CloverBootloader/rEFIt_UEFI/cpp_foundation/XStringArray.h

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//*************************************************************************************************
//*************************************************************************************************
//
// STRINGS
//
//*************************************************************************************************
//*************************************************************************************************
#if !defined(__XSTRINGARRAY_H__)
#define __XSTRINGARRAY_H__
#include <XToolsConf.h>
#include "XToolsCommon.h"
#include "XObjArray.h"
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#include "XString.h"
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template<typename T, typename Tdummy=void>
struct _xstringarray__char_type;
template<typename T>
struct _xstringarray__char_type<T, enable_if_t(is___String(T))>
{
// typedef const char* type;
static const typename T::char_t* getCharPtr(const T& t) { return t.s(); }
};
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template<typename T>
struct _xstringarray__char_type<T*, enable_if_t(is_char(T))>
{
static const T* getCharPtr(T* t) { return t; }
};
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//template<typename T>
//struct _xstringarray__char_type<const T*, enable_if_t(is_char(T))>
//{
// static const T* getCharPtr(const T* t) { return t; }
//};
template<typename T>
struct _xstringarray__char_type<const T[]>
{
static const T* getCharPtr(T* t) { return t; }
};
template<typename T, size_t _Np>
struct _xstringarray__char_type<T[_Np]>
{
static const T* getCharPtr(const T* t) { return t; }
};
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//#define XStringArraySuper XObjArray<XStringClass>
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template<class XStringClass_, class XStringArrayClass>
class XStringArray_/* : public XStringArraySuper*/
{
protected:
XObjArray<XStringClass_> array;
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public:
typedef XStringClass_ XStringClass;
XStringArray_() : array() {};
size_t size() const { return array.size(); }
void setEmpty() { array.setEmpty(); }
bool isEmpty() const { return this->size() == 0 ; }
bool notEmpty() const { return this->size() > 0 ; }
// #define enable_if _xtools_enable_if_t
/* [] */
template<typename IntegralType, enable_if(is_integral(IntegralType))>
const XStringClass& operator [](IntegralType i) const { return array[i]; }
template<typename IntegralType, enable_if(is_integral(IntegralType))>
XStringClass& operator [](IntegralType i) { return array[i]; }
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/* ElementAt */
template<typename IntegralType, enable_if(is_integral(IntegralType))>
const XStringClass& elementAt(IntegralType i) const { return array[i]; }
template<typename IntegralType, enable_if(is_integral(IntegralType))>
XStringClass& elementAt(IntegralType i) { return array[i]; }
template<class Type1, class Type2, class Type3,
enable_if(
( is_char(Type1) || is_char_ptr(Type1) || is___String(Type1) ) &&
( is_char(Type2) || is_char_ptr(Type2) || is___String(Type2) ) &&
( is_char(Type3) || is_char_ptr(Type3) || is___String(Type3) )
)
>
XStringClass ConcatAll(const Type1& Separator, const Type2& Prefix, const Type3& Suffix) const
{
size_t i;
XStringClass s;
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if ( array.size() > 0 ) {
s.takeValueFrom(Prefix);
s += array.ElementAt(0);
for ( i=1 ; i<array.size() ; i+=1 ) {
s += Separator;
s += array.ElementAt(i);
}
s += Suffix;
}
return s;
}
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XStringClass ConcatAll() const
{
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return ConcatAll(", ", "", "");
}
template<class Type1, enable_if(is_char(Type1) || is_char_ptr(Type1) || is___String(Type1))>
XStringClass ConcatAll(const Type1& Separator) const
{
return ConcatAll(Separator, "", "");
}
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template<class OtherXStringArrayClass>
bool Equal(const OtherXStringArrayClass &aStrings) const
{
size_t ui;
if ( array.size() != aStrings.size() ) return false;
for ( ui=0 ; ui<array.size() ; ui+=1 ) {
if ( array.ElementAt(ui) != aStrings[ui] ) return false;
}
return true;
}
template<class OtherXStringArrayClass>
bool operator ==(const OtherXStringArrayClass &aXStrings) const { return Equal(aXStrings); }
template<class OtherXStringArrayClass>
bool operator !=(const OtherXStringArrayClass& aXStrings) const { return !Equal(aXStrings); }
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/* contains */
template<typename CharType, enable_if(is_char(CharType))>
bool contains(const CharType* s) const
{
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for ( size_t i=0 ; i<array.size() ; i+=1 ) {
if ( array.ElementAt(i).equal(s) ) return true;
}
return false;
}
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template<class OtherXStringClass, enable_if(!is_char(OtherXStringClass) && !is_char_ptr(OtherXStringClass))>
bool contains(const OtherXStringClass &S) const
{
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return contains(S.s());
}
/* containsIC */
template<typename CharType, enable_if(is_char(CharType))>
bool containsIC(const CharType* s) const
{
for ( size_t i=0 ; i<array.size() ; i+=1 ) {
if ( array.ElementAt(i).equalIC(s) ) return true;
}
return false;
}
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template<class OtherXStringClass, enable_if(!is_char(OtherXStringClass) && !is_char_ptr(OtherXStringClass))>
bool containsIC(const OtherXStringClass &S) const
{
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return containsIC(S.s());
}
/* ContainsStartWithIC */
template<typename CharType, enable_if(is_char(CharType))>
bool containsStartWithIC(const CharType* s) const
{
for ( size_t i=0 ; i<array.size() ; i+=1 ) {
if ( array.ElementAt(i).startWithIC(s) ) return true;
}
return false;
}
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template<class OtherXStringClass, enable_if(!is_char(OtherXStringClass) && !is_char_ptr(OtherXStringClass))>
bool containsStartWithIC(const OtherXStringClass &S) const
{
return ContainsStartWithIC(S.s());
}
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template<class OtherXStringArrayClass>
bool Same(const OtherXStringArrayClass &aStrings) const
{
size_t i;
for ( i=0 ; i<this->size() ; i+=1 ) {
if ( !aStrings.contains(array.ElementAt(i)) ) return false;
}
for ( i=0 ; i<aStrings.size() ; i+=1 ) {
if ( !contains(aStrings[i]) ) return false;
}
return true;
}
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// Add
template<typename CharType>
void AddStrings(const CharType* Val1, ...)
{
va_list va;
const wchar_t *p;
{
XStringClass* newS = new XStringClass;
newS->takeValueFrom(Val1);
AddReference(newS, true);
}
va_start(va, Val1);
p = VA_ARG(va, const CharType*);
while ( p != nullptr ) {
XStringClass* newS = new XStringClass;
newS->takeValueFrom(Val1);
AddReference(newS, true);
p = VA_ARG(va, const CharType*);
}
va_end(va);
}
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void AddNoNull(const XStringClass &aString) { if ( !aString.isEmpty() ) array.AddCopy(aString); }
void AddEvenNull(const XStringClass &aString) { array.AddCopy(aString); }
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template<typename CharType, enable_if(is_char(CharType))>
void Add(const CharType* s)
{
XStringClass* xstr = new XStringClass;
xstr->strcpy(s);
array.AddReference(xstr, true);
}
template<typename XStringClass1, enable_if(is___String(XStringClass1))>
void Add(const XStringClass1 &aString) { Add(aString.s()); }
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template<typename XStringClass1, enable_if(is___String(XStringClass1))>
void insertAtPos(const XStringClass1 &aString, size_t pos) { array.InsertRef(new XStringClass1(aString), pos, true); }
void AddReference(XStringClass *newElement, bool FreeIt) { array.AddReference(newElement, FreeIt); }
void insertReferenceAtPos(XStringClass *newElement, size_t pos, bool FreeIt) { array.InsertRef(newElement, pos, FreeIt); }
template<class OtherXStringClass, class OtherXStringArrayClass>
void import(const XStringArray_<OtherXStringClass, OtherXStringArrayClass> &aStrings)
{
size_t i;
for ( i=0 ; i<aStrings.size() ; i+=1 ) {
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array.AddCopy(aStrings[i]);
}
}
void AddID(const XStringClass &aString) /* ignore Duplicate */
{
if ( !contains(aString) ) array.AddCopy(aString);
}
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void importID(const XStringArray_ &aStrings) /* ignore Duplicate */
{
size_t i;
for ( i=0 ; i<aStrings.size() ; i+=1 ) {
if ( !Contains(aStrings[i]) ) AddCopy(aStrings[i]);
}
}
void remove(const XStringClass &aString)
{
if ( array.size() > 0 )
{
size_t i = array.size();
do {
i--;
if ( array[i] == aString ) {
array.RemoveAtIndex(i);
break;
}
} while ( i > 0 );
}
}
void removeAtPos(size_t pos)
{
array.RemoveAtIndex(pos);
}
void removeIC(const XStringClass &aString)
{
if ( array.size() > 0 )
{
size_t i = array.size();
do {
i--;
if ( array[i].equalIC(aString) ) {
array.RemoveAtIndex(i);
break;
}
} while ( i > 0 );
}
}
XStringArrayClass trimEachString()
{
for ( size_t i=0 ; i<array.size() ; i+=1 ) {
array.ElementAt(i).trim();
}
return *((XStringArrayClass*)this);
}
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};
class XString8Array : public XStringArray_<XString8, XString8Array>
{
};
extern const XString8Array NullXString8Array;
class XString16Array : public XStringArray_<XString16, XString16Array>
{
};
extern const XString16Array NullXString16Array;
class XString32Array : public XStringArray_<XString32, XString32Array>
{
};
extern const XString32Array NullXString32Array;
class XStringWArray : public XStringArray_<XStringW, XStringWArray>
{
};
extern const XStringWArray NullXStringWArray;
//
//template<class XStringArrayClass, class XStringClass1, enable_if(!is_char(XStringClass1) && !is_char_ptr(XStringClass1))>
//XStringArrayClass Split(const XStringClass1& S)
//{
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// return Split<XStringArrayClass>(S, ", "_XS8);
//};
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//template<class XStringArrayClass, typename CharType1, typename CharType2, enable_if(is_char(CharType1) && is_char(CharType2))>
template<class XStringArrayClass, typename Type1, typename Type2,
enable_if(
( is_char_ptr(Type1) || is___String(Type1) || is___LString(Type1) ) &&
( is_char_ptr(Type2) || is___String(Type2) || is___LString(Type2) )
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)
>
XStringArrayClass Split(Type1 S, const Type2 Separator)
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{
XStringArrayClass xsArray;
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auto s = _xstringarray__char_type<Type1>::getCharPtr(S);
auto separator = _xstringarray__char_type<Type2>::getCharPtr(Separator);
// typename _xstringarray__char_type<Type2>::type separator = Separator;
size_t separatorLength = length_of_utf_string(separator);
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if ( separatorLength == 0 ) {
typename XStringArrayClass::XStringClass* xstr;
xstr = new typename XStringArrayClass::XStringClass;
xstr->takeValueFrom(S);
xsArray.AddReference(xstr, true);
return xsArray;
}
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// typename _xstringarray__char_type<Type1>::type s = S;
// const CharType1* s = S;
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char32_t char32 = 1;
do
{
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while ( XStringAbstract__ncompare(s, separator, separatorLength, false) == 0 ) {
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// I have to implement a move_forward_one_char in unicode_conversions, as we don't care about char32
for ( size_t i = 0 ; i < separatorLength ; i++ ) s = get_char32_from_string(s, &char32);
}
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if ( !*s ) return xsArray;
auto t = s;
// typename _xstringarray__char_type<Type1>::type t = s;
// const CharType1* t = s;
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size_t nb = 0;
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while ( char32 && XStringAbstract__ncompare(t, separator, separatorLength, false) != 0 ) {
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nb++;
t = get_char32_from_string(t, &char32);
}
typename XStringArrayClass::XStringClass* xstr;
xstr = new typename XStringArrayClass::XStringClass;
xstr->strncpy(s, nb);
xsArray.AddReference(xstr, true);
// s = get_char32_from_string(t, &char32);
s = t;
// Consume the separator we found
for ( size_t i = 0 ; i < separatorLength ; i++ ) s = get_char32_from_string(s, &char32);
} while ( char32 );
return xsArray;
//
//
// // TODO : Allocating temporary strings could be avoided by using low level function from unicode_conversions
// typename XStringArrayClass::XStringClass SS;
// SS.takeValueFrom(S);
// typename XStringArrayClass::XStringClass XSeparator;
// SS.takeValueFrom(Separator);
// return Split<XStringArrayClass>(SS, XSeparator);
};
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template<class XStringArrayClass, class Type1, enable_if( is_char_ptr(Type1) || is___String(Type1) ) >
XStringArrayClass Split(Type1 S)
{
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return Split<XStringArrayClass>(S, ", ");
};
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//
//template<class XStringArrayClass, class XStringClass1, class XStringClass2, enable_if(is___String(XStringClass1) && is___String(XStringClass2))>
//XStringArrayClass Split(const XStringClass1& S, const XStringClass2& Separator)
//{
// return Split<XStringArrayClass>(S.s(), Separator.s());
////
//// XStringArrayClass Ss;
//// size_t idxB, idxE;
////
//// if ( Separator.length() == 0 ) {
//// Ss.Add(S);
//// return Ss;
//// }
//// idxB = 0;
//// idxE = S.indexOf(Separator, idxB);
//// while ( idxE != MAX_XSIZE ) {
//// Ss.Add(S.subString(idxB, idxE-idxB));
//// idxB = idxE + Separator.length();
//// idxE = S.indexOf(Separator, idxB);
//// }
//// if ( idxB < S.length() ) Ss.Add(S.subString(idxB, S.length()-idxB));
//// return Ss;
//};
//
//
//template<class XStringArrayClass, class XStringClass1, enable_if(!is_char(XStringClass1) && !is_char_ptr(XStringClass1))>
//XStringArrayClass Split(const XStringClass1& S)
//{
// return Split<XStringArrayClass>(S, ", "_XS8);
//};
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#endif