Wine's libraries location
# TOPOBJDIR : top-level object directory
# SRCDIR : source directory for this module
#
# Each individual makefile may define the following additional variables:
#
# SUBDIRS : subdirectories that contain a Makefile
# DLLS : WineLib libraries to be built
# EXES : WineLib executables to be built
#
# CEXTRA : extra c flags (e.g. '-Wall')
# CXXEXTRA : extra c++ flags (e.g. '-Wall')
# WRCEXTRA : extra wrc flags (e.g. '-p _SysRes')
# DEFINES : defines (e.g. -DSTRICT)
# INCLUDE_PATH : additional include path
# LIBRARY_PATH : additional library path
# LIBRARIES : additional Unix libraries to link with
#
# C_SRCS : C sources for the module
# CXX_SRCS : C++ sources for the module
# RC_SRCS : resource source files
# SPEC_SRCS : interface definition files
# Where is Wine
WINE_INCLUDE_ROOT = @WINE_INCLUDE_ROOT@
WINE_INCLUDE_PATH = @WINE_INCLUDE_PATH@
WINE_LIBRARY_ROOT = @WINE_LIBRARY_ROOT@
WINE_LIBRARY_PATH = @WINE_LIBRARY_PATH@
LD_PATH = @LD_PATH@
# Where are the MFC
ATL_INCLUDE_ROOT = @ATL_INCLUDE_ROOT@
ATL_INCLUDE_PATH = @ATL_INCLUDE_PATH@
MFC_INCLUDE_ROOT = @MFC_INCLUDE_ROOT@
MFC_INCLUDE_PATH = @MFC_INCLUDE_PATH@
MFC_LIBRARY_ROOT = @MFC_LIBRARY_ROOT@
MFC_LIBRARY_PATH = @MFC_LIBRARY_PATH@
# First some useful definitions
SHELL = /bin/sh
CC = @CC@
CPP = @CPP@
WRC = @WRC@
CFLAGS = @CFLAGS@
CXXFLAGS = @CXXFLAGS@
WRCFLAGS = -r -L
OPTIONS = @OPTIONS@ -D_REENTRANT -DWINELIB
X_CFLAGS = @X_CFLAGS@
X_LIBS = @X_LIBS@
XLIB = @X_PRE_LIBS@ @XLIB@ @X_EXTRA_LIBS@
DLL_LINK = @DLL_LINK@
LIBS = @LIBS@ $(LIBRARY_PATH)
YACC = @YACC@
LEX = @LEX@
LEXLIB = @LEXLIB@
LN_S = @LN_S@
ALLFLAGS = $(DEFINES) -I$(SRCDIR) $(WINE_INCLUDE_PATH) $(INCLUDE_PATH)
ALLCFLAGS = $(CFLAGS) $(CEXTRA) $(OPTIONS) $(X_CFLAGS) $(ALLFLAGS)
ALLCXXFLAGS=$(CXXFLAGS) $(CXXEXTRA) $(OPTIONS) $(X_CFLAGS) $(ALLFLAGS)
ALLWRCFLAGS=$(WRCFLAGS) $(WRCEXTRA) $(OPTIONS) $(ALLFLAGS)
LDCOMBINE = ld -r
LDSHARED = @LDSHARED@
LDXXSHARED= @LDXXSHARED@
LDDLLFLAGS= @LDDLLFLAGS@
STRIP = strip
STRIPFLAGS= --strip-unneeded
RM = rm -f
MV = mv
MKDIR = mkdir -p
WINE = @WINE@
WINEBUILD = @WINEBUILD@
@SET_MAKE@
# Installation infos
INSTALL = @INSTALL@
INSTALL_PROGRAM = @INSTALL_PROGRAM@
INSTALL_DATA = @INSTALL_DATA@
prefix = @prefix@
exec_prefix = @exec_prefix@
bindir = @bindir@
libdir = @libdir@
infodir = @infodir@
mandir = @mandir@
prog_manext = 1
conf_manext = 5
OBJS = $(C_SRCS:.c=.o) $(CXX_SRCS:.cpp=.o) \
$(SPEC_SRCS:.spec=.spec.o)
CLEAN_FILES = *.spec.c y.tab.c y.tab.h lex.yy.c \
core *.orig *.rej \
\\\#*\\\# *~ *% .\\\#*
# Implicit rules
.SUFFIXES: .cpp .rc .res .tmp.o .spec .spec.c .spec.o
.c.o:
$(CC) -c $(ALLCFLAGS) -o $@ $<
.cpp.o:
$(CXX) -c $(ALLCXXFLAGS) -o $@ $<
.cxx.o:
$(CXX) -c $(ALLCXXFLAGS) -o $@ $<
.rc.res:
$(LD_PATH) $(WRC) $(ALLWRCFLAGS) -o $@ $<
.PHONY: all install uninstall clean distclean depend dummy
# 'all' target first in case the enclosing Makefile didn't define any target
all: Makefile
# Rules for makefile
Makefile: Makefile.in $(TOPSRCDIR)/configure
@echo Makefile is older than $?, please rerun $(TOPSRCDIR)/configure
@exit 1
# Rules for cleaning
$(SUBDIRS:%=%/__clean__): dummy
cd `dirname $@` && $(MAKE) clean
$(EXTRASUBDIRS:%=%/__clean__): dummy
-cd `dirname $@` && $(RM) $(CLEAN_FILES)
clean:: $(SUBDIRS:%=%/__clean__) $(EXTRASUBDIRS:%=%/__clean__)
$(RM) $(CLEAN_FILES) $(RC_SRCS:.rc=.res) $(OBJS) $(SPEC_SRCS:.spec=.tmp.o) $(EXES) $(EXES:%=%.so) $(DLLS)
# Rules for installing
$(SUBDIRS:%=%/__install__): dummy
cd `dirname $@` && $(MAKE) install
$(SUBDIRS:%=%/__uninstall__): dummy
cd `dirname $@` && $(MAKE) uninstall
# Misc. rules
$(SUBDIRS): dummy
@cd $@ && $(MAKE)
dummy:
# End of global rules
--- wrapper.c ---
/*
* Copyright 2000 Francois Gouget <fgouget@codeweavers.com> for CodeWeavers
*/
#include <dlfcn.h>
#include <windows.h>
/*
* Describe the wrapped application
*/
/**
* This is either CUIEXE for a console based application or
* GUIEXE for a regular windows application.
*/
#define APP_TYPE ##WINEMAKER_APP_TYPE##
/**
* This is the application library's base name, i.e. 'hello' if the
* library is called 'libhello.so'.
*/
static char* appName = ##WINEMAKER_APP_NAME##;
/**
* This is the name of the application's Windows module. If left NULL
* then appName is used.
*/
static char* appModule = NULL;
/**
* This is the application's entry point. This is usually "WinMain" for a
* GUIEXE and 'main' for a CUIEXE application.
*/
static char* appInit = ##WINEMAKER_APP_INIT##;
/**
* This is either non-NULL for MFC-based applications and is the name of the
* MFC's module. This is the module in which we will take the 'WinMain'
* function.
*/
static char* mfcModule = ##WINEMAKER_APP_MFC##;
/*
* Implement the main.
*/
#if APP_TYPE == GUIEXE
typedef int WINAPI (*WinMainFunc)(HINSTANCE hInstance, HINSTANCE hPrevInstance,
PSTR szCmdLine, int iCmdShow);
#else
typedef int WINAPI (*MainFunc)(int argc, char** argv, char** envp);
#endif
#if APP_TYPE == GUIEXE
int WINAPI WinMain(HINSTANCE hInstance, HINSTANCE hPrevInstance,
PSTR szCmdLine, int iCmdShow)
#else
int WINAPI Main(int argc, char** argv, char** envp)
#endif
{
void* appLibrary;
HINSTANCE hApp,hMFC,hMain;
void* appMain;
char* libName;
int retcode;
/* Load the application's library */
libName=(char*)malloc(strlen(appName)+5+3+1);
/* FIXME: we should get the wrapper's path and use that as the base for
* the library
*/
sprintf(libName,"./lib%s.so",appName);
appLibrary=dlopen(libName,RTLD_NOW);
if (appLibrary==NULL) {
sprintf(libName,"lib%s.so",appName);
appLibrary=dlopen(libName,RTLD_NOW);
}
if (appLibrary==NULL) {
char format[]="Could not load the %s library:\r\n%s";
char* error;
char* msg;
error=dlerror();
msg=(char*)malloc(strlen(format)+strlen(libName)+strlen(error));
sprintf(msg,format,libName,error);
MessageBox(NULL,msg,"dlopen error",MB_OK);
free(msg);
return 1;
}
/* Then if this application is MFC based, load the MFC module */
/* FIXME: I'm not sure this is really necessary */
if (mfcModule!=NULL) {
hMFC=LoadLibrary(mfcModule);
if (hMFC==NULL) {
char format[]="Could not load the MFC module %s (%d)";
char* msg;
msg=(char*)malloc(strlen(format)+strlen(mfcModule)+11);
sprintf(msg,format,mfcModule,GetLastError());
MessageBox(NULL,msg,"LoadLibrary error",MB_OK);
free(msg);
return 1;
}
/* MFC is a special case: the WinMain is in the MFC library,
* instead of the application's library.
*/
hMain=hMFC;
} else {
hMFC=NULL;
}
/* Load the application's module */
if (appModule==NULL) {
appModule=appName;
}
hApp=LoadLibrary(appModule);
if (hApp==NULL) {
char format[]="Could not load the application's module %s (%d)";
char* msg;
msg=(char*)malloc(strlen(format)+strlen(appModule)+11);
sprintf(msg,format,appModule,GetLastError());
MessageBox(NULL,msg,"LoadLibrary error",MB_OK);
free(msg);
return 1;
} else if (hMain==NULL) {
hMain=hApp;
}
/* Get the address of the application's entry point */
appMain=(WinMainFunc*)GetProcAddress(hMain, appInit);
if (appMain==NULL) {
char format[]="Could not get the address of %s (%d)";
char* msg;
msg=(char*)malloc(strlen(format)+strlen(appInit)+11);
sprintf(msg,format,appInit,GetLastError());
MessageBox(NULL,msg,"GetProcAddress error",MB_OK);
free(msg);
return 1;
}
/* And finally invoke the application's entry point */
#if APP_TYPE == GUIEXE
retcode=(*((WinMainFunc)appMain))(hApp,hPrevInstance,szCmdLine,iCmdShow);
#else
retcode=(*((MainFunc)appMain))(argc,argv,envp);
#endif
/* Cleanup and done */
FreeLibrary(hApp);
if (hMFC!=NULL) {
FreeLibrary(hMFC);
}
dlclose(appLibrary);
free(libName);
return retcode;
}