Fix these errors:
Some cases of PREQ1230 fail because of buildrom issue
rombuild crashs when create ext-romimage
readimage crashes on reading wk42 vasco_ui core image
vc2008 compiling issues
# Copyright (c) 1997-2009 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:
# Module providing platform details for platforms supported
# by Symbian OS
# all data is uppercase
#
#
package E32Plat;
require Exporter;
@ISA=qw(Exporter);
@EXPORT=qw(
Plat_SetVerbose
Plat_Init
Plat_GetL
Plat_List
Plat_AssocIDE
Plat_Customizations
Plat_Customizes
Plat_Root
Plat_SupportsFeatureVariants
);
use Winutl;
use RVCT_plat2set;
use BPABIutl;
use E32Variant;
my $variantABIV2Keyword = &Variant_GetMacro();
my %Mode=(
Verbose=>0
);
my $ModulePath;
sub Plat_SetVerbose () {
$Mode{Verbose}=1;
}
my %BldLists=(
EPOC32=>['UREL','UDEB'],
WINS=>['UDEB','UREL'],
TOOLS=>['DEB','REL'],
TOOLS2=>['DEB','REL'],
);
my %BldMacros=(
DEB=>['_DEBUG'],
REL=>['NDEBUG'],
UDEB=>['_DEBUG','_UNICODE'],
UREL=>['NDEBUG','_UNICODE']
);
my @EpocMacros=('__SYMBIAN32__');
my @BPABIPlats = &BPABIutl_Plat_List;
my %Plat=(
ARM4=>{
ABI=>'ARM4',
ASSP=>'MARM',
ASSPABI=>'',
Generic=>1,
},
ARM4SMP=>{
ABI=>'ARM4',
ASSP=>'MARM',
ASSPABI=>'',
Generic=>1,
SMP=>1,
StatLink=>'ARM4SMP',
},
ARM4T=>{
ABI=>'ARM4T',
ASSP=>'MARM',
ASSPABI=>'',
Generic=>1,
},
ARMI=>{
ASSP=>'MARM',
Generic=>1,
ASSPABI=>'',
},
SARM4=>{
ABI=>'ARM4',
ASSP=>'MARM',
ASSPABI=>'',
Generic=>1,
Single=>1,
},
SARMI=>{
ASSP=>'MARM',
ASSPABI=>'',
Generic=>1,
Single=>1,
},
STHUMB=>{
ABI=>'THUMB',
ASSP=>'MARM',
ASSPABI=>'',
Generic=>1,
Single=>1,
},
THUMB=>{
ABI=>'THUMB',
ASSP=>'MARM',
ASSPABI=>'',
Generic=>1,
},
TOOLS=>{
ABI=>'TOOLS',
ASSPABI=>'',
Compiler=>'VC32',
CPU=>'TOOLS',
OS=>'TOOLS',
MakeMod=>'Cl_win',
MakeCmd=>'nmake',
},
TOOLS2=>{
ABI=>'TOOLS2',
ASSPABI=>'',
Compiler=>'GCC32',
CPU=>'TOOLS2',
OS=>'TOOLS2',
MakeMod=>'Cl_mingw',
MakeCmd=>'make',
},
CWTOOLS=>{
ABI=>'TOOLS',
ASSPABI=>'',
Compiler=>'CW32',
CPU=>'TOOLS',
OS=>'TOOLS',
MakeMod=>'Cl_tools',
MakeCmd=>'make',
},
VC6TOOLS=>{
ABI=>'TOOLS',
ASSPABI=>'',
Compiler=>'VC32',
CPU=>'TOOLS',
Ext=>'.DSP',
MakeMod=>'Ide_vc6',
MakeCmd=>'nmake',
OS=>'TOOLS',
Real=>'TOOLS',
UsrHdrsOnly=>1,
},
WINS=>{
ABI=>'WINS',
ASSPABI=>'',
Compiler=>'VC32',
CPU=>'WINS',
MakeMod=>'Cl_win',
MakeCmd=>'nmake',
OS=>'WINS',
},
VC6=>{
ABI=>'WINS',
ASSPABI=>'',
Compiler=>'VC32',
CPU=>'WINS',
Ext=>'.DSP',
MakeMod=>'Ide_vc6',
MakeCmd=>'nmake',
OS=>'WINS',
Real=>'WINS',
UsrHdrsOnly=>1,
},
WINSCW=>{
ABI=>'WINSCW',
ASSPABI=>'',
Compiler=>'CW32',
CPU=>'WINS',
MakeMod=>'Cl_codewarrior',
OS=>'WINS',
DefFile=>'WINS', # use the MSVC def files
},
CW_IDE=>{
ABI=>'WINSCW',
ASSPABI=>'',
Compiler=>'CW32',
CPU=>'WINS',
Ext=>'.xml',
MakeMod=>'Ide_cw',
MakeCmd=>'make',
OS=>'WINS',
Real=>'WINSCW',
DefFile=>'WINS', # use the MSVC def files
UsrHdrsOnly=>1,
SupportsMultiplePlatforms=>1, # supports more than one real platform
},
X86=>{
ABI=>'X86',
ASSPABI=>'',
Compiler=>'VC32',
CPU=>'X86',
MakeMod=>'Cl_x86',
MakeCmd=>'nmake',
OS=>'EPOC32',
DefFile=>'X86',
Generic=>1,
},
X86SMP=>{
ABI=>'X86',
ASSPABI=>'',
Compiler=>'VC32',
CPU=>'X86',
MakeMod=>'Cl_x86',
MakeCmd=>'nmake',
OS=>'EPOC32',
DefFile=>'X86',
Generic=>1,
SMP=>1,
StatLink=>'X86SMP',
},
X86GCC=>{
ABI=>'X86gcc',
ASSPABI=>'',
Compiler=>'X86GCC',
CPU=>'X86',
MakeMod=>'Cl_x86gcc',
OS=>'EPOC32',
DefFile=>'x86gcc',
Generic=>1,
},
X86GMP=>{
ABI=>'X86gcc',
ASSPABI=>'',
Compiler=>'X86GCC',
CPU=>'X86',
MakeMod=>'Cl_x86gcc',
OS=>'EPOC32',
DefFile=>'x86gcc',
Generic=>1,
SMP=>1,
StatLink=>'X86GMP',
},
ARMV4=>{
ABI=>'ARMV4',
ASSP=>'MARM',
ASSPABI=>'',
Generic=>1,
MakeMod=>'Cl_arm',
Compiler=>'ARMCC',
DefFile=>'EABI',
EABI=>1,
},
ARMV4SMP=>{
ABI=>'ARMV4',
ASSP=>'MARM',
ASSPABI=>'',
Generic=>1,
MakeMod=>'Cl_arm',
Compiler=>'ARMCC',
DefFile=>'EABI',
EABI=>1,
SMP=>1,
StatLink=>'ARMV4SMP',
},
ARMV5_ABIV1=>{
ABI=>'ARMV5',
ASSP=>'MARM',
ASSPABI=>'',
Generic=>1,
MakeMod=>'Cl_arm',
Compiler=>'ARMCC',
DefFile=>'EABI',
EABI=>1,
SupportsFeatureVariants=>1,
},
ABIV2=>{
ABI=>'ARMV5',
ASSP=>'MARM',
ASSPABI=>'',
Generic=>1,
MakeMod=>'Cl_bpabi',
DefFile=>'EABI',
EABI=>1,
SupportsFeatureVariants=>1,
},
GCCXML=>{
ABI=>'ARM4',
ASSP=>'MARM',
ASSPABI=>'',
Generic=>1,
MakeMod=>'cl_gccxml',
},
VS6=>{
ABI=>'WINSCW',
ASSPABI=>'',
Compiler=>'CW32',
CPU=>'WINS',
MakeMod=>'Cl_vscw',
OS=>'WINS',
Real=>'WINSCW',
DefFile=>'WINS', # use the MSVC def files
Ext=>'.mak'
},
VS2003=>{
ABI=>'WINSCW',
ASSPABI=>'',
Compiler=>'CW32',
CPU=>'WINS',
MakeMod=>'Cl_vscw',
OS=>'WINS',
Real=>'WINSCW',
DefFile=>'WINS', # use the MSVC def files
Ext=>'.mak'
},
EDG=>{
ABI=>'ARMV5',
ASSP=>'MARM',
ASSPABI=>'',
Generic=>1,
MakeMod=>'cl_edg',
},
# ASSP platforms should be described using .ASSP files
# Do not add additional ASSP platforms to this file.
);
sub Set_Plat()
{
@BPABIPlats = &BPABIutl_Plat_List;
foreach my $Candidate (@BPABIPlats)
{
# All BPABI platforms inherit from ABIV2 properties as listed in the platlist
# and Platlist is updated to include the BPABI platforms.
my ( $key, $value);
while (($key, $value) = each %{$Plat{ABIV2}}) {
$Plat{$Candidate}{$key}=$value;
}
}
}
sub Plat_SupportsFeatureVariants($)
{
my ($plat) = @_;
# In a non-ABIV2 world, ARMV5 means ARMV5_ABIV1 within e32plat content
if (!$variantABIV2Keyword && $plat =~ /^ARMV5$/i)
{
$plat .= "_ABIV1";
}
return ($plat && defined $Plat{$plat}{SupportsFeatureVariants}) ? $Plat{$plat}{SupportsFeatureVariants} : 0;
}
sub Plat_Customizations($) {
my ($plat) = @_;
my @empty = ();
return @{$Plat{$plat}{'CUSTOMIZATIONS'}} if $Plat{$plat}{'CUSTOMIZATIONS'};
return @empty;
}
sub Plat_Customizes($) {
my ($plat) = @_;
return $Plat{$plat}{'CUSTOMIZES'} ? $Plat{$plat}{'CUSTOMIZES'} : "";
}
sub Plat_Root($) {
my ($plat) = @_;
my $RootName = $Plat{$plat}{'ROOTPLATNAME'};
if ($RootName) {
return $RootName;
}
else {
# A non-BSF platform is its own root.
return $plat;
}
}
sub Init_BSFs($) {
my ($Path)=@_;
# get a list of modules
opendir DIR, $Path;
my @BSFs=grep s/^([^\.].*)\.BSF$/$1/, map { uc $_ } sort readdir DIR;
closedir DIR;
my $BSF;
foreach $BSF (@BSFs) {
my $File=$Path.$BSF.'.bsf';
# check whether the assp is already defined
if (defined %{$Plat{$BSF}}) {
warn(
"$File : warning: Platform \"$BSF\" already defined\n",
" ... skipping this spec\n"
);
delete $Plat{$BSF};
next;
}
# open the module
unless (open FILE, $File) {
delete $Plat{$BSF};
warn "warning: Can't open BSF specification \"$File\"\n";
next;
}
my $line1 = <FILE>;
$line1 = uc($line1);
unless ($line1 =~ /^\#\<BSF\>\#/) {
warn "warning: \"$File\" Invalid BSF specification - missing #<bsf>#\n";
delete $Plat{$BSF};
close FILE;
next;
}
my $custom;
while ($custom = <FILE>) {
#skip blank lines and comments
delete $Plat{$BSF};
last unless ($custom =~ /^$|^\#/);
}
$custom = uc $custom;
unless ($custom =~ /^\s*CUSTOMIZES\s+(\S+)/) {
warn "warning: \"$File\" Invalid BSF specification - 'customizes' missing\n";
delete $Plat{$BSF};
close FILE;
next;
}
my $root = $1;
my $platname = '';
my $CustomizedPlatName = '';
# In v1 mode, ARMV5 platform implies ARMV5_ABIV1 platform listed in the platlist
my $Armv5Flag = 0;
if (!$variantABIV2Keyword && $root =~ /^ARMV5$/i) {
$Armv5Flag = 1;
}
# Support for Hierarchy of Customizations (BSF file customization of another BSF file)
# 1. Check whether the BSF file customizes another BSF file.
# 2. If so, check whether the root BSF file has already been read.
# 3. If not read, then defer the current BSF file reading until the root file is read.
my $rootPlatFound = 0;
if (defined %{$Plat{$root}} || $Armv5Flag)
{
# BSF platform customizes another valid BSF platform
if (defined $Plat{$root}{'CUSTOMIZES'})
{
$rootPlatFound = 1;
$platname = $root;
$CustomizedPlatName = $root;
# Set the root platform name which is same as of customizes platform
$Plat{$BSF}{'ROOTPLATNAME'} = $Plat{$root}{'ROOTPLATNAME'};
}
# BSF platform customizes to one of the existing ABI platforms
else
{
# All BPABI platforms inherits from ABIV2 platform listed in the platlist
if (grep /^$root$/i, @BPABIPlats) {
$platname = "ABIV2";
}
elsif ($Armv5Flag) {
# In v1 mode, ARMV5 platform implies ARMV5_ABIV1 platform listed in the platlist
$platname = "ARMV5_ABIV1";
}
else {
$platname = $root;
}
$CustomizedPlatName=$root;
# BSF File check Begins
# The following check is included to handle the existing BSF files which has to behave in different manner
# in default v1 mode and v2 mode. The following code changes the BSF name and the custmoized platform name
# to the implied names. This is done to support switching between v1 and v2 modes by enabling the keyword in
# the variant configuration file.
# In v1 mode, the ARMV6_ABIV1 => ARMV6 platform and ARMV6 => ARMV6_ABIV2 platform.
if (!$variantABIV2Keyword) {
if ($BSF =~ /^ARMV6_ABIV1$/i) {
$BSF = "ARMV6";
$CustomizedPlatName = "ARMV5";
}
elsif ($BSF =~ /^ARMV6$/i) {
$BSF = "ARMV6_ABIV2";
$CustomizedPlatName = "ARMV5_ABIV2";
$platname = "ABIV2";
}
}
# BSF File check Ends
# Set the root platform name
$Plat{$BSF}{'ROOTPLATNAME'} = $CustomizedPlatName;
}
}
else
{
my $rootbsf = $Path.$root.".bsf";
if ( -e $rootbsf ) {
# BSF file customizes another BSF file which has not been read yet.
# So defer current BSF file reading until the root BSF file is read.
delete $Plat{$BSF};
push(@BSFs, $BSF);
next;
}
}
# If the customizes platform is not a valid BSF platform or BPABI platorm or ARMV5 or ARMV5_ABIV1,
# then throw warning.
unless ($rootPlatFound || $root =~ /^ARMV5(_ABIV1)?$/ || (grep /^$root$/i, @BPABIPlats)) {
warn "warning: \"$File\" Invalid BSF specification - customization restricted to ARMV5, ABIv2 and valid BSF platforms\n";
close FILE;
delete $Plat{$BSF};
next;
}
my ( $key, $value);
while (($key, $value) = each %{$Plat{$platname}}) {
$Plat{$BSF}{$key}=$value;
}
push @{$Plat{$CustomizedPlatName}{'CUSTOMIZATIONS'}}, $BSF;
$Plat{$BSF}{'CUSTOMIZES'} = $CustomizedPlatName;
while (<FILE>) {
next if (/^$|^\#/);
if (/^\s*SMP\s*$/i) {
$Plat{$BSF}{'SMP'} = 1;
$Plat{$BSF}{'StatLink'} = lc $BSF;
next;
}
$Plat{$BSF}{'CUSTOMIZATION_DATA'} .= $_;
}
# BSF file statements will have newline character("\n") at the end, except for the last statement.
# So append "\n" for the last BSF file statement.
# "\n" will be used to split BSF statements to support hierarchy of customizations.
$Plat{$BSF}{'CUSTOMIZATION_DATA'} .= "\n";
close FILE;
}
1;
}
sub Plat_Init ($) { # takes path to ASSP modules
my ($Path)=@_;
my %PlatHashKeys=(
ABI=>1,
ASSPABI=>1,
SINGLE=>1,
Compiler=>1,
CPU=>1,
MakeMod=>1,
MakeCmd=>1,
OS=>1,
DefFile=>1,
ASSP=>1,
);
# Include the list of BPABI platforms
&Set_Plat;
Init_BSFs($Path);
# get a list of modules
opendir DIR, $Path;
my @_ASSPs=grep s/^([^\.].*)\.ASSP$/$1/, map { uc $_ } readdir DIR;
closedir DIR;
my @ASSPs;
foreach (@_ASSPs) {
if (!$ENV{USEARMCC} and /EDG$/i) {
# warn(
# "Note: ASSP \"$_\" disabled\n"
# );
next;
}
push @ASSPs, $_;
}
# open each module in turn, and add it to the array
my $ASSP;
foreach $ASSP (@ASSPs) {
my $File=$Path.$ASSP.'.assp';
# check whether the assp is already defined
if (defined %{$Plat{$ASSP}}) {
warn(
"$File : warning: ASSP \"$ASSP\" already defined\n",
" ... skipping this module\n"
);
next;
}
# open the module
unless (open FILE, $File) {
warn "warning: Can't open assp module \"$File\"\n";
next;
}
my %Data=();
my %SingleData=();
my $MatchingSingle="";
my @Errors=();
while (<FILE>) {
# strip comments
s/^([^#]*)#.*$/$1/o;
# skip blank lines
if (/^\s*$/o) {
next;
}
# get the key-value pair
unless (/^\s*(\w+)\s+(\w+)\s*$/o) {
push @Errors, "$File($.) : warning: syntax error - only key-value pairs allowed\n";
next;
}
my ($Key, $Val)=($1, $2);
if ($PlatHashKeys{$Key}!=1) {
push @Errors, "$File($.) : warning: unrecognized keyword - $Key\n";
next;
}
if ($Key eq "SINGLE") {
$SingleData{Single} = 1;
$SingleData{ASSP} = $ASSP;
$MatchingSingle = uc $2;
} else {
$Data{$Key}=$Val;
$SingleData{$Key}=$Val;
}
}
close FILE;
if (@Errors) {
warn(
@Errors,
" ... skipping this module\n"
);
next;
}
# change - Allow ASSPs to pick up all the options of the ABI they specify,
# in particular the compiler they need.
$Data{'ASSP'} = $ASSP unless $Data{'ASSP'};
if ($Plat{$Data{'ABI'}}) {
foreach (keys %{$Plat{$Data{'ABI'}}}) {
$Data{$_} = $Plat{$Data{'ABI'}}{$_} unless ($_ =~ /^GENERIC$/i) or $Data{$_};
}
}
%{$Plat{$ASSP}}=%Data;
if ($MatchingSingle ne "") {
foreach (keys %Data) {
$SingleData{$_} = $Data{$_} unless ($_ =~ /^GENERIC$/i) or $SingleData{$_};
}
%{$Plat{$MatchingSingle}}=%SingleData;
}
}
}
sub Plat_GetL ($$$$) { # takes Platform name, ref to plat hash, ref to bldmacrohash, bldmake plat command notifier
my ($Candidate,$PlatHash_ref,$BldMacrosHash_ref,$platcommand)=@_;
$Candidate=uc $Candidate;
# is platform in our list?
unless (defined $Plat{$Candidate}) {
# is platform BPABI compliant one?
if (!$variantABIV2Keyword && $Candidate eq 'ARMV5') {
}
elsif (not(grep /^$Candidate$/i, @BPABIPlats))
{
die "ERROR: Platform \"$Candidate\" not supported\n";
}
}
my $BPABIPlat;
my %PlatHash=();
# check the data
# All BPABI platforms inherit ABIV2 properties
if (grep /^$Candidate$/i, @BPABIPlats)
{
$BPABIPlat='ABIV2';
%PlatHash=%{$Plat{$BPABIPlat}};
}
# In v1 mode, ARMV5 platform implies ARMV5_ABIV1 platform listed in the platlist
elsif (!$variantABIV2Keyword && $Candidate eq 'ARMV5') {
%PlatHash=%{$Plat{ARMV5_ABIV1}};
}
else {
%PlatHash=%{$Plat{$Candidate}};
}
# set the defaults
$PlatHash{Name}=$Candidate;
$PlatHash{Real}=$PlatHash{Name} unless $PlatHash{Real};
$PlatHash{Ext}=".$PlatHash{Real}" unless $PlatHash{Ext};
$PlatHash{ASSP}=$PlatHash{Real} unless $PlatHash{ASSP};
# Get the root platform name to support hierarchy of customizations
my $CustomizedPlat=$PlatHash{'ROOTPLATNAME'};
if ((defined($Candidate) && ($Candidate =~ /^ARMV5/i)) || (defined($CustomizedPlat) && ($CustomizedPlat =~ /^ARMV5/i))) {
# Compiler name should be set as ARMCC for all ARMV5 platforms
$PlatHash{Compiler}='ARMCC';
$PlatHash{Toolchain}='rvct22';
}
elsif ($BPABIPlat) {
# Compiler name should be set as that of platform name for all BPABI platforms
$PlatHash{Compiler}=$Candidate;
$PlatHash{Toolchain}=$Candidate;
}
elsif ($CustomizedPlat) {
# Compiler name should be set as that of the customized platform name incase of customization
$PlatHash{Compiler}=$CustomizedPlat;
$PlatHash{Toolchain}=$CustomizedPlat;
}
$PlatHash{Compiler}='GCC32' unless $PlatHash{Compiler};
$PlatHash{OS}='EPOC32' unless $PlatHash{OS};
$PlatHash{MakeMod}='Cl_gcc' unless $PlatHash{MakeMod};
$PlatHash{MakeCmd}='make' unless $PlatHash{MakeCmd};
$PlatHash{CPU}='MARM' unless $PlatHash{CPU};
$PlatHash{Single}=0 unless $PlatHash{Single};
$PlatHash{UsrHdrsOnly}=0 unless $PlatHash{UsrHdrsOnly};
$PlatHash{Generic}=0 unless $PlatHash{Generic}; # generic means "for a target device but no particular ASSP"
$PlatHash{SupportsMultiplePlatforms}=0 unless $PlatHash{SupportsMultiplePlatforms};
$PlatHash{ABI}='ARMI' unless $PlatHash{ABI};
$PlatHash{ASSPABI}='ARM4' unless defined $PlatHash{ASSPABI};
unless (defined $PlatHash{DefFile}) {
if ($PlatHash{Compiler} eq 'VC32') {
$PlatHash{DefFile}='WINS';
} else {
$PlatHash{DefFile}='MARM';
}
}
# .MMP macros - keeping the order is useful
@{$PlatHash{MmpMacros}}=$PlatHash{Compiler};
push @{$PlatHash{MmpMacros}}, $PlatHash{OS};
push @{$PlatHash{MmpMacros}}, $PlatHash{CPU} unless $PlatHash{CPU} eq $PlatHash{OS};
push @{$PlatHash{MmpMacros}}, $PlatHash{ASSP} unless $PlatHash{ASSP}=~/^($PlatHash{CPU}|$PlatHash{OS})$/;
if ($PlatHash{Single}) {
push @{$PlatHash{MmpMacros}}, 'SINGLE';
}
if ($PlatHash{SMP}) {
push @{$PlatHash{MmpMacros}}, 'SMP';
}
if ($PlatHash{EABI}) {
push @{$PlatHash{MmpMacros}}, 'EABI';
}
if ($PlatHash{Compiler} eq 'VC32') {
my $MSVCVer = &Winutl_MSVCVer($platcommand);
my $MSVCSubVer = &Winutl_MSVCSubVer($platcommand);
push @{$PlatHash{MmpMacros}}, 'MSVC'.$MSVCVer;
push @{$PlatHash{MmpMacros}}, 'MSVC'.$MSVCVer.$MSVCSubVer;
if ($MSVCVer > 6) {
push @{$PlatHash{MmpMacros}}, 'MSVCDOTNET';
}
}
if ($PlatHash{Compiler} eq 'ARMCC') {
my ($MajVer, $MinVer) = RVCT_plat2set::get_version_list($Candidate);
push @{$PlatHash{MmpMacros}}, 'ARMCC_'.$MajVer;
push @{$PlatHash{MmpMacros}}, 'ARMCC_'.$MajVer.'_'.$MinVer;
}
if ($PlatHash{Compiler} eq 'X86GCC') {
push @{$PlatHash{MmpMacros}}, 'GCC32';
}
## TOOLS2 Specific Macros ##
if ($PlatHash{Compiler} eq 'GCC32') {
push @{$PlatHash{MmpMacros}}, 'MINGW32';
push @{$PlatHash{MmpMacros}}, '_STLP_LITTLE_ENDIAN';
}
# add GCCXML to the mmp macro list, so we can filter out stuff in bld.inf files and mmps.
# note that this mean that __GCCXML__ is automacally routed to makefile, so we can take out explicit call.
if( $PlatHash{Name} eq "GCCXML") {
push @{$PlatHash{MmpMacros}}, 'GCCXML';
}
# add specific platform macros for platforms customising others.
if (Plat_Customizes($PlatHash{Name})) {
push @{$PlatHash{MmpMacros}}, $PlatHash{Name} unless grep /$PlatHash{Name}/, @{$PlatHash{MmpMacros}};
}
# compilation macros
@{$PlatHash{Macros}}=@EpocMacros;
foreach (@{$PlatHash{MmpMacros}}) {
## If STLP_LTTLE_ENDIAN is used, then dont append __ to the macro name ##
if ($_ =~ m/STLP_LITTLE_ENDIAN/) {
push @{$PlatHash{Macros}}, $_;
} else {
push @{$PlatHash{Macros}}, '__'.$_.'__';
}
}
# extra special .MMP macros which aren't applied for compilation
if ($PlatHash{Generic}) {
push @{$PlatHash{MmpMacros}}, "GENERIC_$PlatHash{CPU}";
if ($PlatHash{CPU} eq 'MARM') {
# we can't define this for ASSP platforms because we won't be sure what
# the ABI is until we've processed the .MMP file
push @{$PlatHash{MmpMacros}}, "MARM_$PlatHash{ABI}";
}
}
# builds
@{$PlatHash{Blds}}=@{$BldLists{$PlatHash{OS}}};
# output some information
if ($Mode{Verbose}) {
print
"Platform $PlatHash{Name}\n",
"Real Name $PlatHash{Real}\n",
"Compiler $PlatHash{Compiler}\n",
"OS $PlatHash{OS}\n",
"CPU $PlatHash{CPU}\n",
"ASSP $PlatHash{ASSP}\n",
"ABI $PlatHash{ABI}\n",
"ASSPABI $PlatHash{ASSPABI}\n",
"Makefile Module $PlatHash{MakeMod}\n",
"Makefile Type $PlatHash{MakeCmd}\n",
"MMP Macros @{$PlatHash{MmpMacros}}\n",
"Macros @{$PlatHash{Macros}}\n",
"Blds @{$PlatHash{Blds}}\n"
;
}
%{$PlatHash_ref}=%PlatHash;
%{$BldMacrosHash_ref}=%BldMacros;
}
sub Plat_List () {
# Include the list of BPABI platforms
&Set_Plat;
# return list of supported platforms
#sort keys %Plat;
my @PlatList;
my $Key;
foreach $Key (keys %Plat) {
if (!$variantABIV2Keyword && $Key =~ /^armv5_abiv1$/i) {
$Key = 'ARMV5';
}
unless (grep /^$Key$/i, @PlatList) {
push @PlatList, $Key;
}
}
return @PlatList
}
sub Plat_AssocIDE ($$) {
# return the IDE associated with a "Real" platform if there is one
my ($Candidate, $AssocIDEs)=@_;
unless (defined $Plat{$Candidate}) {
die "ERROR: Platform \"$Candidate\" not supported\n";
}
my $Key;
foreach $Key (keys %Plat) {
if (${Plat{$Key}}{Real}) {
if (${Plat{$Key}}{Real} eq $Candidate) {
push @$AssocIDEs, $Key;
}
}
}
}
1;