mirror of
https://github.com/CloverHackyColor/CloverBootloader.git
synced 2024-11-12 09:54:36 +01:00
355 lines
9.8 KiB
C++
Executable File
355 lines
9.8 KiB
C++
Executable File
//*************************************************************************************************
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//*************************************************************************************************
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//
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// STRINGS
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//
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//*************************************************************************************************
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//*************************************************************************************************
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#if !defined(__XSTRINGARRAY_H__)
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#define __XSTRINGARRAY_H__
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#include <XToolsConf.h>
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#include "XToolsCommon.h"
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#include "XObjArray.h"
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#include "XString.h"
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#define XStringArraySuper XObjArray<XStringClass>
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template<class XStringClass_>
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class XStringArray_/* : public XStringArraySuper*/
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{
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protected:
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XObjArray<XStringClass_> array;
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public:
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typedef XStringClass_ XStringClass;
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XStringArray_() {};
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size_t size() const { return array.size(); }
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void setEmpty() { array.Empty(); }
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bool isEmpty() const { return this->size() == 0 ; }
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bool notEmpty() const { return this->size() > 0 ; }
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// #define enable_if _xtools_enable_if_t
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/* [] */
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template<typename IntegralType, enable_if(is_integral(IntegralType))>
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const XStringClass& operator [](IntegralType i) const { return array[i]; }
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/* ElementAt */
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template<typename IntegralType, enable_if(is_integral(IntegralType))>
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const XStringClass& elementAt(IntegralType i) const { return array[i]; }
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template<typename IntegralType, enable_if(is_integral(IntegralType))>
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XStringClass& elementAt(IntegralType i) { return array[i]; }
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// const XStringClass& dbg(size_t i) const { return array[i]; }
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template<class XStringClass1, class XStringClass2, class XStringClass3, enable_if(is___String(XStringClass1) && is___String(XStringClass2) && is___String(XStringClass3))>
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XStringClass ConcatAll(const XStringClass1& Separator, const XStringClass2& Prefix, const XStringClass3& Suffix) const
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{
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xsize i;
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XStringClass s;
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if ( array.size() > 0 ) {
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s = Prefix;
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s += array.ElementAt(0);
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for ( i=1 ; i<array.size() ; i+=1 ) {
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s += Separator;
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s += array.ElementAt(i);
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}
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s += Suffix;
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}
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return s;
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}
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XStringClass ConcatAll() const
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{
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return ConcatAll(", "_XS, NullXString, NullXString);
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}
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template<class XStringClass1, enable_if(is___String(XStringClass1))>
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XStringClass ConcatAll(const XStringClass1& Separator) const
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{
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return ConcatAll(Separator, NullXString, NullXString);
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}
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template<class OtherXStringArrayClass>
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bool Equal(const OtherXStringArrayClass &aStrings) const
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{
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xsize ui;
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if ( array.size() != aStrings.size() ) return false;
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for ( ui=0 ; ui<array.size() ; ui+=1 ) {
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if ( array.ElementAt(ui) != aStrings[ui] ) return false;
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}
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return true;
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}
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template<class OtherXStringArrayClass>
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bool operator ==(const OtherXStringArrayClass &aXStrings) const { return Equal(aXStrings); }
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template<class OtherXStringArrayClass>
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bool operator !=(const OtherXStringArrayClass& aXStrings) const { return !Equal(aXStrings); }
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/* contains */
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template<typename CharType, enable_if(is_char(CharType))>
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bool contains(const CharType* s) const
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{
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for ( size_t i=0 ; i<array.size() ; i+=1 ) {
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if ( array.ElementAt(i).equal(s) ) return true;
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}
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return false;
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}
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template<class OtherXStringClass, enable_if(!is_char(OtherXStringClass) && !is_char_ptr(OtherXStringClass))>
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bool contains(const OtherXStringClass &S) const
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{
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return contains(S.s());
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}
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/* containsIC */
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template<typename CharType, enable_if(is_char(CharType))>
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bool containsIC(const CharType* s) const
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{
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for ( size_t i=0 ; i<array.size() ; i+=1 ) {
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if ( array.ElementAt(i).equalIC(s) ) return true;
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}
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return false;
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}
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template<class OtherXStringClass, enable_if(!is_char(OtherXStringClass) && !is_char_ptr(OtherXStringClass))>
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bool containsIC(const OtherXStringClass &S) const
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{
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return containsIC(S.s());
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}
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/* ContainsStartWithIC */
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template<typename CharType, enable_if(is_char(CharType))>
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bool containsStartWithIC(const CharType* s) const
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{
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for ( size_t i=0 ; i<array.size() ; i+=1 ) {
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if ( array.ElementAt(i).startWithIC(s) ) return true;
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}
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return false;
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}
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template<class OtherXStringClass, enable_if(!is_char(OtherXStringClass) && !is_char_ptr(OtherXStringClass))>
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bool containsStartWithIC(const OtherXStringClass &S) const
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{
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return ContainsStartWithIC(S.s());
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}
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template<class OtherXStringArrayClass>
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bool Same(const OtherXStringArrayClass &aStrings) const
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{
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xsize i;
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for ( i=0 ; i<this->size() ; i+=1 ) {
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if ( !aStrings.contains(array.ElementAt(i)) ) return false;
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}
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for ( i=0 ; i<aStrings.size() ; i+=1 ) {
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if ( !contains(aStrings[i]) ) return false;
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}
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return true;
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}
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// Add
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template<typename CharType>
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void AddStrings(const CharType* Val1, ...)
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{
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va_list va;
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const wchar_t *p;
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{
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XStringClass* newS = new XStringClass;
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newS->takeValueFrom(Val1);
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XStringArraySuper::AddReference(newS, true);
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}
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va_start(va, Val1);
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p = VA_ARG(va, const CharType*);
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while ( p != nullptr ) {
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XStringClass* newS = new XStringClass;
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newS->takeValueFrom(Val1);
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XStringArraySuper::AddReference(newS, true);
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p = VA_ARG(va, const CharType*);
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}
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va_end(va);
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}
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void AddNoNull(const XStringClass &aString) { if ( !aString.isEmpty() ) array.AddCopy(aString); }
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void AddEvenNull(const XStringClass &aString) { array.AddCopy(aString); }
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template<typename CharType, enable_if(is_char(CharType))>
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void Add(const CharType* s)
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{
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XStringClass* xstr = new XStringClass;
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xstr->strcpy(s);
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array.AddReference(xstr, true);
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}
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void Add(const XStringClass &aString) { array.AddCopy(aString); }
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void AddReference(XStringClass *newElement, bool FreeIt) { array.AddReference(newElement, FreeIt); }
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template<class OtherXStringClass>
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void import(const XStringArray_<OtherXStringClass> &aStrings)
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{
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xsize i;
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for ( i=0 ; i<aStrings.size() ; i+=1 ) {
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array.AddCopy(aStrings[i]);
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}
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}
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void AddID(const XStringClass &aString) /* ignore Duplicate */
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{
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if ( !contains(aString) ) array.AddCopy(aString);
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}
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void importID(const XStringArray_ &aStrings) /* ignore Duplicate */
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{
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xsize i;
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for ( i=0 ; i<aStrings.size() ; i+=1 ) {
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if ( !Contains(aStrings[i]) ) AddCopy(aStrings[i]);
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}
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}
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void remove(const XStringClass &aString)
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{
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if ( array.size() > 0 )
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{
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size_t i = array.size();
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do {
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i--;
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if ( array[i] == aString ) {
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array.RemoveAtIndex(i);
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break;
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}
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} while ( i > 0 );
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}
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}
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void removeIC(const XStringClass &aString)
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{
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if ( array.size() > 0 )
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{
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size_t i = array.size();
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do {
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i--;
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if ( array[i].equalIC(aString) ) {
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array.RemoveAtIndex(i);
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break;
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}
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} while ( i > 0 );
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}
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}
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};
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class XStringArray : public XStringArray_<XString>
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{
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};
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extern const XStringArray NullXStringArray;
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class XString16Array : public XStringArray_<XString16>
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{
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};
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extern const XString16Array NullXString16Array;
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class XString32Array : public XStringArray_<XString32>
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{
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};
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extern const XString32Array NullXString32Array;
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class XStringWArray : public XStringArray_<XStringW>
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{
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};
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extern const XStringWArray NullXStringWArray;
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//
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//template<class XStringArrayClass, class XStringClass1, enable_if(!is_char(XStringClass1) && !is_char_ptr(XStringClass1))>
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//XStringArrayClass Split(const XStringClass1& S)
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//{
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// return Split<XStringArrayClass>(S, ", "_XS);
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//};
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template<class XStringArrayClass, typename CharType1, typename CharType2, enable_if(is_char(CharType1) && is_char(CharType2))>
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XStringArrayClass Split(const CharType1* S, const CharType2* Separator)
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{
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XStringArrayClass xsArray;
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size_t separatorLength = length_of_utf_string(Separator);
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if ( separatorLength == 0 ) {
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typename XStringArrayClass::XStringClass* xstr;
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xstr = new typename XStringArrayClass::XStringClass;
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xstr->takeValueFrom(S);
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xsArray.AddReference(xstr, true);
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return xsArray;
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}
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const CharType1* s = S;
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char32_t char32 = 1;
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do
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{
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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
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for ( size_t i = 0 ; i < separatorLength ; i++ ) s = get_char32_from_string(s, &char32);
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}
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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++;
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t = get_char32_from_string(t, &char32);
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}
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typename XStringArrayClass::XStringClass* xstr;
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xstr = new typename XStringArrayClass::XStringClass;
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xstr->strncpy(s, nb);
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xsArray.AddReference(xstr, true);
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// s = get_char32_from_string(t, &char32);
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s = t;
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// Consume the separator we found
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for ( size_t i = 0 ; i < separatorLength ; i++ ) s = get_char32_from_string(s, &char32);
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} while ( char32 );
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return xsArray;
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//
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//
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// // TODO : Allocating temporary strings could be avoided by using low level function from unicode_conversions
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// typename XStringArrayClass::XStringClass SS;
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// SS.takeValueFrom(S);
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// typename XStringArrayClass::XStringClass XSeparator;
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// SS.takeValueFrom(Separator);
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// return Split<XStringArrayClass>(SS, XSeparator);
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};
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template<class XStringArrayClass, class XStringClass1, class XStringClass2, enable_if(is___String(XStringClass1) && is___String(XStringClass2))>
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XStringArrayClass Split(const XStringClass1& S, const XStringClass2& Separator)
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{
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return Split<XStringArrayClass>(S.s(), Separator.s());
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//
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// XStringArrayClass Ss;
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// size_t idxB, idxE;
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//
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// if ( Separator.length() == 0 ) {
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// Ss.Add(S);
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// return Ss;
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// }
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// idxB = 0;
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// idxE = S.indexOf(Separator, idxB);
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// while ( idxE != MAX_XSIZE ) {
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// Ss.Add(S.subString(idxB, idxE-idxB));
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// idxB = idxE + Separator.length();
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// idxE = S.indexOf(Separator, idxB);
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// }
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// if ( idxB < S.length() ) Ss.Add(S.subString(idxB, S.length()-idxB));
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// return Ss;
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};
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template<class XStringArrayClass, class XStringClass1, enable_if(!is_char(XStringClass1) && !is_char_ptr(XStringClass1))>
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XStringArrayClass Split(const XStringClass1& S)
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{
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return Split<XStringArrayClass>(S, ", "_XS);
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};
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#endif
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