mirror of
https://github.com/hashcat/hashcat.git
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467 lines
10 KiB
C++
467 lines
10 KiB
C++
#include "rar.hpp"
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const char *NullToEmpty(const char *Str)
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{
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return Str==NULL ? "":Str;
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}
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const wchar *NullToEmpty(const wchar *Str)
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{
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return Str==NULL ? L"":Str;
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}
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void IntToExt(const char *Src,char *Dest,size_t DestSize)
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{
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#ifdef _WIN_ALL
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// OemToCharBuff does not stop at 0, so let's check source length.
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size_t SrcLength=strlen(Src)+1;
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if (DestSize>SrcLength)
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DestSize=SrcLength;
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OemToCharBuffA(Src,Dest,(DWORD)DestSize);
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Dest[DestSize-1]=0;
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#else
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if (Dest!=Src)
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strncpyz(Dest,Src,DestSize);
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#endif
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}
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// Convert archived names and comments to Unicode.
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// Allows user to select a code page in GUI.
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void ArcCharToWide(const char *Src,wchar *Dest,size_t DestSize,ACTW_ENCODING Encoding)
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{
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#if defined(_WIN_ALL) // Console Windows RAR.
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if (Encoding==ACTW_UTF8)
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UtfToWide(Src,Dest,DestSize);
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else
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{
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Array<char> NameA;
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if (Encoding==ACTW_OEM)
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{
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NameA.Alloc(DestSize+1);
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IntToExt(Src,&NameA[0],NameA.Size());
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Src=&NameA[0];
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}
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CharToWide(Src,Dest,DestSize);
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}
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#else // RAR for Unix.
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if (Encoding==ACTW_UTF8)
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UtfToWide(Src,Dest,DestSize);
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else
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CharToWide(Src,Dest,DestSize);
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#endif
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// Ensure that we return a zero terminate string for security reason.
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// While [Jni]CharToWide might already do it, be protected in case of future
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// changes in these functions.
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if (DestSize>0)
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Dest[DestSize-1]=0;
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}
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int stricomp(const char *s1,const char *s2)
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{
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#ifdef _WIN_ALL
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return CompareStringA(LOCALE_USER_DEFAULT,NORM_IGNORECASE|SORT_STRINGSORT,s1,-1,s2,-1)-2;
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#else
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while (toupper(*s1)==toupper(*s2))
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{
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if (*s1==0)
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return 0;
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s1++;
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s2++;
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}
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return s1 < s2 ? -1 : 1;
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#endif
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}
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int strnicomp(const char *s1,const char *s2,size_t n)
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{
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#ifdef _WIN_ALL
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// If we specify 'n' exceeding the actual string length, CompareString goes
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// beyond the trailing zero and compares garbage. So we need to limit 'n'
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// to real string length.
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// It is important to use strnlen (or memchr(...,0)) instead of strlen,
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// because data can be not zero terminated.
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size_t l1=Min(strnlen(s1,n),n);
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size_t l2=Min(strnlen(s2,n),n);
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return CompareStringA(LOCALE_USER_DEFAULT,NORM_IGNORECASE|SORT_STRINGSORT,s1,(int)l1,s2,(int)l2)-2;
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#else
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if (n==0)
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return 0;
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while (toupper(*s1)==toupper(*s2))
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{
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if (*s1==0 || --n==0)
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return 0;
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s1++;
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s2++;
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}
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return s1 < s2 ? -1 : 1;
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#endif
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}
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wchar* RemoveEOL(wchar *Str)
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{
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for (int I=(int)wcslen(Str)-1;I>=0 && (Str[I]=='\r' || Str[I]=='\n' || Str[I]==' ' || Str[I]=='\t');I--)
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Str[I]=0;
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return Str;
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}
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wchar* RemoveLF(wchar *Str)
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{
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for (int I=(int)wcslen(Str)-1;I>=0 && (Str[I]=='\r' || Str[I]=='\n');I--)
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Str[I]=0;
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return Str;
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}
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unsigned char loctolower(unsigned char ch)
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{
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#if defined(_WIN_ALL)
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// Convert to LPARAM first to avoid a warning in 64 bit mode.
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// Convert to uintptr_t to avoid Clang/win error: cast to 'char *' from smaller integer type 'unsigned char' [-Werror,-Wint-to-pointer-cast]
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return (int)(LPARAM)CharLowerA((LPSTR)(uintptr_t)ch);
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#else
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return tolower(ch);
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#endif
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}
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unsigned char loctoupper(unsigned char ch)
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{
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#if defined(_WIN_ALL)
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// Convert to LPARAM first to avoid a warning in 64 bit mode.
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// Convert to uintptr_t to avoid Clang/win error: cast to 'char *' from smaller integer type 'unsigned char' [-Werror,-Wint-to-pointer-cast]
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return (int)(LPARAM)CharUpperA((LPSTR)(uintptr_t)ch);
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#else
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return toupper(ch);
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#endif
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}
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// toupper with English only results if English input is provided.
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// It avoids Turkish (small i) -> (big I with dot) conversion problem.
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// We do not define 'ch' as 'int' to avoid necessity to cast all
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// signed chars passed to this function to unsigned char.
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unsigned char etoupper(unsigned char ch)
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{
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if (ch=='i')
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return 'I';
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return toupper(ch);
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}
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// Unicode version of etoupper.
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wchar etoupperw(wchar ch)
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{
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if (ch=='i')
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return 'I';
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return toupperw(ch);
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}
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// We do not want to cast every signed char to unsigned when passing to
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// isdigit, so we implement the replacement. Shall work for Unicode too.
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// If chars are signed, conversion from char to int could generate negative
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// values, resulting in undefined behavior in standard isdigit.
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bool IsDigit(int ch)
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{
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return ch>='0' && ch<='9';
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}
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// We do not want to cast every signed char to unsigned when passing to
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// isspace, so we implement the replacement. Shall work for Unicode too.
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// If chars are signed, conversion from char to int could generate negative
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// values, resulting in undefined behavior in standard isspace.
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bool IsSpace(int ch)
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{
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return ch==' ' || ch=='\t';
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}
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// We do not want to cast every signed char to unsigned when passing to
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// isalpha, so we implement the replacement. Shall work for Unicode too.
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// If chars are signed, conversion from char to int could generate negative
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// values, resulting in undefined behavior in standard function.
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bool IsAlpha(int ch)
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{
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return ch>='A' && ch<='Z' || ch>='a' && ch<='z';
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}
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void BinToHex(const byte *Bin,size_t BinSize,char *HexA,wchar *HexW,size_t HexSize)
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{
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uint A=0,W=0; // ASCII and Unicode hex output positions.
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for (uint I=0;I<BinSize;I++)
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{
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uint High=Bin[I] >> 4;
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uint Low=Bin[I] & 0xf;
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uint HighHex=High>9 ? 'a'+High-10:'0'+High;
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uint LowHex=Low>9 ? 'a'+Low-10:'0'+Low;
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if (HexA!=NULL && A<HexSize-2) // Need space for 2 chars and final zero.
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{
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HexA[A++]=(char)HighHex;
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HexA[A++]=(char)LowHex;
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}
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if (HexW!=NULL && W<HexSize-2) // Need space for 2 chars and final zero.
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{
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HexW[W++]=HighHex;
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HexW[W++]=LowHex;
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}
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}
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if (HexA!=NULL && HexSize>0)
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HexA[A]=0;
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if (HexW!=NULL && HexSize>0)
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HexW[W]=0;
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}
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#ifndef SFX_MODULE
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uint GetDigits(uint Number)
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{
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uint Digits=1;
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while (Number>=10)
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{
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Number/=10;
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Digits++;
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}
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return Digits;
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}
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#endif
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bool LowAscii(const char *Str)
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{
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for (size_t I=0;Str[I]!=0;I++)
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if (/*(byte)Str[I]<32 || */(byte)Str[I]>127)
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return false;
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return true;
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}
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bool LowAscii(const wchar *Str)
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{
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for (size_t I=0;Str[I]!=0;I++)
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{
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// We convert wchar_t to uint just in case if some compiler
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// uses signed wchar_t.
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if (/*(uint)Str[I]<32 || */(uint)Str[I]>127)
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return false;
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}
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return true;
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}
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int wcsicompc(const wchar *s1,const wchar *s2) // For path comparison.
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{
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#if defined(_UNIX)
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return wcscmp(s1,s2);
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#else
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return wcsicomp(s1,s2);
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#endif
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}
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int wcsnicompc(const wchar *s1,const wchar *s2,size_t n)
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{
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#if defined(_UNIX)
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return wcsncmp(s1,s2,n);
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#else
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return wcsnicomp(s1,s2,n);
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#endif
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}
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// Safe copy: copies maxlen-1 max and for maxlen>0 returns zero terminated dest.
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void strncpyz(char *dest, const char *src, size_t maxlen)
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{
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if (maxlen>0)
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{
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while (--maxlen>0 && *src!=0)
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*dest++=*src++;
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*dest=0;
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}
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}
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// Safe copy: copies maxlen-1 max and for maxlen>0 returns zero terminated dest.
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void wcsncpyz(wchar *dest, const wchar *src, size_t maxlen)
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{
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if (maxlen>0)
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{
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while (--maxlen>0 && *src!=0)
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*dest++=*src++;
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*dest=0;
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}
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}
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// Safe append: resulting dest length cannot exceed maxlen and dest
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// is always zero terminated. 'maxlen' parameter defines the entire
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// dest buffer size and is not compatible with wcsncat.
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void strncatz(char* dest, const char* src, size_t maxlen)
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{
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size_t length = strlen(dest);
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if (maxlen > length)
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strncpyz(dest + length, src, maxlen - length);
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}
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// Safe append: resulting dest length cannot exceed maxlen and dest
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// is always zero terminated. 'maxlen' parameter defines the entire
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// dest buffer size and is not compatible with wcsncat.
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void wcsncatz(wchar* dest, const wchar* src, size_t maxlen)
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{
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size_t length = wcslen(dest);
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if (maxlen > length)
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wcsncpyz(dest + length, src, maxlen - length);
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}
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void itoa(int64 n,char *Str,size_t MaxSize)
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{
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char NumStr[50];
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size_t Pos=0;
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int Neg=n < 0 ? 1 : 0;
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if (Neg)
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n=-n;
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do
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{
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if (Pos+1>=MaxSize-Neg)
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break;
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NumStr[Pos++]=char(n%10)+'0';
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n=n/10;
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} while (n!=0);
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if (Neg)
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NumStr[Pos++]='-';
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for (size_t I=0;I<Pos;I++)
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Str[I]=NumStr[Pos-I-1];
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Str[Pos]=0;
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}
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void itoa(int64 n,wchar *Str,size_t MaxSize)
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{
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wchar NumStr[50];
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size_t Pos=0;
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int Neg=n < 0 ? 1 : 0;
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if (Neg)
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n=-n;
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do
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{
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if (Pos+1>=MaxSize-Neg)
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break;
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NumStr[Pos++]=wchar(n%10)+'0';
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n=n/10;
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} while (n!=0);
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if (Neg)
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NumStr[Pos++]='-';
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for (size_t I=0;I<Pos;I++)
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Str[I]=NumStr[Pos-I-1];
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Str[Pos]=0;
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}
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const wchar* GetWide(const char *Src)
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{
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const size_t MaxLength=NM;
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static wchar StrTable[4][MaxLength];
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static uint StrNum=0;
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if (++StrNum >= ASIZE(StrTable))
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StrNum=0;
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wchar *Str=StrTable[StrNum];
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CharToWide(Src,Str,MaxLength);
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Str[MaxLength-1]=0;
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return Str;
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}
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// Parse string containing parameters separated with spaces.
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// Support quote marks. Param can be NULL to return the pointer to next
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// parameter, which can be used to estimate the buffer size for Param.
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const wchar* GetCmdParam(const wchar *CmdLine,wchar *Param,size_t MaxSize)
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{
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while (IsSpace(*CmdLine))
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CmdLine++;
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if (*CmdLine==0)
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return NULL;
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size_t ParamSize=0;
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bool Quote=false;
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while (*CmdLine!=0 && (Quote || !IsSpace(*CmdLine)))
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{
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if (*CmdLine=='\"')
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{
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if (CmdLine[1]=='\"')
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{
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// Insert the quote character instead of two adjoining quote characters.
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if (Param!=NULL && ParamSize<MaxSize-1)
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Param[ParamSize++]='\"';
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CmdLine++;
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}
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else
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Quote=!Quote;
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}
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else
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if (Param!=NULL && ParamSize<MaxSize-1)
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Param[ParamSize++]=*CmdLine;
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CmdLine++;
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}
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if (Param!=NULL)
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Param[ParamSize]=0;
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return CmdLine;
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}
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#ifndef RARDLL
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// For compatibility with existing translations we use %s to print Unicode
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// strings in format strings and convert them to %ls here. %s could work
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// without such conversion in Windows, but not in Unix wprintf.
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void PrintfPrepareFmt(const wchar *Org,wchar *Cvt,size_t MaxSize)
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{
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uint Src=0,Dest=0;
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while (Org[Src]!=0 && Dest<MaxSize-1)
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{
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if (Org[Src]=='%' && (Src==0 || Org[Src-1]!='%'))
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{
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uint SPos=Src+1;
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// Skipping a possible width specifier like %-50s.
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while (IsDigit(Org[SPos]) || Org[SPos]=='-')
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SPos++;
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if (Org[SPos]=='s' && Dest<MaxSize-(SPos-Src+1))
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{
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while (Src<SPos)
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Cvt[Dest++]=Org[Src++];
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Cvt[Dest++]='l';
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}
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}
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#ifdef _WIN_ALL
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// Convert \n to \r\n in Windows. Important when writing to log,
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// so other tools like Notebook can view resulting log properly.
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if (Org[Src]=='\n' && (Src==0 || Org[Src-1]!='\r'))
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Cvt[Dest++]='\r';
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#endif
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Cvt[Dest++]=Org[Src++];
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}
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Cvt[Dest]=0;
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}
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#endif
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