fix: make sure host attribute is set rather than blank in logs on windows by using the env var 'COMPUTERNAME' instead of 'HOSTNAME'. Thus make it less difficult to order recipes in the log by time.
/*
* 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 the License "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:
*
*/
#include <assert.h>
#include <string.h>
#include <ctype.h>
#include <stdlib.h>
#if defined(__MSVCDOTNET__) || defined(__TOOLS2__)
#include <sstream>
#include <iostream>
using std::cerr;
using std::endl;
#else //!__MSVCDOTNET__
#ifndef __LINUX__
#include <strstrea.h>
#endif //!__LINUX__
#endif //__MSVCDOTNET__
#include "ASTRING.H"
#include "NUMVAL.H"
#include "STRUCTST.H"
#include "Parser.h"
#include "rcomp.hpp"
#include "MEM.H"
#include "ERRORHAN.H"
#include "RCBINSTR.H"
#if defined(__VC32__)
#pragma warning( disable : 4702 ) // unreachable code
#endif
NumericValue::NumericValue( const String & Source, DataType NumericValueType):
iNumericValueType( NumericValueType),
iData( NULL),
iULongValue( 0),
iSignedValue( 0),
iDoubleValue( 0.0)
{
AllocateSpace();
ConvertToNumber( Source);
}
NumericValue::NumericValue( DataType NumericValueType):
iNumericValueType( NumericValueType),
iData( NULL),
iULongValue( 0),
iSignedValue( 0),
iDoubleValue( 0.0)
{
AllocateSpace();
}
NumericValue::NumericValue( unsigned long ValueToSet, DataType NumericValueType):
iNumericValueType( NumericValueType),
iData( NULL),
iULongValue( 0),
iSignedValue( 0),
iDoubleValue( 0.0)
{
AllocateSpace();
StoreValue( ValueToSet);
}
NumericValue::~NumericValue()
{
delete [] iData;
}
NumericValue::NumericValue( const NumericValue & Source):
iNumericValueType( Source.iNumericValueType),
iData( NULL),
iULongValue( 0),
iSignedValue( 0),
iDoubleValue( 0.0)
{
AllocateSpace();
memcpy( iData, Source.iData, iSize);
}
void NumericValue::AllocateSpace()
{
switch(iNumericValueType)
{
case L_BYTE:
iData = new unsigned char [1];
iSize = 1;
break;
case L_WORD:
iData = new unsigned char [2];
iSize = 2;
break;
case L_LONG:
iData = new unsigned char [4];
iSize = 4;
break;
default:
if ( iNumericValueType != L_DOUBLE)
assert(0); // Cannot use NumericValue for specified data type.
}
if ( iNumericValueType != L_DOUBLE && iData == NULL)
{
ErrorHandler::OutputErrorLine( "Failed to allocate space for number.");
exit(1);
}
}
const unsigned char * NumericValue::Data() const
{
return iData;
}
unsigned long NumericValue::Size() const
{
return iSize;
}
DataType NumericValue::NumericValueType() const
{
return iNumericValueType;
}
void NumericValue::ConvertToNumber( const String & Source)
{
if ( iNumericValueType == L_DOUBLE)
ConvertToDouble( Source);
else
ConvertToNatural( Source);
}
void NumericValue::ConvertToDouble( const String & Source)
{
assert( iNumericValueType == L_DOUBLE);
assert( Source.Length() > 0);
double d = atof( Source.GetAssertedNonEmptyBuffer());
if ( d == 0.0 && !( Source == "0.0" || Source == "0") )
{ MOFF; cerr << "atof may have failed for " << Source << endl; MON;}
iDoubleValue = d;
}
#if defined(__VC32__)
#pragma warning( disable : 4706 ) // assignment within conditional expression
#endif
void NumericValue::ConvertToNatural( const String & Source)
{
unsigned long LongValue = 0;
assert( sizeof( unsigned long) >= 4); // Assume that LongValue can hold at least 2^32 - 1.
const char * pSourceChar = Source.iRep;
int bLeadingHyphen = 0;
int bHexNumber = 0;
if ( pSourceChar[0] == '0' && pSourceChar[1] == 'x')
{
bHexNumber = 1;
pSourceChar++;
pSourceChar++;
}
if ( pSourceChar[0] == '-')
{
bLeadingHyphen = 1;
pSourceChar++;
}
while ( * pSourceChar != '\0')
{
unsigned char DigitValue;
if ( bHexNumber)
{
assert( isxdigit( * pSourceChar) );
if ( isdigit( * pSourceChar) )
DigitValue = (unsigned char)(* pSourceChar - '0');
else
DigitValue = (unsigned char)(toupper( * pSourceChar) - 'A' + 10);
if (LongValue >= 0x10000000)
{
String st("Number \"");
st += Source;
st += "\" is too big ";
ErrorHandler::OutputErrorLine(st); //prevents overflow if number is bigger than 2^32 - 1.
}
LongValue = LongValue * 16 + DigitValue;
}
else
{
if ( ! isdigit( * pSourceChar) )
{
String s( "Cannot convert \"");
s += Source;
s += "\" to a number.";
ErrorHandler::OutputErrorLine( s);
exit(1);
// unreachable code
}
DigitValue = (unsigned char)(* pSourceChar - '0');
if ((LongValue > 429496729) || ((LongValue == 429496729) && (DigitValue > 5)))
{
String st("Number \"");
st += Source;
st += "\" is too big ";
ErrorHandler::OutputErrorLine(st); //prevents overflow if number is bigger than 2^32 - 1.
}
LongValue = LongValue * 10 + DigitValue;
}
pSourceChar++;
assert( ( pSourceChar - Source.iRep) < 10000); // Safety check!
}
int inrange=0;
// Check value is within the allowed range for the type taking into account
// a leading hyphen (minus sign) if there was one.
switch( iNumericValueType)
{
case L_BYTE: // L_BYTE is 8 bits long.
if ( bLeadingHyphen)
{
if ( ! ( inrange = (LongValue <= 128) ) ) // 2 ^ 7
ErrorHandler::OutputErrorLine( "Number too low for BYTE");
}
else
if ( ! ( inrange = (LongValue <= 0xFF) ) )
ErrorHandler::OutputErrorLine( "Number too big for BYTE");
break;
case L_WORD: // L_WORD is 16-bits long.
if ( bLeadingHyphen)
{
if ( ! ( inrange = (LongValue <= 32768) ) ) // 2^15
ErrorHandler::OutputErrorLine( "Number too low for WORD");
}
else
if ( ! ( inrange = (LongValue <= 0xFFFF) ) )
ErrorHandler::OutputErrorLine( "Number too big for WORD");
break;
case L_LONG: // L_LONG is 32-bits long
if ( bLeadingHyphen)
{
if ( ! ( inrange = (LongValue <= 0x80000000) ) ) // 2^31
ErrorHandler::OutputErrorLine( "Number too low for LONG");
}
else
if ( ! ( inrange = (LongValue <= 0xFFFFFFFF ) ) ) // This test is a bit pointless as long cannot be greater than 0xffffffff
ErrorHandler::OutputErrorLine( "Number too big for LONG");
break;
default:
assert(0); // Other data types cannot be converted to natural numbers.
}
if(!inrange)
exit(1);
StoreValue( LongValue);
// If there was a hyphen then make the stored number negative (using two's complement).
if ( bLeadingHyphen)
{
LongValue = (LongValue ^ 0xFFFFFFFFu)+1;
// Output file will be treated as little-endian.
switch ( iNumericValueType)
{
case L_LONG:
iData[3] = (unsigned char)((LongValue & 0xFF000000) >> 24);
iData[2] = (unsigned char)((LongValue & 0xFF0000) >> 16);
case L_WORD:
iData[1] = (unsigned char)((LongValue & 0xFF00) >> 8);
case L_BYTE:
iData[0] = (unsigned char)(LongValue & 0xFF);
}
}
}
#if defined(__VC32__)
#pragma warning( default : 4706 ) // assignment within conditional expression
#endif
void NumericValue::StoreValue( unsigned long LongValue)
{
iULongValue = LongValue;
if ( LongValue <= 0x80000000)
iSignedValue = (unsigned long) LongValue;
int inrange = 1;
switch( iNumericValueType)
{
case L_BYTE:
inrange = ( LongValue <= 0xFF);
break;
case L_WORD:
inrange = ( LongValue <= 0xFFFF);
break;
case L_LONG:
inrange = ( LongValue <= 0xFFFFFFFF);
}
if ( ! inrange)
{
ErrorHandler::OutputErrorLine( "Numeric value out of range for specified type");
exit(1);
}
// Output file will be treated as little-endian.
switch ( iNumericValueType)
{
case L_LONG:
iData[3] = (unsigned char)((LongValue & 0xFF000000) >> 24);
iData[2] = (unsigned char)((LongValue & 0xFF0000) >> 16);
case L_WORD:
iData[1] = (unsigned char)((LongValue & 0xFF00) >> 8);
case L_BYTE:
iData[0] = (unsigned char)(LongValue & 0xFF);
}
}
template<bool> class __CompileTimeAssert {public: __CompileTimeAssert(...) {}};
template<> class __CompileTimeAssert<false> {};
struct COMPILE_TIME_ERROR {};
#define COMPILE_TIME_ASSERT(aCondition) { __CompileTimeAssert<(aCondition)> __temp = __CompileTimeAssert<(aCondition)>(COMPILE_TIME_ERROR()); }
RCBinaryStream & operator<< ( RCBinaryStream & os, NumericValue o)
{
switch( o.iNumericValueType)
{
case L_BYTE:
os.Write( o.iData, 1);
break;
case L_WORD:
os.Write( o.iData, 2);
break;
case L_LONG:
os.Write( o.iData, 4);
break;
case L_DOUBLE:
COMPILE_TIME_ASSERT(sizeof(double) == 8);
os.Write(reinterpret_cast<unsigned char*>(&o.iDoubleValue), 8);
break;
default:
assert(0);
}
return os;
}
void NumericValue::StreamOut(ResourceDataStream& aStream) const
{
switch (iNumericValueType)
{
case L_BYTE:
aStream.StreamIn(iData, 1);
break;
case L_WORD:
aStream.StreamIn(iData, 2);
break;
case L_LONG:
aStream.StreamIn(iData, 4);
break;
case L_DOUBLE:
COMPILE_TIME_ASSERT(sizeof(double) == 8);
aStream.StreamIn(reinterpret_cast<const unsigned char*>(&iDoubleValue), 8);
break;
default:
assert(0);
}
}
NumericValue & NumericValue::operator= ( unsigned long ValueToSet)
{
StoreValue( ValueToSet);
return * this;
}
unsigned long NumericValue::GetULong() const
{
return iULongValue;
}
long NumericValue::GetLong() const
{
assert( iULongValue <= 2147483647); // Check that we are not holding a number that is really positive only.
return iSignedValue;
}
bool NumericValue::CheckSigned(unsigned long aValue, DataType aNumericValueType)
{
switch (aNumericValueType)
{
case L_BYTE:
if (aValue > 0x7f) return false;
break;
case L_WORD:
if (aValue > 0x7fff) return false;
break;
case L_LONG:
if (aValue > 0x7fffffff) return false;
break;
default:
assert(0);
}
return true;
}
String NumericValue::ltoa( long Source)
{
char v[10]; // long can have no more than 10 digits in this implementation.
char * pv = v;
long x;
if ( Source < 0)
x = - Source;
else
x = Source;
if ( x == 0)
* pv++ = '0';
else
{
while( x > 0)
{
assert( pv <= (v+9) );
* pv = char(x%10 + '0');
pv++;
x /= 10;
}
}
// Now reverse digits so they are in the correct order. Put in terminating null and hyphen
// if necessary.
char r[12];
char * pr = r;
if ( Source < 0)
{
r[0] = '-';
pr++;
}
while( pv != v)
{
assert( pr < (r+11) );
* pr++ = * --pv;
}
* pr = '\0';
return r;
}