wine/tools/winemaker
Francois Gouget a6eecca9cf Only 'fix' the names of source files and directories (this way
documentation files are unharmed).
Better handle Makefiles generated by Winemaker. In particular, don't
rename them to makefile.win!
2005-02-21 18:29:44 +00:00

1949 lines
58 KiB
Perl
Executable File

#!/usr/bin/perl -w
use strict;
# Copyright 2000-2004 Francois Gouget for CodeWeavers
# Copyright 2004 Dimitrie O. Paun
#
# This library is free software; you can redistribute it and/or
# modify it under the terms of the GNU Lesser General Public
# License as published by the Free Software Foundation; either
# version 2.1 of the License, or (at your option) any later version.
#
# This library is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
# Lesser General Public License for more details.
#
# You should have received a copy of the GNU Lesser General Public
# License along with this library; if not, write to the Free Software
# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
#
my $version="0.6.0";
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;
##
# If true then winemaker should not attempt to fix the source. This is
# useful if the source is known to be already in a suitable form and is
# readonly
my $opt_no_source_fix;
# 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 the makefiles.
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;
##
# This is a bitfield containing flags refining the way the target
# should be handled. See the TF_xxx constants below
my $T_FLAGS=2;
##
# 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=3;
my $T_SOURCES_CXX=4;
my $T_SOURCES_RC=5;
my $T_SOURCES_MISC=6;
##
# This is a reference to an array containing the list of
# C compiler options
my $T_CEXTRA=7;
##
# This is a reference to an array containing the list of
# C++ compiler options
my $T_CXXEXTRA=8;
##
# This is a reference to an array containing the list of
# RC compiler options
my $T_RCEXTRA=9;
##
# This is a reference to an array containing the list of macro
# definitions
my $T_DEFINES=10;
##
# This is a reference to an array containing the list of directory
# names that constitute the include path
my $T_INCLUDE_PATH=11;
##
# Flags for the linker
my $T_LDFLAGS=12;
##
# Same as T_INCLUDE_PATH but for the dll search path
my $T_DLL_PATH=13;
##
# The list of Windows dlls to import
my $T_DLLS=14;
##
# Same as T_INCLUDE_PATH but for the library search path
my $T_LIBRARY_PATH=15;
##
# The list of Unix libraries to link with
my $T_LIBRARIES=16;
##
# The list of dependencies between targets
my $T_DEPENDS=17;
# 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 is an MFC-based target
my $TF_MFC=4;
##
# User has specified --nomfc option for this target or globally
my $TF_NOMFC=8;
##
# --nodlls option: Do not use standard DLL set
my $TF_NODLLS=16;
##
# --nomsvcrt option: Do not link with msvcrt
my $TF_NOMSVCRT=32;
##
# Initialize a target:
# - set the target type to TT_SETTINGS, i.e. no real target will
# be generated.
sub target_init($)
{
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_CEXTRA]=[];
@$target[$T_CXXEXTRA]=[];
@$target[$T_RCEXTRA]=[];
@$target[$T_DEFINES]=[];
@$target[$T_INCLUDE_PATH]=[];
@$target[$T_LDFLAGS]=[];
@$target[$T_DLL_PATH]=[];
@$target[$T_DLLS]=[];
@$target[$T_LIBRARY_PATH]=[];
@$target[$T_LIBRARIES]=[];
}
#####
#
# 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($$)
{
my $project=$_[0];
my $path=$_[1];
my $project_settings=[];
target_init($project_settings);
@$project[$P_PATH]=$path;
@$project[$P_SETTINGS]=$project_settings;
@$project[$P_TARGETS]=[];
}
#####
#
# Global variables
#
#####
my %warnings;
my %templates;
##
# This maps a directory name to a reference to an array listing
# its contents (files and directories)
my %directories;
##
# Contains the list of all projects. This list tells us what are
# the subprojects of the main Makefile and where we have to generate
# Makefiles.
my @projects=();
##
# This is the main project, i.e. the one in the "." directory.
# It may well be empty in which case the main Makefile will only
# call out subprojects.
my @main_project;
##
# Contains the defaults for the include path, etc.
# We store the defaults as if this were a target except that we only
# exploit the defines, include path, library path, library list and misc
# sources fields.
my @global_settings;
#####
#
# Utility functions
#
#####
##
# Cleans up a name to make it an acceptable Makefile
# variable name.
sub canonize($)
{
my $name=$_[0];
$name =~ tr/a-zA-Z0-9_/_/c;
return $name;
}
##
# Returns true is the specified pathname is absolute.
# Note: pathnames that start with a variable '$' or
# '~' are considered absolute.
sub is_absolute($)
{
my $path=$_[0];
return ($path =~ /^[\/~\$]/);
}
##
# Performs a binary search looking for the specified item
sub bsearch($$)
{
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 $index;
}
}
}
##
# Retrieves the contents of the specified directory.
# We either get it from the directories hashtable which acts as a
# cache, or use opendir, readdir, closedir and store the result
# in the hashtable.
sub get_directory_contents($)
{
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;
}
#####
#
# '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($$)
{
my $target=$_[0];
my $options=$_[1];
#FIXME: we must deal with escaping of stuff and all
foreach my $option (split / /,$options) {
if (@$target[$T_TYPE] == $TT_SETTINGS and $option =~ /^-D/) {
push @{@$target[$T_DEFINES]},$option;
} elsif (@$target[$T_TYPE] == $TT_SETTINGS and $option =~ /^-I/) {
push @{@$target[$T_INCLUDE_PATH]},$option;
} elsif ($option =~ /^-P/) {
push @{@$target[$T_DLL_PATH]},"-L$'";
} elsif ($option =~ /^-i/) {
push @{@$target[$T_DLLS]},"$'";
} elsif ($option =~ /^-L/) {
push @{@$target[$T_LIBRARY_PATH]},$option;
} elsif ($option =~ /^-l/) {
push @{@$target[$T_LIBRARIES]},"$'";
} elsif ($option =~ /^--mfc/) {
@$target[$T_FLAGS]|=$TF_MFC;
@$target[$T_FLAGS]&=~$TF_NOMFC;
} elsif ($option =~ /^--nomfc/) {
@$target[$T_FLAGS]&=~$TF_MFC;
@$target[$T_FLAGS]|=$TF_NOMFC;
} elsif ($option =~ /^--nodlls/) {
@$target[$T_FLAGS]|=$TF_NODLLS;
} elsif ($option =~ /^--nomsvcrt/) {
@$target[$T_FLAGS]|=$TF_NOMSVCRT;
} else {
print STDERR "error: unknown option \"$option\"\n";
return 0;
}
}
return 1;
}
##
# Scans the specified directory to:
# - see if we should create a Makefile in this directory. We normally do
# so if we find a project file and sources
# - get a list of targets for this directory
# - get the list of source files
sub source_scan_directory($$$$);
sub source_scan_directory($$$$)
{
# 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;
# true if this directory contains headers
my $has_headers=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 my $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 my $candidate (@candidates) {
$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 =~ /\.(exe|dll)$/i) {
$targets{$dentry}=1;
} elsif ($dentry =~ /\.c$/i and $dentry !~ /\.(dbg|spec)\.c$/) {
push @sources_c,"$dentry";
} elsif ($dentry =~ /\.(cpp|cxx)$/i) {
if ($dentry =~ /^stdafx.cpp$/i && !(@$project_settings[$T_FLAGS] & $TF_NOMFC)) {
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) {
$has_headers=1;
push @sources_misc,"$dentry";
if ($dentry =~ /^stdafx.h$/i && !(@$project_settings[$T_FLAGS] & $TF_NOMFC)) {
@$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 ($has_headers) {
push @{@$project_settings[$T_INCLUDE_PATH]},"-I.";
}
# 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 my $filename (@$prj_list) {
$filename =~ s/\.(dsp|mak)$//i;
if ($opt_target_type == $TT_DLL) {
$filename = "$filename.dll";
}
$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 = "$name.dll";
} else {
$name = "$name.exe";
}
$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 my $target (split /,/,$target_list) {
$target =~ s+^\s*++;
$target =~ s+\s*$++;
$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";
}
print "* Type any project-wide options (-D/-I/-P/-i/-L/-l/--mfc),\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_dlls=();
my @local_depends=();
my @exe_list=();
foreach my $target_name (map (lc, (sort { $b cmp $a } keys %targets))) {
# Create the target...
my $target=[];
target_init($target);
@$target[$T_NAME]=$target_name;
@$target[$T_FLAGS]|=@$project_settings[$T_FLAGS];
if ($target_name =~ /\.dll$/) {
@$target[$T_TYPE]=$TT_DLL;
push @local_depends,"$target_name.so";
push @local_dlls,$target_name;
my $canon=canonize($target_name);
push @{@$target[$T_LDFLAGS]},("-shared","\$(${canon}_MODULE:%=%.spec)");
} else {
@$target[$T_TYPE]=$opt_target_type;
push @exe_list,$target;
push @{@$target[$T_LDFLAGS]},(@$target[$T_TYPE] == $TT_CUIEXE ? "-mconsole" : "-mwindows");
}
my $basename=$target_name;
$basename=~ s/\.(dll|exe)$//i;
# This is the default link list of Visual Studio, except odbccp32
# which we don't have in Wine.
my @std_imports=qw(odbc32 ole32 oleaut32 winspool);
my @std_libraries=qw(uuid);
if ((@$target[$T_FLAGS] & $TF_NODLLS) == 0) {
@$target[$T_DLLS]=\@std_imports;
@$target[$T_LIBRARIES]=\@std_libraries;
} else {
@$target[$T_DLLS]=[];
@$target[$T_LIBRARIES]=[];
}
if ((@$target[$T_FLAGS] & $TF_NOMSVCRT) == 0) {
push @{@$target[$T_LDFLAGS]},"-mno-cygwin";
}
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 ($flag_desc ne "") {
$flag_desc.=")";
}
print "* Specify any link option (-P/-i/-L/-l/--mfc) 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_DLL_PATH]},"\$(MFC_LIBRARY_PATH)";
push @{@$target[$T_DLLS]},"mfc.dll";
# FIXME: Link with the MFC in the Unix sense, until we
# start exporting the functions properly.
push @{@$target[$T_LIBRARY_PATH]},"\$(MFC_LIBRARY_PATH)";
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 my $source (@sources_c) {
if ($source =~ /^$basename/i) {
push @{@$target[$T_SOURCES_C]},$source;
$source="";
}
}
foreach my $source (@sources_cxx) {
if ($source =~ /^$basename/i) {
push @{@$target[$T_SOURCES_CXX]},$source;
$source="";
}
}
foreach my $source (@sources_rc) {
if ($source =~ /^$basename/i) {
push @{@$target[$T_SOURCES_RC]},$source;
$source="";
}
}
foreach my $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_NOMSVCRT) == 0) {
push @{@$project_settings[$T_CEXTRA]},"-mno-cygwin";
push @{@$project_settings[$T_CXXEXTRA]},"-mno-cygwin";
}
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 my $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 my $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 my $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 my $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_dlls > 0 and @exe_list > 0) {
foreach my $target (@exe_list) {
push @{@$target[$T_DLL_PATH]},"-L.";
push @{@$target[$T_DLLS]},@local_dlls;
}
}
}
##
# 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);
@$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;
}
#####
#
# 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 ' ', '$', '#', ...
# But only perform these changes for source files and directories.
sub fix_file_and_directory_names($);
sub fix_file_and_directory_names($)
{
my $dirname=$_[0];
if (opendir(DIRECTORY, "$dirname")) {
foreach my $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;
my $new_name=$dentry;
if (-f "$dirname/$dentry")
{
# Don't rename Winemaker's makefiles
next if ($dentry eq "Makefile" and
`head -n 1 "$dirname/$dentry"` =~ /Generated by Winemaker/);
# Leave non-source files alone
next if ($new_name !~ /(^makefile|\.(c|cpp|h|rc))$/i);
# Only all lowercase extensions are supported (because of
# rules like '.c.o:'.
$new_name =~ s/\.C$/.c/;
$new_name =~ s/\.cpp$/.cpp/i;
$warn=1 if ($new_name =~ s/\.cxx$/.cpp/i);
$new_name =~ s/\.rc$/.rc/i;
# And this last one is to avoid confusion then running make
$warn=1 if ($new_name =~ s/^makefile$/makefile.win/i);
}
# 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;
}
# autoconf and make don't support these characters well
$new_name =~ s/[ \$]/_/g;
# 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
#
#####
##
# 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 my $component (@$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 my $dentry (@$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 my $include (@{@$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 my $include (@{$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 $rc_textinclude_state=0;
my @pack_stack;
while (<FILEI>) {
# Remove any trailing CtrlZ, which isn't strictly in the file
if (/\x1A/) {
s/\x1A//;
last if (/^$/)
}
$line++;
s/\r\n$/\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 my $project (@projects) {
foreach my $target (@$project[$P_SETTINGS],@{@$project[$P_TARGETS]}) {
foreach my $source (@{@$target[$T_SOURCES_C]}, @{@$target[$T_SOURCES_CXX]}, @{@$target[$T_SOURCES_RC]}, @{@$target[$T_SOURCES_MISC]}) {
fix_file($source,$project,$target);
}
}
}
}
#####
#
# File generation
#
#####
##
# 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 my $item (@$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 ($last) {
print FILEO "\n";
}
}
##
# Generates a project's Makefile and all the target files
sub generate_project_files($)
{
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 my $target (sort { @$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[$P_PATH]Makefile")) {
print STDERR "error: could not open \"@$project[$P_PATH]/Makefile\" for writing\n";
print STDERR " $!\n";
return;
}
print FILEO "### Generated by Winemaker\n";
print FILEO "\n\n";
generate_list("SRCDIR",1,[ "." ]);
if (@$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]}[$T_NAME]";
});
print FILEO "\n\n\n";
print FILEO "### Common settings\n\n";
# Make it so that the project-wide settings override the global settings
generate_list("CEXTRA",1,@$project_settings[$T_CEXTRA]);
generate_list("CXXEXTRA",1,@$project_settings[$T_CXXEXTRA]);
generate_list("RCEXTRA",1,@$project_settings[$T_RCEXTRA]);
generate_list("INCLUDE_PATH",1,@$project_settings[$T_INCLUDE_PATH]);
generate_list("DLL_PATH",1,@$project_settings[$T_DLL_PATH]);
generate_list("LIBRARY_PATH",1,@$project_settings[$T_LIBRARY_PATH]);
generate_list("LIBRARIES",1,@$project_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 my $target (@{@$project[$P_TARGETS]}) {
print FILEO "### @$target[$T_NAME] sources and settings\n\n";
my $canon=canonize("@$target[$T_NAME]");
$canon =~ s+_so$++;
generate_list("${canon}_MODULE",1,[@$target[$T_NAME]]);
generate_list("${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]);
generate_list("${canon}_LDFLAGS",1,@$target[$T_LDFLAGS]);
generate_list("${canon}_DLL_PATH",1,@$target[$T_DLL_PATH]);
generate_list("${canon}_DLLS",1,@$target[$T_DLLS]);
generate_list("${canon}_LIBRARY_PATH",1,@$target[$T_LIBRARY_PATH]);
generate_list("${canon}_LIBRARIES",1,@$target[$T_LIBRARIES]);
print FILEO "\n";
generate_list("${canon}_OBJS",1,["\$(${canon}_C_SRCS:.c=.o)","\$(${canon}_CXX_SRCS:.cpp=.o)","\$(${canon}_RC_SRCS:.rc=.res)"]);
print FILEO "\n\n\n";
}
print FILEO "### Global source lists\n\n";
generate_list("C_SRCS",$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)" ]);
}
}
print FILEO "\n\n";
print FILEO "### Tools\n\n";
print FILEO "CC = winegcc\n";
print FILEO "CXX = wineg++\n";
print FILEO "RC = wrc\n";
print FILEO "WINEBUILD = winebuild\n";
print FILEO "\n\n";
print FILEO "### Generic targets\n\n";
print FILEO "all:";
if (@$project[$P_PATH] eq "") {
print FILEO " \$(SUBDIRS)";
}
if (@{@$project[$P_TARGETS]} > 0) {
print FILEO " \$(DLLS:%=%.so) \$(EXES:%=%.so)";
}
print FILEO "\n\n";
print FILEO "### Build rules\n";
print FILEO "\n";
print FILEO ".PHONY: all clean dummy\n";
print FILEO "\n";
print FILEO "\$(SUBDIRS): dummy\n";
print FILEO "\t\@cd \$\@ && \$(MAKE)\n";
print FILEO "\n";
print FILEO "# Implicit rules\n";
print FILEO "\n";
print FILEO ".SUFFIXES: .cpp .rc .res\n";
print FILEO "DEFINCL = \$(INCLUDE_PATH) \$(DEFINES) \$(OPTIONS)\n";
print FILEO "\n";
print FILEO ".c.o:\n";
print FILEO "\t\$(CC) -c \$(CFLAGS) \$(CEXTRA) \$(DEFINCL) -o \$\@ \$<\n";
print FILEO "\n";
print FILEO ".cpp.o:\n";
print FILEO "\t\$(CXX) -c \$(CXXFLAGS) \$(CXXEXTRA) \$(DEFINCL) -o \$\@ \$<\n";
print FILEO "\n";
print FILEO ".cxx.o:\n";
print FILEO "\t\$(CXX) -c \$(CXXFLAGS) \$(CXXEXTRA) \$(DEFINCL) -o \$\@ \$<\n";
print FILEO "\n";
print FILEO ".rc.res:\n";
print FILEO "\t\$(RC) \$(RCFLAGS) \$(RCEXTRA) \$(DEFINCL) -fo\$@ \$<\n";
print FILEO "\n";
print FILEO "# Rules for cleaning\n";
print FILEO "\n";
print FILEO "CLEAN_FILES = *.dbg.c y.tab.c y.tab.h lex.yy.c \\\n";
print FILEO " core *.orig *.rej \\\n";
print FILEO " \\\\\\#*\\\\\\# *~ *% .\\\\\\#*\n";
print FILEO "\n";
print FILEO "clean:: \$(SUBDIRS:%=%/__clean__) \$(EXTRASUBDIRS:%=%/__clean__)\n";
print FILEO "\t\$(RM) \$(CLEAN_FILES) \$(RC_SRCS:.rc=.res) \$(C_SRCS:.c=.o) \$(CXX_SRCS:.cpp=.o)\n";
print FILEO "\t\$(RM) \$(DLLS:%=%.dbg.o) \$(DLLS:%=%.so)\n";
print FILEO "\t\$(RM) \$(EXES:%=%.dbg.o) \$(EXES:%=%.so) \$(EXES:%.exe=%)\n";
print FILEO "\n";
print FILEO "\$(SUBDIRS:%=%/__clean__): dummy\n";
print FILEO "\tcd `dirname \$\@` && \$(MAKE) clean\n";
print FILEO "\n";
print FILEO "\$(EXTRASUBDIRS:%=%/__clean__): dummy\n";
print FILEO "\t-cd `dirname \$\@` && \$(RM) \$(CLEAN_FILES)\n";
print FILEO "\n";
if (@{@$project[$P_TARGETS]} > 0) {
print FILEO "### Target specific build rules\n";
print FILEO "DEFLIB = \$(LIBRARY_PATH) \$(LIBRARIES) \$(DLL_PATH)\n\n";
foreach my $target (@{@$project[$P_TARGETS]}) {
my $canon=canonize("@$target[$T_NAME]");
$canon =~ s/_so$//;
print FILEO "\$(${canon}_MODULE).dbg.c: \$(${canon}_C_SRCS) \$(${canon}_CXX_SRCS)\n";
print FILEO "\t\$(WINEBUILD) -o \$\@ --debug -C\$(SRCDIR) \$(${canon}_C_SRCS) \$(${canon}_CXX_SRCS)\n";
print FILEO "\n";
print FILEO "\$(${canon}_MODULE).so: \$(${canon}_MODULE).dbg.o \$(${canon}_OBJS)\n";
if (@{@$target[$T_SOURCES_CXX]} > 0 or @{@$project_settings[$T_SOURCES_CXX]} > 0) {
print FILEO "\t\$(CXX)";
} else {
print FILEO "\t\$(CC)";
}
print FILEO " \$(${canon}_LDFLAGS) -o \$\@ \$(${canon}_OBJS) \$(${canon}_MODULE).dbg.o \$(${canon}_LIBRARY_PATH) \$(DEFLIB) \$(${canon}_DLLS:%=-l%) \$(${canon}_LIBRARIES:%=-l%)\n";
print FILEO "\n\n";
}
}
close(FILEO);
}
##
# 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";
foreach my $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=undef;
$opt_single_target=undef;
$opt_target_type=$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_source_fix=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] [--nosource-fix]\n";
print STDERR " [--lower-none|--lower-all|--lower-uppercase]\n";
print STDERR " [--lower-include|--nolower-include] [--mfc|--nomfc]\n";
print STDERR " [--guiexe|--windows|--cuiexe|--console|--dll]\n";
print STDERR " [-Dmacro[=defn]] [-Idir] [-Pdir] [-idll] [-Ldir] [-llibrary]\n";
print STDERR " [--nodlls] [--nomsvcrt] [--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);
}
target_init(\@global_settings);
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 "--nosource-fix") {
$opt_no_source_fix=1;
} elsif ($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 =~ /^-P/) {
push @{$global_settings[$T_DLL_PATH]},"-L$'";
} elsif ($arg =~ /^-i/) {
push @{$global_settings[$T_DLLS]},$';
} elsif ($arg =~ /^-L/) {
push @{$global_settings[$T_LIBRARY_PATH]},$arg;
} elsif ($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 "--mfc") {
$opt_flags|=$TF_MFC;
} elsif ($arg eq "--nomfc") {
$opt_flags&=~$TF_MFC;
$opt_flags|=$TF_NOMFC;
} elsif ($arg eq "--nodlls") {
$opt_flags|=$TF_NODLLS;
} elsif ($arg eq "--nomsvcrt") {
$opt_flags|=$TF_NOMSVCRT;
# 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();
}
project_init(\@main_project,"");
# Fix the file and directory names
fix_file_and_directory_names(".");
# Scan the sources to identify the projects and targets
source_scan();
# Fix the source files
if (! $opt_no_source_fix) {
fix_source();
}
# Generate the Makefile and the spec file
if (! $opt_no_generated_files) {
generate();
}