CloverBootloader/rEFIt_UEFI/Platform/MacOsVersion.h

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2020-11-12 22:25:56 +01:00
#ifndef __MacOsVersion_H__
#define __MacOsVersion_H__
#include "../cpp_foundation/XStringArray.h"
#include "Utils.h"
2020-11-12 22:25:56 +01:00
const XString8 getSuffixForMacOsVersion(int LoaderType);
class AbstractMacOsVersion
{
public:
static const int nbMaxElement = 5; // if you modify, update the initializer/
XString8 lastError = ""_XS8; // to silence warning effc++
protected:
int versionsNumber[nbMaxElement] = { -1, -1, -1, -1, -1 };
public:
AbstractMacOsVersion() {};
AbstractMacOsVersion(int _versionsNumber[nbMaxElement]) {
size_t idx;
for ( idx=0 ; idx < nbMaxElement && _versionsNumber[idx] != -1 ; idx++ ) versionsNumber[idx] = _versionsNumber[idx];
for ( ; idx < nbMaxElement ; idx++ ) if ( _versionsNumber[idx] != -1 ) panic("MacOsVersion::ctor _versionsNumber[%zu] != -1", idx);
};
int nbElement() const { int idx; for ( idx=0 ; idx < nbMaxElement && versionsNumber[idx] != -1 ; idx++ ) {}; return idx; }
int lastElement() const { int idx; for ( idx=1 ; idx < nbMaxElement && versionsNumber[idx] != -1 ; idx++ ) {}; return versionsNumber[idx-1]; }
void setEmpty() { lastError.setEmpty(); for ( size_t idx=0 ; idx < nbMaxElement ; idx++ ) versionsNumber[idx] = -1; }
bool isEmpty() const { return versionsNumber[0] == -1; }
bool notEmpty() const { return !isEmpty(); }
template<typename IntegralType, enable_if(is_integral(IntegralType))>
int elementAt(IntegralType i) const {
if (i < 0) {
panic("MacOsVersion::elementAt : i < 0. System halted\n");
}
if ( (unsigned_type(IntegralType))i >= nbMaxElement ) {
panic("MacOsVersion::elementAt : i >= nbMaxElement. System halted\n");
}
return versionsNumber[(unsigned_type(IntegralType))i];
}
template<typename IntegralType, enable_if(is_integral(IntegralType))>
XString8 asString(IntegralType i) const {
if (i <= 0) {
panic("MacOsVersion::asString : i < 0. System halted\n");
}
if ( (unsigned_type(IntegralType))i > nbMaxElement ) {
panic("MacOsVersion::asString : i > nbMaxElement. System halted\n");
}
if ( versionsNumber[0] == -1 ) return NullXString8;
XString8 returnValue;
if ( versionsNumber[0] == -2 ) {
returnValue.S8Printf("x");
}else{
returnValue.S8Printf("%d", versionsNumber[0]);
}
for ( size_t idx=1 ; idx < (unsigned_type(IntegralType))i && versionsNumber[idx] != -1 ; idx++ ) {
if ( versionsNumber[idx] == -2 ) {
returnValue.S8Catf(".x");
}else{
returnValue.S8Catf(".%d", versionsNumber[idx]);
}
}
return returnValue;
}
XString8 asString() const { return asString(nbMaxElement); }
};
class MacOsVersionPattern : public AbstractMacOsVersion
{
public:
MacOsVersionPattern() : AbstractMacOsVersion() {};
MacOsVersionPattern(int _versionsNumber[nbMaxElement]) : AbstractMacOsVersion(_versionsNumber) {};
template <class XStringClass, enable_if( is___String(XStringClass) || is___LString(XStringClass) ) >
MacOsVersionPattern(const XStringClass& versionAsString)
{
this->takeValueFrom(versionAsString);
}
template <class XStringClass, enable_if( is___String(XStringClass) || is___LString(XStringClass) ) >
// MacOsVersionPattern& operator = ( const XStringClass& versionAsString)
MacOsVersionPattern& takeValueFrom(const XStringClass& versionAsString)
{
setEmpty(); // we call our own setEmpty although we already are empty (this is a ctor). That's because in case of nbMaxElement is increased and there is a missing value in versionsNumber array initializer.
size_t currentElementIdx = 0;
int* currentElementPtr = &versionsNumber[currentElementIdx];
size_t idx;
for ( idx=0 ; idx < versionAsString.length(); idx++ )
{
if ( *currentElementPtr == -2 ) {
if ( versionAsString[idx] == 'x' || versionAsString[idx] == 'X' ) {
// ok. we allow multiple following x.
}else
if ( versionAsString[idx] == '.' ) {
currentElementIdx += 1;
if ( currentElementIdx >= nbMaxElement ) {
setEmpty();
lastError.S8Printf("Version number cannot be more than %d numbers.", nbMaxElement);
return *this;
}
currentElementPtr = &versionsNumber[currentElementIdx];
}else{
setEmpty();
lastError.S8Printf("Version number wildcard ('x') must be followed by a dot.");
return *this;
}
}else
if ( *currentElementPtr == -1 ) {
if ( versionAsString[idx] == 'x' || versionAsString[idx] == 'X' ) {
*currentElementPtr = -2;
}else
if ( IS_DIGIT(versionAsString[idx]) ) {
*currentElementPtr = ((int)versionAsString[idx]) - '0'; // safe cast because versionAsString[idx] is a digit.
}else
{
setEmpty();
lastError.S8Printf("Version number must be numbers separated with one dot.");
return *this;
}
}else{
if ( versionAsString[idx] == '.' ) {
currentElementIdx += 1;
if ( currentElementIdx >= nbMaxElement ) {
setEmpty();
lastError.S8Printf("Version number cannot be more than %d numbers.", nbMaxElement);
return *this;
}
currentElementPtr = &versionsNumber[currentElementIdx];
}else
if ( IS_DIGIT(versionAsString[idx]) ) {
*currentElementPtr = *currentElementPtr * 10 + ((int)versionAsString[idx]) - '0'; // safe cast because versionAsString[idx] is a digit.
}else{
setEmpty();
lastError.S8Printf("Version number must be numbers separated with one dot.");
return *this;
}
}
}
return *this;
}
template<typename CharType, enable_if(is_char(CharType))>
MacOsVersionPattern& operator = ( const CharType* p) { return *this = LString8(p); }
MacOsVersionPattern(const MacOsVersionPattern& other)
{
lastError = other.lastError;
memcpy(versionsNumber, other.versionsNumber, sizeof(versionsNumber));
}
MacOsVersionPattern& operator = ( const MacOsVersionPattern& other)
{
lastError = other.lastError;
memcpy(versionsNumber, other.versionsNumber, sizeof(versionsNumber));
return *this;
}
};
class MacOsVersion : public AbstractMacOsVersion
{
public:
MacOsVersion() : AbstractMacOsVersion() {};
MacOsVersion(int _versionsNumber[nbMaxElement]) : AbstractMacOsVersion(_versionsNumber) {};
template <class XStringClass, enable_if( is___String(XStringClass) || is___LString(XStringClass) ) >
MacOsVersion(const XStringClass& versionAsString)
{
this->takeValueFrom(versionAsString);
}
template <class XStringClass, enable_if( is___String(XStringClass) || is___LString(XStringClass) ) >
// MacOsVersion& operator = ( const XStringClass& versionAsString)
MacOsVersion& takeValueFrom(const XStringClass& versionAsString)
{
setEmpty(); // we call our own setEmpty although we already are empty (this is a ctor). That's because in case of nbMaxElement is increased and there is a missing value in versionsNumber array initializer.
size_t currentElementIdx = 0;
int* currentElementPtr = &versionsNumber[currentElementIdx];
for ( size_t idx=0 ; idx < versionAsString.length(); idx++ )
{
if ( *currentElementPtr == -1 ) {
if ( !IS_DIGIT(versionAsString[idx]) ) {
setEmpty();
lastError.S8Printf("Version number must be numbers separated with one dot.");
return *this;
}
*currentElementPtr = ((int)versionAsString[idx]) - '0'; // safe cast because versionAsString[idx] is a digit.
}else{
if ( versionAsString[idx] == '.' ) {
currentElementIdx += 1;
if ( currentElementIdx >= nbMaxElement ) {
setEmpty();
lastError.S8Printf("Version number cannot be more than %d numbers.", nbMaxElement);
return *this;
}
currentElementPtr = &versionsNumber[currentElementIdx];
}else
if ( IS_DIGIT(versionAsString[idx]) ) {
*currentElementPtr = *currentElementPtr * 10 + ((int)versionAsString[idx]) - '0'; // safe cast because versionAsString[idx] is a digit.
}else{
setEmpty();
lastError.S8Printf("Version number must be numbers separated with one dot.");
return *this;
}
}
}
return *this;
}
template<typename CharType, enable_if(is_char(CharType))>
MacOsVersion& operator = ( const CharType* p) { return *this = LString8(p); }
MacOsVersion(const MacOsVersion& other)
{
lastError = other.lastError;
memcpy(versionsNumber, other.versionsNumber, sizeof(versionsNumber));
}
MacOsVersion& operator = ( const MacOsVersion& other)
{
lastError = other.lastError;
memcpy(versionsNumber, other.versionsNumber, sizeof(versionsNumber));
return *this;
}
bool match(const MacOsVersionPattern& pattern) const
{
// int nbMax = nbElemen() <= pattern.nbMaxElement ? nbMaxElement : pattern.nbMaxElement;
int idx;
for ( idx=0 ; idx < nbMaxElement && versionsNumber[idx] != -1 && pattern.elementAt(idx) != -1 ; idx++ ) {
if ( pattern.elementAt(idx) == -2 ) continue;
if ( versionsNumber[idx] == pattern.elementAt(idx) ) continue;
return false;
}
if ( idx >= nbMaxElement ) return true; // the whole pattern was macthed => ok.
if ( versionsNumber[idx] == -1 ) {
// self is shorter than pattern
if ( pattern.elementAt(idx) == -1 ) return true; // pattern and self are the same length, and they matched.
if ( pattern.nbElement() == idx+1 && pattern.lastElement() == -2 ) return true;
}else{
// pattern is short then self
if ( pattern.lastElement() == -2 ) return true;
}
return false;
}
bool operator ==(const MacOsVersion &other) const
{
for ( size_t idx=0 ; idx < nbMaxElement ; idx++ ) {
if ( versionsNumber[idx] != other.elementAt(idx) ) return false;
}
return true;
};
bool operator !=(const MacOsVersion &other) const { return ! ( *this == other); }
bool operator <(const MacOsVersion &other) const
{
for ( size_t idx=0 ; idx < nbMaxElement ; idx++ ) {
if ( versionsNumber[idx] < other.elementAt(idx) ) return true;
if ( versionsNumber[idx] > other.elementAt(idx) ) return false;
}
return false; // here, means it's equal
};
bool operator >=(const MacOsVersion &other) const { return ! ( *this < other); }
bool operator >(const MacOsVersion &other) const
{
for ( size_t idx=0 ; idx < nbMaxElement ; idx++ ) {
if ( versionsNumber[idx] > other.elementAt(idx) ) return true;
if ( versionsNumber[idx] < other.elementAt(idx) ) return false;
}
return false; // here, means it's equal
};
bool operator <=(const MacOsVersion &other) const { return ! ( *this > other); }
};
extern MacOsVersion nullMacOsVersion;
#endif // __MacOsVersion_H__