Solving incorrect handling when processing ExportName=SymbolName@Ordinal syntax.
# Copyright (c) 2001-2009 Nokia Corporation and/or its subsidiary(-ies).
# All rights reserved.
# This component and the accompanying materials are made available
# under the terms of "Eclipse Public License v1.0"
# which accompanies this distribution, and is available
# at the URL "http://www.eclipse.org/legal/epl-v10.html".
#
# Initial Contributors:
# Nokia Corporation - initial contribution.
#
# Contributors:
#
# Description:
#
package Cl_codewarrior;
# declare variables global for module
my @Win32LibList=();
my $Win32StdHeaders;
my $BaseAddressFlag;
my $Win32Resrc;
my $MWCC;
my $MWLD;
my $MWIncludePath;
my $MWIncludeVar;
my $CWVersion;
my $CWVersionReadable;
my $CWBuildNum;
my $CWRuntimeLibs="";
require Exporter;
@ISA=qw(Exporter);
@EXPORT=qw(
PMHelp_Mmp
PMCheckPlatformL
PMPlatProcessMmp
PMPlatCheckSource
PMStartBldList
PMBld
PMStartSrcList
PMBitMapBld
PMResrcBld
PMAifBld
PMStartSrc
PMSrcDepend
PMSrcBldDepend
PMEndSrcBld
PMEndSrc
PMEndSrcList
);
use Winutl;
use cl_generic;
use E32Variant;
my $NamedSymLkup = 0;
my $stdcpp_tag_file = 'tag_coff';
my $stdcpp_tag_path = '$(EPOCROOT)epoc32\tools\tag';
sub RoundUp1k($) {
# Accept C hexadecimal number (0xNNN). Convert argument to Kb
# rounded up to the next 1kb boundary.
use integer;
return (hex($_[0]) + 1023) / 1024;
}
sub PMHelp_Mmp {
&Winutl_Help_Mmp;
}
sub SysTrg () {
return 1 if &main::SystemTrg;
my $ExportLibrary=&main::ExportLibrary;
return 1 if ($ExportLibrary =~ /EKERN/i);
my $Trg=&main::Trg;
return 1 if ($Trg =~ /KSRT/i);
return 0;
}
sub PMCheckPlatformL {
my $IsProxyWrapperOption=&main::ProxyWrapperOption();
# check version of CodeWarrior for Symbian OS
if (defined($ENV{MWCSym2Includes})) {
$MWCC = "mwccsym2.exe";
$MWLD = "mwldsym2.exe";
}
if (!defined($MWCC) && defined($ENV{MWSym2Libraries})) {
$MWCC = "mwccsym2.exe";
$MWLD = "mwldsym2.exe";
}
if (!defined($MWCC) && defined($ENV{CWFolder})) {
$MWCC = "mwcc.exe";
$MWLD = "mwld.exe";
}
if (!defined($MWCC)) {
die "ERROR: Unable to identify a valid CodeWarrior for Symbian OS installation\n";
}
# determine default include path
$MWIncludeVar = 'MWCIncludes'; # default, even if it doesn't exist
$MWIncludePath = ''; # default is empty
foreach my $var ('MWCSym2Includes','MWCWinx86Includes','MWCIncludes') {
if (defined($ENV{$var})) {
$MWIncludePath = $ENV{$var};
$MWIncludeVar = $var;
last;
}
}
open PIPE, "$MWCC |", or &main::FatalError( "Failed to find version information for $MWCC \n");
while (<PIPE>) {
if($_ =~ /Version\s+(\d+)\.(\d+)\.(\d+)\s+build\s+(\d+)/) {
my $MajorVer = $1;
my $MinorVer = $2;
my $PatchNum = $3;
$CWBuildNum = $4;
$CWVersionReadable = "$1.$2.$3 build $4";
# The CW compiler documentation says that the compiler version is a 2-byte value as
# 0xMnpp (the corresponding CW's pre-defined macro is __MWERKS__), where,
# M is the major version number (which means it is accomodated in the first 4 bits,
# n is the minor version number (which means it is accomodated in the next 4 bits,
# pp is the patch number (which means it is accomodated in the next 8 bits.
# Here, an integer is formed from these 3 values to uniquely identify the compiler version.
$CWVersion = ($MajorVer << 12) + ($MinorVer << 8) + $PatchNum;
last;
}
}
close PIPE;
if ($IsProxyWrapperOption){
$MWCC = "$ENV{ABLD_COMPWRAP} " . $MWCC;
$MWLD = "$ENV{ABLD_COMPWRAP} " . $MWLD;
}
}
sub PMPlatProcessMmp (@) {
&Winutl_DoMmp(\@_, $MWIncludePath);
$BaseAddressFlag=&Winutl_BaseAddress;
if ($BaseAddressFlag ne "") {
$BaseAddressFlag=" -imagebase \"$BaseAddressFlag\"";
}
@Win32LibList=&Winutl_Win32LibList;
$Win32Resrc=&Winutl_Win32Resrc;
$Win32StdHeaders=&Winutl_Win32StdHeaders;
}
sub PMPlatCheckSource () {
&Winutl_CheckSourceMMPMetaData ();
}
sub PMStartBldList($) {
my ($makecmd) = @_;
my $AifStructRef=&main::AifStructRef;
my $BaseTrg=&main::BaseTrg;
my $BitMapStructRef=&main::BitMapStructRef;
my @BldList=&main::BldList;
my @ChopSysIncPaths=&main::Path_Chop(&main::SysIncPaths);
my @ChopUserIncPaths=&main::Path_Chop(&main::UserIncPaths);
my $ExportLibrary=&main::ExportLibrary;
my $NoExportLibrary=&main::NoExportLibrary;
my $DefFile=&main::DefFile;
my $BasicTrgType=&main::BasicTrgType;
my $LibPath=&main::LibPath;
my @MacroList=&main::MacroList();
push @MacroList, "__SUPPORT_CPP_EXCEPTIONS__";
push @MacroList, "__SYMBIAN_STDCPP_SUPPORT__" if StdCppTarget();
my $VariantFile=&main::VariantFile();
my $ResourceStructRef=&main::ResourceStructRef;
my $Plat=&main::Plat;
my $Trg=&main::Trg;
my $TrgType=&main::TrgType;
my $WarningLevel=&main::CompilerOption("CW");
my $LinkAs=&main::LinkAs;
Generic_Header(0,$makecmd); # define standard things using absolute paths
my $TrgDir="";
my $AifTrgDir="";
if (&Generic_Definition("TRGDIR") ne "") {
$TrgDir="\$(TRGDIR)\\";
$AifTrgDir=$TrgDir;
}
# Handle migration of binaries to secure location
&Winutl_AdjustTargetPath(\$TrgDir);
# Change - mwwinrc.exe uses MWWinx86Includes or MWCIncludes, but some installations
# fail to install either. Set MWCIncludes from the chosen variable as part
# of the Makefile.
if (!defined($ENV{MWCIncludes}) && $MWIncludeVar ne 'MWCIncludes') {
&main::Output(
"\n",
"MWCIncludes:=\$($MWIncludeVar)\n",
"export MWCIncludes\n",
"\n"
);
}
if( ($CWVersion == 0x3205 && $CWBuildNum == 465)){
if($TrgType =~ /^(STDDLL|STDEXE|STDLIB)$/o) {
&main::Output(
"\n",
"MWSym2LibraryFiles:=msl_all_mse_symbian_d.lib;gdi32.lib;user32.lib;kernel32.lib;\n",
"export MWSym2LibraryFiles\n",
"\n"
);
}
else {
&main::Output(
"\n",
"MWSym2LibraryFiles:=msl_all_static_mse_symbian_d.lib;gdi32.lib;user32.lib;kernel32.lib;\n",
"export MWSym2LibraryFiles\n",
"\n"
);
}
}
if($WarningLevel =~ /\-cwd\s\s*include/){
&main::Output(
"# EPOC DEFINITIONS\n",
"\n",
"INCDIR = -cwd include -i-"
);
}
else {
&main::Output(
"# EPOC DEFINITIONS\n",
"\n",
"INCDIR = -cwd source -i-"
);
}
foreach (@ChopUserIncPaths,@ChopSysIncPaths) {
&main::Output(
" \\\n -i \"$_\""
);
}
use Pathutl;
if($VariantFile){
my $variantFilePath = Path_Split('Path',$VariantFile);
$VariantFile = Path_Split('FILE',$VariantFile);
# workaround for codewarrior defect:
# codewarrior at the moment doesn't accept an absolute path with the
# the -include option unless it contains a drive letter, this is solved
# by including the directory and the file separately
&main::Output("\\\n -i \"$variantFilePath \" -include \"$VariantFile\"");
}
&main::Output(
"\n",
"\n"
);
&main::Output(
"CWFLAGS ="
);
# 'wchar_t' should be treated as default datatype for OE targets because when wchar_t option is turned off,
# using 'wchar_t' defaults to the unsigned short int and wrong functionality.
if ( $TrgType =~ /^(STDEXE|STDDLL|STDLIB)$/io || StdCppTarget() )
{
&main::Output(
" -wchar_t on"
);
}
else
{
&main::Output(
" -wchar_t off"
);
}
&main::Output(
" -align 4", # long alignment
" -warnings on", # selection of warnings
" -w nohidevirtual", # turn off "hides inherited virtual function" warning
",nounusedexpr", # turn off "expression has no side effect" warning
" -msgstyle gcc", # use GCC-style message format
# " -strict on", # strict ANSI/ISO C++ checking
" -enum int", # use int for enumeration types
" -str pool", # pool strings into a single data object
" -exc ms", # SEH C++ exception implementation
" -trigraphs on", # Enable recognition of C-style trigraphs, e.g. '??/' -> '\'
" $WarningLevel"
);
if ($Win32StdHeaders or &main::Plat eq 'TOOLS') {
&main::Output(
" -stdinc" # insist because mwccsym2 has -nostdinc as the default(?)
);
}
else {
&main::Output(
" -nostdinc" # insist because mwcc has -stdinc as the default.
);
}
&main::Output(
"\n",
"\n"
);
&main::Output(
"CWDEFS = "
);
foreach(@MacroList) {
&main::Output(
" -d \"$_\""
);
}
&main::Output(
" \$(USERDEFS)\n",
"\n"
);
foreach (@BldList) {
&main::Output(
"CW$_ = $MWCC"
);
if (/DEB$/o) {
&main::Output(
' -g -O0' # debug information, no optimisation
);
# euser change to apply inlining on the _NAKED functions
# stdexe/stddll change so that the inline functions dont
# get exported (in debug build) causing a different export list for debug and release builds
if ($BaseTrg!~/^EUSER$/oi && $TrgType !~ /^(STDEXE|STDDLL)$/io) {
&main::Output(
' -inline off'
);
}
}
elsif (/REL$/o) {
&main::Output(
' -O4,s' # highest level of optimisation, optimise for space
);
}
if( ($CWVersion == 0x3205 && $CWBuildNum >= 465) || $CWVersion > 0x3205){
if ($TrgType =~ /^(STDEXE|STDDLL|STDLIB)$/io) {
&main::Output(
' -runtime dllmulti'
);
}
else {
&main::Output(
' -runtime staticmulti'
);
}
}
&main::Output(
' $(CWFLAGS)'
);
foreach (&main::MacroList($_)) {
&main::Output(
" -d $_"
);
}
&main::Output(
" \$(CWDEFS) \$(INCDIR)\n"
);
}
&main::Output(
"\n",
"\n"
);
foreach (@BldList) {
&main::Output(
"$_ :"
);
if ($BasicTrgType !~ /IMPLIB/io) {
&main::Output (
" \\\n",
"\t", &Generic_Quote("\$(EPOCTRG$_)\\$TrgDir$Trg")
);
if (&Winutl_CopyForStaticLinkage) {
&main::Output(
" \\\n",
"\t", &Generic_Quote("\$(EPOCTRG$_)\\$Trg")
);
}
}
# lib has to come after the main target so that a .DEF file will be generated if the project is not frozen
if ($DefFile and not &main::ExportUnfrozen) {
&main::Output(
" \\\n",
"\tLIBRARY\n"
);
}
&main::Output(
"\n",
"\n"
);
}
foreach (@BldList) {
my $makework="MAKEWORK$_";
&main::Output(
"\n",
"RESOURCE$_ : $makework"
);
my $BitMapRef;
foreach $BitMapRef (@$BitMapStructRef) {
my $file="\$(EPOCTRG$_)\\$$BitMapRef{TrgPath}$$BitMapRef{Trg}";
&Generic_MakeWorkFile($makework,$file);
&main::Output(
" \\\n",
"\t", &Generic_Quote($file)
);
}
undef $BitMapRef;
my $ResourceRef;
foreach $ResourceRef (@$ResourceStructRef) {
if(! defined $$ResourceRef{Hdronly}) {
my $file="\$(EPOCTRG$_)\\$$ResourceRef{Trg}";
&Generic_MakeWorkFile($makework,$file);
&main::Output( # must come before main target because source for target will depend on the
" \\\n", # *.rsg file in $EPOCIncPath
"\t", &Generic_Quote("$file")
);
}
}
undef $ResourceRef;
my $AifRef;
foreach $AifRef (@$AifStructRef) {
my $file="\$(EPOCTRG$_)\\$AifTrgDir$$AifRef{Trg}";
&Generic_MakeWorkFile($makework,$file);
&main::Output(
" \\\n",
"\t", &Generic_Quote($file)
);
}
undef $AifRef;
&main::Output(
"\n"
);
}
&main::Output(
"\n",
"\n",
);
&main::Output(
"\n",
"# REAL TARGET - LIBRARY\n",
"\n",
"LIBRARY : MAKEWORKLIBRARY"
);
if ($BasicTrgType=~/^LIB$/o) {
# code to ensure that the static libraries for all builds are built at the library stage
foreach (@BldList) {
&main::Output(
" $_"
);
}
}
elsif ($DefFile and !$NoExportLibrary) {
unless (&main::ExportUnfrozen) {
if (-e $DefFile) { # effectively "if project frozen ..."
my $LibLinkAs = ($BasicTrgType=~/^IMPLIB$/io) ? $LinkAs : $Trg;
&main::Output(
" ", &Generic_Quote("\$(EPOCLIB)\\UDEB\\$ExportLibrary.lib"), "\n",
"\n",
&Generic_Quote("\$(EPOCLIB)\\UDEB\\$ExportLibrary.lib"), " : ",
&Generic_Quote($DefFile), "\n",
"\tperl -S prepdef.pl ",&Generic_Quote($DefFile)," \"\$(EPOCBLD)\\$ExportLibrary.prep.def\"\n",
"\t$MWLD \"\$(EPOCBLD)\\$ExportLibrary.prep.def\" -importlib -o \$\@",
" -addcommand \"out:$LibLinkAs\" -warnings off",
"\n"
);
} else {
&main::Output(
"\n",
"\t\@echo WARNING: Not attempting to create \"\$(EPOCLIB)\\UDEB\\$ExportLibrary.lib\".\n",
"\t\@echo When exports are frozen in \"$DefFile\", regenerate Makefile.\n"
);
}
} else {
&main::Output(
"\n",
"\t\@echo Not attempting to create \"\$(EPOCLIB)\\UDEB\\$ExportLibrary.lib\"\n",
"\t\@echo from frozen .DEF file, since EXPORTUNFROZEN specified.\n"
);
}
}
&main::Output(
"\n",
"\n",
"FREEZE :\n"
);
if ($DefFile and $BasicTrgType!~/^IMPLIB$/io) {
&main::Output(
# call perl on the script here so nmake will die if there are errors - this doesn't happen if calling perl in a batch file
"\tperl -S efreeze.pl \$(EFREEZE_ALLOW_REMOVE) \"$DefFile\" \"\$(EPOCBLD)\\$ExportLibrary.def\" \n"
);
}
else {
&main::Output( "\tperl -e \"print \\\"warning: freeze could not be supported or \\
you need to declare an explicitly specified def file using the keyword \\
DEFFILE in the MMP file!\\n\\\"\"");
}
&main::Output(
"\n",
"CLEANLIBRARY :\n"
);
if ($DefFile and !$NoExportLibrary) {
&main::Output(
"\t-\$(ERASE) \"\$(EPOCLIB)\\UDEB\\$ExportLibrary.lib\"\n"
);
}
&main::Output(
"\n"
);
&Generic_MakeWorkDir('MAKEWORKLIBRARY',"${LibPath}UDEB");
&Generic_Releaseables;
}
my $uidfile;
sub PMBld {
my $AifStructRef=&main::AifStructRef;
my @SrcList=&main::SrcList;
my $BaseTrg=&main::BaseTrg;
my $BitMapStructRef=&main::BitMapStructRef;
my $Bld=&main::Bld;
my $ChopBldPath=&main::Path_Chop(&main::BldPath);
my $ExportLibrary=&main::ExportLibrary;
my $NoExportLibrary=&main::NoExportLibrary;
my $DefFile=&main::DefFile;
my $EPOCIncPath=&main::EPOCIncPath;
my $BasicTrgType=&main::BasicTrgType;
my @LibList;
my $RelPath=&main::RelPath;
my $ResourceStructRef=&main::ResourceStructRef;
my @StatLibList=&main::StatLibList;
my $Trg=&main::Trg;
my $TrgPath=&main::TrgPath;
my $TrgType=&main::TrgType;
# Get the information regarding supporting Compiler Wrapper Option
my $IsCompilerWrapperOption=&main::CompilerWrapperOption();
$NamedSymLkup = 1 if($TrgType =~ /^(STDDLL|STDEXE)$/o);
$uidfile = "$BaseTrg.UID";
if ($Bld =~ /DEB/) {
@LibList=&main::DebugLibList;
} else {
@LibList=&main::LibList;
}
# OE Glue Code
my @oe_exe_libs=("libcrt0.lib");
my @oe_exe_libs_wchar=("libwcrt0.lib");
# OE Import Libraries
my @oe_import_libs=("euser.lib");
if(not (grep /^libc.lib$/i, @LibList)){
push @oe_import_libs, "libc.lib";
}
# Handle migration of binaries to secure location
my $BLDTRGPATH = "";
my $AIFBLDTRGPATH = "";
if ($TrgPath) {
$BLDTRGPATH = "\$(TRGDIR)\\"; # handles TARGETPATH
$AIFBLDTRGPATH = $BLDTRGPATH;
&Winutl_AdjustTargetPath(\$BLDTRGPATH);
}
$BLDTRGPATH = "\$(EPOCTRG$Bld)\\".$BLDTRGPATH;
$AIFBLDTRGPATH = "\$(EPOCTRG$Bld)\\".$AIFBLDTRGPATH;
# REAL TARGETS
#-------------
&main::Output(
"# REAL TARGET - BUILD VARIANT $Bld\n",
"\n"
);
# releasables
my @releaseables;
unless (&main::Plat() eq 'TOOLS') {
if ($TrgType !~ /^IMPLIB$/io) {
if ($TrgType !~ /^NONE/io) {
push @releaseables, "$BLDTRGPATH$Trg";
if ($Bld=~/REL$/o && $BasicTrgType!~/^LIB$/o) {
push @releaseables,"$BLDTRGPATH$Trg.map";
}
if (&Winutl_CopyForStaticLinkage) {
push @releaseables, "\$(EPOCTRG$Bld)\\$Trg";
}
}
my $BitMapRef;
foreach $BitMapRef (@$BitMapStructRef) {
push @releaseables, "\$(EPOCTRG$Bld)\\$$BitMapRef{TrgPath}$$BitMapRef{Trg}";
}
my $ResourceRef;
foreach $ResourceRef (@$ResourceStructRef) {
if(! defined $$ResourceRef{Hdronly}) {
push @releaseables,"\$(EPOCTRG$Bld)\\$$ResourceRef{Trg}";
}
}
my $AifRef;
foreach $AifRef (@$AifStructRef) {
push @releaseables, "$AIFBLDTRGPATH$$AifRef{Trg}";
}
}
if (-e $DefFile and !$NoExportLibrary) { # effectively "if project frozen ..."
push @releaseables, "\$(EPOCLIB$Bld)\\$ExportLibrary.lib";
}
if ($Bld=~/DEB$/o) {
# debugging support files?
}
}
else {
if ($BasicTrgType !~ /^IMPLIB$/io) {
my $toolspath=&main::EPOCToolsPath();
push @releaseables, "$toolspath$Trg";
}
}
my $firstlib = "";
my $newlib = "";
if ( $BasicTrgType =~ /^(EXE|DLL)$/o && main::Plat() ne 'TOOLS' ) {
$firstlib = main::FirstLib();
unless ( StdCppTarget() || ! main::StdCppSupport()) {
$newlib = main::NewLib(); # Check if has been set in the MMP file.
unless ($newlib) {
if ( main::SystemTrg() ) {
$newlib = 'scppnwdl_kern.lib';
}
else {
$newlib = 'scppnwdl.lib';
}
}
}
}
&main::Output(
"WHAT$Bld : WHATGENERIC\n",
"\n",
"CLEAN$Bld : CLEANBUILD$Bld CLEANRELEASE$Bld\n",
"\n",
"CLEANBUILD$Bld : \n",
"\t\@perl -S ermdir.pl \"\$(EPOCBLD$Bld)\"\n",
"\n",
"CLEANRELEASE$Bld : CLEANGENERIC\n",
"\n"
);
&Generic_WhatCleanTargets($Bld, "WHAT$Bld", "CLEANRELEASE$Bld", @releaseables);
my $adjustedTargetPath=$TrgPath;
&Winutl_AdjustTargetPath(\$adjustedTargetPath);
&Generic_MakeWorkDir("MAKEWORK$Bld", &main::BldPath);
&Generic_MakeWorkDir("MAKEWORK$Bld", "$RelPath$adjustedTargetPath");
&main::Output(
"\n",
"\n"
);
return if ($BasicTrgType=~/^IMPLIB$/io);
&main::Output(
"LISTING$Bld : MAKEWORK$Bld"
);
foreach (@SrcList) {
my $BaseSrc = &main::Path_Split('Base', $_);
my $Ext = &main::Path_Split('Ext', $_);
$BaseSrc.='_' if (lc($Ext) eq '.cia');
$BaseSrc =~ s/\.UID/_UID_/i if ($BaseSrc eq $uidfile);
&main::Output(
" \\\n\tLISTING$Bld$BaseSrc"
);
}
&main::Output(
"\n",
"\n"
);
#Compiler wrapper support starts
if($IsCompilerWrapperOption)
{
my $Platcmpwrap=&main::Plat;
&main::Output(
"COMPWRAP$Bld : OUTPUT_NAME = ",
"$Platcmpwrap\_$Bld",
"\n"
);
&main::Output(
"COMPWRAP$Bld : MAKEWORK$Bld"
);
foreach (@SrcList) {
my $BaseSrc = &main::Path_Split('Base', $_);
my $Ext = &main::Path_Split('Ext', $_);
$BaseSrc.='_' if (lc($Ext) eq '.cia');
$BaseSrc =~ s/\.UID/_UID_/i if ($BaseSrc eq $uidfile);
&main::Output(
" \\\n\tCOMPWRAP$Bld$BaseSrc"
);
}
&main::Output(
"\n",
"\n"
);
}
#--Compiler wrapper support ends
# Flag that tells whether to run checklib.exe on static libraries.
my $run_checklib = 0;
if (@StatLibList && $BasicTrgType =~ /^(EXE|DLL)$/o && !main::SystemTrg() && main::StdCppSupport()) {
# There are user-added static libraries. They should be checked for
# consistent use of operator new.
$run_checklib = 1;
#Create a make variable for the libraries.
main::Output("\nUSER_ADDED_ARCHIVES_$Bld=");
for (@StatLibList) {
&main::Output(
" \\\n\t", &Generic_Quote("\$(EPOCSTATLINK$Bld)\\$_")
);
}
main::Output("\n\n");
}
&main::Output(
"LIBS$Bld="
);
foreach (@StatLibList) {
&main::Output(
" \\\n\t", &Generic_Quote("\$(EPOCSTATLINK$Bld)\\$_")
);
}
#OE Glue Code
if ($TrgType=~/^STDEXE$/o) {
if (&main::IsWideCharMain()) {
foreach (@oe_exe_libs_wchar) {
&main::Output(
" \\\n\t", &Generic_Quote("\$(EPOCSTATLINK$Bld)\\$_")
);
}
}
else {
foreach (@oe_exe_libs) {
&main::Output(
" \\\n\t", &Generic_Quote("\$(EPOCSTATLINK$Bld)\\$_")
);
}
}
}
foreach (@LibList) {
&main::Output(
" \\\n\t", &Generic_Quote("\$(EPOCLINK$Bld)\\$_")
);
}
#OE Import Libraries
if ($TrgType =~ /^STDEXE$/o || $TrgType =~ /^STDDLL$/o) {
foreach (@oe_import_libs) {
&main::Output(
" \\\n\t", &Generic_Quote("\$(EPOCLINK$Bld)\\$_")
);
}
}
&main::Output(
"\n",
"\n"
);
&main::Output(
"LINK_OBJS$Bld="
);
my $have_uidfile = 0;
foreach (@SrcList) {
my $BaseSrc = &main::Path_Split('Base', $_);
my $Ext = &main::Path_Split('Ext', $_);
if ($BaseSrc eq $uidfile) {
$have_uidfile = 1;
next;
}
$BaseSrc.='_' if (lc($Ext) eq '.cia');
&main::Output(
" \\\n",
"\t", &Generic_Quote("\$(EPOCBLD$Bld)\\$BaseSrc.o")
);
}
my $add_stdcpp_tag = 0;
if ($BasicTrgType=~/^LIB$/o && StdCppTarget() ) {
$add_stdcpp_tag = 1;
}
if ($add_stdcpp_tag) {
&main::Output(
" \\\n",
"\t", &Generic_Quote("$stdcpp_tag_path\\$stdcpp_tag_file")
);
}
if ($Win32Resrc) {
my $resbase=&main::Path_Split('Base',$Win32Resrc);
&main::Output(
" \\\n",
"\t", &Generic_Quote("\$(EPOCBLD$Bld)\\$resbase.res")
);
}
if ($have_uidfile) {
# ensure that the uid file is at the end of the list, as it's implicit in
# CodeWarrior IDE projects.
&main::Output(
" \\\n",
"\t", &Generic_Quote("\$(EPOCBLD$Bld)\\$BaseTrg"."_UID_.o")
);
}
&main::Output(
"\n",
"\n"
);
&main::OutFormat(
"COMMON_LINK_FLAGS$Bld=",
' -msgstyle gcc',
' -stdlib' # use default runtime library for compiler help functions
);
if ($MWLD =~ /mwcc.exe/) {
&main::OutFormat(
' -warnings on' # on by default in mwccsym2.exe
);
}
main::OutFormat(" \"\$(EPOCSTATLINK$Bld)\\$firstlib\" ") if $firstlib;
main::OutFormat(" \"\$(EPOCSTATLINK$Bld)\\$newlib\" ") if $newlib;
foreach my $lib (@Win32LibList) {
my $win32lib = $lib; # take a copy, to avoid updating contents of Win32LibList!
$win32lib = "-l$win32lib" unless ($win32lib =~ /\\/);
&main::OutFormat(
" ",lc $win32lib
);
}
if ($BasicTrgType=~/^DLL$/o) {
&main::OutFormat(
"$BaseAddressFlag",
' -main __Win32DllMain@12',
' -shared'
);
}
elsif ($TrgType=~/^EXEXP$/o) {
&main::OutFormat(
"$BaseAddressFlag",
' -noentry',
' -shared'
);
}
elsif ($BasicTrgType=~/^EXE$/o) {
unless (&main::Plat eq 'TOOLS') {
&main::OutFormat(
' -m "?_E32Bootstrap@@YGXXZ"'
);
}
}
if (&main::Plat=~/^(WINC|TOOLS)$/o && $BasicTrgType=~/^EXE$/o) {
&main::OutFormat(
' -subsystem console'
);
}
else {
&main::OutFormat(
' -subsystem windows'
);
}
if (&main::HeapSize) {
my %HeapSize=&main::HeapSize;
&main::OutFormat(
' -heapreserve=',RoundUp1k($HeapSize{Max}),' -heapcommit=',RoundUp1k($HeapSize{Min})
);
}
if ($BasicTrgType=~/^(DLL|EXE)$/o) {
if ($Bld=~/DEB$/o) {
&main::OutFormat(
' -g'
);
}
}
&main::Output(
"\n",
"\n"
);
if($TrgType =~/^(STDEXE|STDDLL|STDLIB)$/o) {
if(! (( $CWVersion == 0x3205 && $CWBuildNum >= 465 ) || $CWVersion > 0x3205 ) ) {
&main::FatalError("TargetType $TrgType requires CodeWarrior version `3.2.5 build 465' or later but you have $CWVersionReadable.");
}
}
my $EntrySymbol='';
if ($BasicTrgType=~/^DLL$/o || $TrgType=~/^EXEXP$/o || $NamedSymLkup) {
my $Include="";
if ($BasicTrgType=~/^DLL$/o) {
$Include="-m __E32Dll";
$EntrySymbol='__E32Dll';
}
else {
$Include="-m __E32Startup";
$EntrySymbol='__E32Startup';
}
&main::Output(
"STAGE1_LINK_FLAGS$Bld= \$(COMMON_LINK_FLAGS$Bld) \$(LIBS$Bld) \\\n\t",
" -o \"\$(EPOCBLD$Bld)\\$Trg\"");
if ($NamedSymLkup) {
&main::Output(
" -export all",
" -map \"\$(EPOCBLD$Bld)\\$Trg.map\""
);
}
else {
&main::Output(' -export dllexport');
}
if($CWRuntimeLibs ne "") {
&main::Output(
" -l$CWRuntimeLibs "
);
}
if($BasicTrgType=~/^DLL$/o || $TrgType=~/^EXEXP$/o) {
&main::Output(
" $Include",
' -nocompactimportlib',
" -implib \"\$(EPOCBLD$Bld)\\$ExportLibrary.lib\"",
" -addcommand \"out:$Trg\" -warnings off",
"\n",
);
}
else{
# Dont generate import libs for an Exe
&main::Output(
" $Include",
" -addcommand \"out:$Trg\" -warnings off",
"\n",
);
}
}
my $AbsentSubst = '';
if ($EntrySymbol) {
$AbsentSubst = " -absent $EntrySymbol";
}
&main::Output(
"LINK_FLAGS$Bld= \$(COMMON_LINK_FLAGS$Bld) \$(LIBS$Bld) \\\n\t",
" -o \"$BLDTRGPATH$Trg\" ", &main::LinkerOption("CW")
);
if($CWRuntimeLibs ne "") {
&main::Output(
" -l$CWRuntimeLibs "
);
}
if ($Bld=~/REL$/o && $BasicTrgType!~/^LIB$/o) {
# Generate map file for release build executables
&main::Output(
" -map \"$BLDTRGPATH$Trg.map\"",
);
}
if ($BasicTrgType=~/^DLL$/o || $TrgType=~/^EXEXP$/o) {
&main::Output(
" -f \"\$(EPOCBLD)\\$ExportLibrary.def\"", # use generated .DEF file
);
if (&main::ExportUnfrozen) {
&main::Output(
" -implib \"\$(EPOCLIB)\\UDEB\\$ExportLibrary.lib\"",
" -addcommand \"out:$Trg\" -warnings off"
);
}
else {
&main::Output(
' -noimplib'
);
}
}
else {
&main::Output(
' -noimplib'
);
}
&main::Output(
"\n",
"\n"
);
&main::Output(
&Generic_Quote("$BLDTRGPATH$Trg"), " : \$(LINK_OBJS$Bld) "
);
if (-e $DefFile) { # effectively "if project frozen ..."
&main::Output(
&Generic_Quote($DefFile)
);
}
main::Output(" ", Generic_Quote("\$(EPOCSTATLINK$Bld)\\$firstlib") ) if $firstlib;
main::Output(" ", Generic_Quote("\$(EPOCSTATLINK$Bld)\\$newlib") ) if $newlib;
&main::Output(
" \$(LIBS$Bld)\n"
);
my $checklib = "checklib";
if ( StdCppTarget() ) {
$checklib .= " stdc++ --coff";
}
else {
$checklib .= " symc++ --coff";
}
&main::Output( "\t$checklib ","\$(USER_ADDED_ARCHIVES_$Bld)\n" ) if ($run_checklib);
# Link by name first time round for dlls
if ($BasicTrgType=~/^DLL$/o || $TrgType=~/^EXEXP$/o) {
&main::Output(
"\t$MWLD \$(STAGE1_LINK_FLAGS$Bld) -l \$(EPOCBLD$Bld) -search \$(notdir \$(LINK_OBJS$Bld))\n",
);
if(!$NamedSymLkup){
# Dont delete the binary as we need to extract symbol/dependency info
&main::Output(
"\t\$(ERASE) \"\$(EPOCBLD$Bld)\\$Trg\"\n",
);
}
# Generate an export info file
my $show_options = "names,verbose";
$show_options = "names,unmangled,verbose" if ($MWLD =~ /mwldsym2.exe/);
&main::Output(
"\t$MWLD -S -show only,$show_options -o \"\$(EPOCBLD$Bld)\\$ExportLibrary.inf\" \"\$(EPOCBLD$Bld)\\$ExportLibrary.lib\"\n"
);
# call makedef to reorder the export information
&main::Output(
# call perl on the script here so nmake will die if there are errors - this doesn't happen if calling perl in a batch file
"\tperl -S makedef.pl $AbsentSubst -Inffile \"\$(EPOCBLD$Bld)\\$ExportLibrary.inf\""
);
if (SysTrg()) {
&main::Output( "\t\t-SystemTargetType \\\n" );
}
if (-e $DefFile) { # effectively "if project frozen ..."
&main::Output(
" -Frzfile \"$DefFile\""
);
}
my $Export;
my $Ordinal=1;
foreach $Export (&main::Exports) {
# replace "$" with "$$" so that NMAKE doesn't think there's a macro in the function name
$Export=~s-\$-\$\$-go;
&main::Output(
" -$Ordinal $Export"
);
$Ordinal++;
}
&main::Output(" -sym_name_lkup") if($NamedSymLkup);
&main::Output(" -export_entrypoint_E32Dll") if ($TrgType =~ /^STDDLL$/i); # Workaround: To export entry point _E32DLL for target type STDDLL
&main::Output(
" \"\$(EPOCBLD)\\$ExportLibrary.def\" \n",
"\t\$(ERASE) \"\$(EPOCBLD$Bld)\\$ExportLibrary.inf\"\n",
"\t\$(ERASE) \"\$(EPOCBLD$Bld)\\$ExportLibrary.lib\"\n"
);
}
elsif($NamedSymLkup) {
# 2-stage linking required for all those targets that enable symbol lookup
&main::Output( "\t$checklib ","\$(USER_ADDED_ARCHIVES_$Bld)\n" ) if ($run_checklib);
&main::Output(
"\t$MWLD \$(STAGE1_LINK_FLAGS$Bld) -l \$(EPOCBLD$Bld) -search \$(notdir \$(LINK_OBJS$Bld))\n",
);
}
my $gen_src_file = "";
if($NamedSymLkup){
# pick the symbols and the dependencies.
&main::Output(
"\t$MWLD -S -show only,names,verbose -o \"\$(EPOCBLD$Bld)\\$ExportLibrary.sym\" \"\$(EPOCBLD$Bld)\\$Trg\"\n",
);
# Generate the source file with symbol and dependency information in the named data segment.
$gen_src_file = "${BaseTrg}_SYM_";
if($BasicTrgType=~/^EXE$/o){
# For an EXE, generate the symbols as well as the dependencies
&main::Output(
"\tperl -S sym_lkup_util.pl -o \"\$(EPOCBLD$Bld)\\$gen_src_file.cpp\" -sym \"\$(EPOCBLD$Bld)\\$ExportLibrary.sym\" -map \"\$(EPOCBLD$Bld)\\$Trg.map\"\n"
);
}
else {
# For DLLs, generate only the dependencies.
&main::Output(
"\tperl -S sym_lkup_util.pl -o \"\$(EPOCBLD$Bld)\\$gen_src_file.cpp\" -sym \"\$(EPOCBLD$Bld)\\$ExportLibrary.sym\" --ignore_export_dir\n"
);
}
main::Output(
"\t\$(CW$Bld) -c \"\$(EPOCBLD$Bld)\\$gen_src_file.cpp\" -o \"\$(EPOCBLD$Bld)\\$gen_src_file.o\"\n",
);
}
# Perform the final link step
&main::Output(
"\t$MWLD "
);
if ($BasicTrgType=~/^LIB$/o) {
&main::Output(
"-library "
);
&main::Output( "-l $stdcpp_tag_path ") if ($add_stdcpp_tag);
}
if($NamedSymLkup){
# Final linking and cleanup
main::Output(
"\$(LINK_FLAGS$Bld) -l \$(EPOCBLD$Bld) -search \$(notdir \$(LINK_OBJS$Bld))",
" \"\$(EPOCBLD$Bld)\\$gen_src_file.o\"\n",
"\t\$(ERASE) \"\$(EPOCBLD$Bld)\\$gen_src_file.cpp\"\n",
"\t\$(ERASE) \"\$(EPOCBLD$Bld)\\$gen_src_file.o\"\n",
"\t\$(ERASE) \"\$(EPOCBLD$Bld)\\$ExportLibrary.sym\"\n",
"\t\$(ERASE) \"\$(EPOCBLD$Bld)\\$Trg.map\"\n",
"\t\$(ERASE) \"\$(EPOCBLD$Bld)\\$Trg\"\n",
);
}
else {
&main::Output(
"\$(LINK_FLAGS$Bld) -l \$(EPOCBLD$Bld) -search \$(notdir \$(LINK_OBJS$Bld))\n",
);
}
if (&main::Plat eq 'TOOLS') {
&main::Output(
"\tcopy \"BLDTRGPATH$Trg\" \"",&main::EPOCToolsPath,"$Trg\"\n"
);
}
if (&Winutl_CopyForStaticLinkage) {
&Generic_MakeWorkDir("MAKEWORK$Bld", "\$(EPOCTRG$Bld)");
&main::Output(
"\n",
&Generic_Quote("\$(EPOCTRG$Bld)\\$Trg"), " : ",
&Generic_Quote("$BLDTRGPATH$Trg"), "\n",
"\t", &Generic_CopyAction(),
);
}
&main::Output(
"\n",
"\n"
);
}
sub PMStartSrcList {
&main::Output(
"# SOURCES\n",
"\n"
);
}
sub PMBitMapBld {
&Generic_BitMapBld;
# Need to copy generic resource into emulated Z drive
my $BitMapRef=&main::BitMapRef;
my $ChopTrgPath="";
if ($$BitMapRef{TrgPath}) {
$ChopTrgPath.="\\$$BitMapRef{TrgPath}";
chop $ChopTrgPath;
}
my @BldList=&main::BldList;
my $Bld;
foreach $Bld (@BldList) {
my $path="\$(EPOCTRG$Bld)$ChopTrgPath";
&main::Output(
&Generic_Quote("$path\\$$BitMapRef{Trg}"), " : ",
&Generic_Quote("$$BitMapRef{GenericTrg}"), "\n",
"\t", &Generic_CopyAction(),
"\n"
);
}
}
sub PMResrcBld {
&Generic_ResrcBld;
# Need to copy generic resource into emulated Z drive
my $ResourceRef=&main::ResourceRef;
my @BldList=&main::BldList;
foreach my $Bld (@BldList)
{
if(! defined $$ResourceRef{Hdronly})
{
&main::Output(
&Generic_Quote("\$(EPOCTRG$Bld)\\$$ResourceRef{Trg}"), " : ",
&Generic_Quote("$$ResourceRef{GenericTrg}"), "\n",
"\t", &Generic_CopyAction(),
"\n"
);
}
}
}
sub PMAifBld {
&Generic_AifBld;
# Need to copy generic resource into emulated Z drive
my $AifRef=&main::AifRef;
my $TrgDir="";
if (&Generic_Definition("TRGDIR") ne "") {
$TrgDir="\\\$(TRGDIR)";
}
my @BldList=&main::BldList;
my $Bld;
foreach $Bld (@BldList) {
my $path="\$(EPOCTRG$Bld)$TrgDir";
&main::Output(
&Generic_Quote("$path\\$$AifRef{Trg}"), " : ",
&Generic_Quote("$$AifRef{GenericTrg}"), "\n",
"\t", &Generic_CopyAction(),
"\n"
);
}
}
sub PMStartSrc {
my $Src=&main::Src;
&main::Output(
"# Source $Src\n",
"\n"
);
}
sub PMSrcDepend {
my @BldList=&main::BldList;
my @DepList=&main::DepList;
my $BaseSrc=&main::BaseSrc;
$BaseSrc =~ s/\.UID/_UID_/i if ($BaseSrc eq $uidfile);
return if (@DepList == 0);
foreach (@BldList) {
&main::Output(
&Generic_Quote("\$(EPOCBLD$_)\\$BaseSrc.o"), " \\\n",
);
}
&main::Output(
":"
);
foreach (@DepList) {
&main::Output(
" \\\n\t", &Generic_Quote($_)
);
}
&main::Output(
"\n",
"\n"
);
}
sub PMSrcBldDepend {
my $Bld=&main::Bld;
my @DepList=&main::DepList;
my $BaseSrc=&main::BaseSrc;
$BaseSrc =~ s/\.UID/_UID_/i if ($BaseSrc eq $uidfile);
return if (@DepList == 0);
&main::Output(
&Generic_Quote("\$(EPOCBLD$Bld)\\$BaseSrc.o"), " :",
);
foreach (@DepList) {
&main::Output(
" \\\n\t", &Generic_Quote($_)
);
}
&main::Output(
"\n",
"\n"
);
}
sub PMEndSrcBld {
my $BaseSrc=&main::BaseSrc;
$BaseSrc =~ s/\.UID/_UID_/i if ($BaseSrc eq $uidfile);
my $Bld=&main::Bld;
my $Plat=&main::Plat;
my $Src=&main::Src;
my $SrcPath=&main::SrcPath;
my $Ext=&main::ExtSrc;
my $Cia = (lc($Ext) eq '.cia') ? 1 : 0;
my $TrgType=&main::TrgType;
# Get the information regarding supporting Compiler Wrapper Option
my $IsCompilerWrapperOption=&main::CompilerWrapperOption();
if ($Cia) {
&main::Output(
&Generic_Quote("\$(EPOCBLD$Bld)\\$BaseSrc\_.o"), " : ",
&Generic_Quote("$SrcPath$Src"), "\n",
"\techo $Src\n",
"\t\$(CW$Bld) -lang c++ -o \"\$\@\" -c \"$SrcPath$Src\"\n",
"\n",
# assembler listing target - uses implicit rule to do disassembly
"LISTING$Bld$BaseSrc\_ : ", &Generic_Quote("\$(EPOCBLD$Bld)\\$BaseSrc\_.lis"), "\n",
"\t", &Generic_CopyAction("$SrcPath$BaseSrc\_.$Plat.lst"),
"\n"
);
} else {
&main::Output(
&Generic_Quote("\$(EPOCBLD$Bld)\\$BaseSrc.o"), " : ",
&Generic_Quote("$SrcPath$Src"), "\n",
"\techo $Src\n",
"\t\$(CW$Bld) -o \"\$\@\" -c \"$SrcPath$Src\" "
);
# When building for OE target type and source file is of C++ type,
# then pass macro "__wchar_t_defined" to indicate that datatype "wchar_t" is enabled.
if ( StdCppTarget() || $TrgType =~ /^(STDEXE|STDDLL|STDLIB)$/io )
{
if (lc($Ext) =~ /^(.cpp|.cc|.cxx|.c\+\+)$/)
{
&main::Output(
" -d \"__wchar_t_defined\" "
);
}
}
&main::Output(
"\n",
"\n"
);
&main::Output(
# assembler listing target - uses implicit rule to do disassembly
"LISTING$Bld$BaseSrc : ", &Generic_Quote("\$(EPOCBLD$Bld)\\$BaseSrc.lis"), "\n",
"\t", &Generic_CopyAction("$SrcPath$BaseSrc.$Plat.lst"),
"\n"
);
# Output files if Compiler Wrapper Option is specified
if($IsCompilerWrapperOption)
{
my $Platcmpwrap=&main::Plat;
&main::Output(
"COMPWRAP$Bld$BaseSrc : ",
&Generic_Quote("$SrcPath$Src"), "\n",
"\techo Analysing $Src\n",
"\t\$(COMPWRAP) \$(CW$Bld) -o \"\$\@\" -c \"$SrcPath$Src\" ",
"\n\n"
);
}
}
}
sub PMEndSrc {
&main::Output(
"\n",
"\n"
);
}
sub PMEndSrcList {
my $show_options = "source";
$show_options = "source,unmangled,comments" if ($MWLD =~ /mwldsym2.exe/);
&main::Output(
"\n",
"# Implicit rule for generating .lis files\n",
"\n",
".SUFFIXES : .lis .o\n",
"\n",
".o.lis:\n",
"\t$MWLD -S -show $show_options \$< -o \$\@\n",
"\n",
"\n"
);
if ($Win32Resrc) {
my @BldList=&main::BldList;
my @DepList=&main::Deps_GenDependsL($Win32Resrc);
&main::Output(
"# Win32 Resource $Win32Resrc\n",
"\n",
"DEPEND="
);
foreach (@DepList) {
&main::Output(
" \\\n\t", &Generic_Quote($_)
);
}
&main::Output(
"\n",
"\n"
);
my $Bld;
my $resbase=&main::Path_Split('Base',$Win32Resrc);
my $respath=&main::Path_Chop(&main::Path_Split('Path',$Win32Resrc));
foreach $Bld (@BldList) {
&main::Output(
&Generic_Quote("\$(EPOCBLD$Bld)\\$resbase.res"), " : ",
&Generic_Quote($Win32Resrc), " \$(DEPEND)\n",
"\tmwwinrc -o \$\@ \"$Win32Resrc\"\n",
"\n"
);
}
&main::Output(
"\n",
"\n"
);
}
# Deal with accumulated MAKEDIRS etc.
&Generic_End;
}
sub StdCppTarget() {
# STDCPP is supported
return 0 if (! main::StdCppSupport());
if ( main::NoStdCpp()) { # MMP keyword NOSTDCPP set
return 0;
}
if ( main::StdCpp() ) { # MMP keyword STDCPP set.
return 1;
}
else {
return ( main::TrgType() =~ /^(STDEXE|STDDLL|STDLIB)$/io );
}
}
1;