/////////////////////////////////////////////////////////////////////////////// // Name: wx/arrstr.h // Purpose: wxArrayString class // Author: Mattia Barbon and Vadim Zeitlin // Modified by: // Created: 07/07/03 // Copyright: (c) 2003 Vadim Zeitlin // Licence: wxWindows licence /////////////////////////////////////////////////////////////////////////////// #ifndef _WX_ARRSTR_H #define _WX_ARRSTR_H #include "wx/defs.h" #include "wx/string.h" // these functions are only used in STL build now but we define them in any // case for compatibility with the existing code outside of the library which // could be using them inline int wxCMPFUNC_CONV wxStringSortAscending(wxString* s1, wxString* s2) { return s1->Cmp(*s2); } inline int wxCMPFUNC_CONV wxStringSortDescending(wxString* s1, wxString* s2) { return wxStringSortAscending(s2, s1); } #if wxUSE_STD_CONTAINERS #include "wx/dynarray.h" typedef int (wxCMPFUNC_CONV *CMPFUNCwxString)(wxString*, wxString*); typedef wxString _wxArraywxBaseArrayStringBase; _WX_DECLARE_BASEARRAY_2(_wxArraywxBaseArrayStringBase, wxBaseArrayStringBase, wxArray_SortFunction, class WXDLLIMPEXP_BASE); WX_DEFINE_USER_EXPORTED_TYPEARRAY(wxString, wxArrayStringBase, wxBaseArrayStringBase, WXDLLIMPEXP_BASE); _WX_DEFINE_SORTED_TYPEARRAY_2(wxString, wxSortedArrayStringBase, wxBaseArrayStringBase, = wxStringSortAscending, class WXDLLIMPEXP_BASE, CMPFUNCwxString); class WXDLLIMPEXP_BASE wxArrayString : public wxArrayStringBase { public: // type of function used by wxArrayString::Sort() typedef int (wxCMPFUNC_CONV *CompareFunction)(const wxString& first, const wxString& second); wxArrayString() { } wxArrayString(const wxArrayString& a) : wxArrayStringBase(a) { } wxArrayString(size_t sz, const char** a); wxArrayString(size_t sz, const wchar_t** a); wxArrayString(size_t sz, const wxString* a); int Index(const wxString& str, bool bCase = true, bool bFromEnd = false) const; void Sort(bool reverseOrder = false); void Sort(CompareFunction function); void Sort(CMPFUNCwxString function) { wxArrayStringBase::Sort(function); } size_t Add(const wxString& string, size_t copies = 1) { wxArrayStringBase::Add(string, copies); return size() - copies; } }; class WXDLLIMPEXP_BASE wxSortedArrayString : public wxSortedArrayStringBase { public: wxSortedArrayString() : wxSortedArrayStringBase(wxStringSortAscending) { } wxSortedArrayString(const wxSortedArrayString& array) : wxSortedArrayStringBase(array) { } wxSortedArrayString(const wxArrayString& src) : wxSortedArrayStringBase(wxStringSortAscending) { reserve(src.size()); for ( size_t n = 0; n < src.size(); n++ ) Add(src[n]); } int Index(const wxString& str, bool bCase = true, bool bFromEnd = false) const; private: void Insert() { wxFAIL_MSG( "wxSortedArrayString::Insert() is not to be used" ); } void Sort() { wxFAIL_MSG( "wxSortedArrayString::Sort() is not to be used" ); } }; #else // if !wxUSE_STD_CONTAINERS #include "wx/beforestd.h" #include #include "wx/afterstd.h" class WXDLLIMPEXP_BASE wxArrayString { public: // type of function used by wxArrayString::Sort() typedef int (wxCMPFUNC_CONV *CompareFunction)(const wxString& first, const wxString& second); // type of function used by wxArrayString::Sort(), for compatibility with // wxArray typedef int (wxCMPFUNC_CONV *CompareFunction2)(wxString* first, wxString* second); // constructors and destructor // default ctor wxArrayString() { Init(false); } // if autoSort is true, the array is always sorted (in alphabetical order) // // NB: the reason for using int and not bool is that like this we can avoid // using this ctor for implicit conversions from "const char *" (which // we'd like to be implicitly converted to wxString instead!). This // wouldn't be needed if the 'explicit' keyword was supported by all // compilers, or if this was protected ctor for wxSortedArrayString, // but we're stuck with it now. wxEXPLICIT wxArrayString(int autoSort) { Init(autoSort != 0); } // C string array ctor wxArrayString(size_t sz, const char** a); wxArrayString(size_t sz, const wchar_t** a); // wxString string array ctor wxArrayString(size_t sz, const wxString* a); // copy ctor wxArrayString(const wxArrayString& array); // assignment operator wxArrayString& operator=(const wxArrayString& src); // not virtual, this class should not be derived from ~wxArrayString(); // memory management // empties the list, but doesn't release memory void Empty(); // empties the list and releases memory void Clear(); // preallocates memory for given number of items void Alloc(size_t nCount); // minimzes the memory usage (by freeing all extra memory) void Shrink(); // simple accessors // number of elements in the array size_t GetCount() const { return m_nCount; } // is it empty? bool IsEmpty() const { return m_nCount == 0; } // number of elements in the array (GetCount is preferred API) size_t Count() const { return m_nCount; } // items access (range checking is done in debug version) // get item at position uiIndex wxString& Item(size_t nIndex) { wxASSERT_MSG( nIndex < m_nCount, wxT("wxArrayString: index out of bounds") ); return m_pItems[nIndex]; } const wxString& Item(size_t nIndex) const { return const_cast(this)->Item(nIndex); } // same as Item() wxString& operator[](size_t nIndex) { return Item(nIndex); } const wxString& operator[](size_t nIndex) const { return Item(nIndex); } // get last item wxString& Last() { wxASSERT_MSG( !IsEmpty(), wxT("wxArrayString: index out of bounds") ); return Item(GetCount() - 1); } const wxString& Last() const { return const_cast(this)->Last(); } // item management // Search the element in the array, starting from the beginning if // bFromEnd is false or from end otherwise. If bCase, comparison is case // sensitive (default). Returns index of the first item matched or // wxNOT_FOUND int Index (const wxString& str, bool bCase = true, bool bFromEnd = false) const; // add new element at the end (if the array is not sorted), return its // index size_t Add(const wxString& str, size_t nInsert = 1); // add new element at given position void Insert(const wxString& str, size_t uiIndex, size_t nInsert = 1); // expand the array to have count elements void SetCount(size_t count); // remove first item matching this value void Remove(const wxString& sz); // remove item by index void RemoveAt(size_t nIndex, size_t nRemove = 1); // sorting // sort array elements in alphabetical order (or reversed alphabetical // order if reverseOrder parameter is true) void Sort(bool reverseOrder = false); // sort array elements using specified comparison function void Sort(CompareFunction compareFunction); void Sort(CompareFunction2 compareFunction); // comparison // compare two arrays case sensitively bool operator==(const wxArrayString& a) const; // compare two arrays case sensitively bool operator!=(const wxArrayString& a) const { return !(*this == a); } // STL-like interface typedef wxString value_type; typedef value_type* pointer; typedef const value_type* const_pointer; typedef value_type* iterator; typedef const value_type* const_iterator; typedef value_type& reference; typedef const value_type& const_reference; typedef int difference_type; typedef size_t size_type; // TODO: this code duplicates the one in dynarray.h class reverse_iterator { typedef wxString value_type; typedef value_type* pointer; typedef value_type& reference; typedef reverse_iterator itor; friend itor operator+(int o, const itor& it); friend itor operator+(const itor& it, int o); friend itor operator-(const itor& it, int o); friend difference_type operator -(const itor& i1, const itor& i2); public: pointer m_ptr; reverse_iterator() : m_ptr(NULL) { } wxEXPLICIT reverse_iterator(pointer ptr) : m_ptr(ptr) { } reverse_iterator(const itor& it) : m_ptr(it.m_ptr) { } reference operator*() const { return *m_ptr; } pointer operator->() const { return m_ptr; } itor& operator++() { --m_ptr; return *this; } const itor operator++(int) { reverse_iterator tmp = *this; --m_ptr; return tmp; } itor& operator--() { ++m_ptr; return *this; } const itor operator--(int) { itor tmp = *this; ++m_ptr; return tmp; } bool operator ==(const itor& it) const { return m_ptr == it.m_ptr; } bool operator !=(const itor& it) const { return m_ptr != it.m_ptr; } }; class const_reverse_iterator { typedef wxString value_type; typedef const value_type* pointer; typedef const value_type& reference; typedef const_reverse_iterator itor; friend itor operator+(int o, const itor& it); friend itor operator+(const itor& it, int o); friend itor operator-(const itor& it, int o); friend difference_type operator -(const itor& i1, const itor& i2); public: pointer m_ptr; const_reverse_iterator() : m_ptr(NULL) { } wxEXPLICIT const_reverse_iterator(pointer ptr) : m_ptr(ptr) { } const_reverse_iterator(const itor& it) : m_ptr(it.m_ptr) { } const_reverse_iterator(const reverse_iterator& it) : m_ptr(it.m_ptr) { } reference operator*() const { return *m_ptr; } pointer operator->() const { return m_ptr; } itor& operator++() { --m_ptr; return *this; } const itor operator++(int) { itor tmp = *this; --m_ptr; return tmp; } itor& operator--() { ++m_ptr; return *this; } const itor operator--(int) { itor tmp = *this; ++m_ptr; return tmp; } bool operator ==(const itor& it) const { return m_ptr == it.m_ptr; } bool operator !=(const itor& it) const { return m_ptr != it.m_ptr; } }; wxArrayString(const_iterator first, const_iterator last) { Init(false); assign(first, last); } wxArrayString(size_type n, const_reference v) { Init(false); assign(n, v); } template void assign(Iterator first, Iterator last) { clear(); reserve(std::distance(first, last)); for(; first != last; ++first) push_back(*first); } void assign(size_type n, const_reference v) { clear(); Add(v, n); } reference back() { return *(end() - 1); } const_reference back() const { return *(end() - 1); } iterator begin() { return m_pItems; } const_iterator begin() const { return m_pItems; } size_type capacity() const { return m_nSize; } void clear() { Clear(); } bool empty() const { return IsEmpty(); } iterator end() { return begin() + GetCount(); } const_iterator end() const { return begin() + GetCount(); } iterator erase(iterator first, iterator last) { size_t idx = first - begin(); RemoveAt(idx, last - first); return begin() + idx; } iterator erase(iterator it) { return erase(it, it + 1); } reference front() { return *begin(); } const_reference front() const { return *begin(); } void insert(iterator it, size_type n, const_reference v) { Insert(v, it - begin(), n); } iterator insert(iterator it, const_reference v = value_type()) { size_t idx = it - begin(); Insert(v, idx); return begin() + idx; } void insert(iterator it, const_iterator first, const_iterator last); size_type max_size() const { return INT_MAX; } void pop_back() { RemoveAt(GetCount() - 1); } void push_back(const_reference v) { Add(v); } reverse_iterator rbegin() { return reverse_iterator(end() - 1); } const_reverse_iterator rbegin() const { return const_reverse_iterator(end() - 1); } reverse_iterator rend() { return reverse_iterator(begin() - 1); } const_reverse_iterator rend() const { return const_reverse_iterator(begin() - 1); } void reserve(size_type n) /* base::reserve*/; void resize(size_type n, value_type v = value_type()); size_type size() const { return GetCount(); } void swap(wxArrayString& other) { wxSwap(m_nSize, other.m_nSize); wxSwap(m_nCount, other.m_nCount); wxSwap(m_pItems, other.m_pItems); wxSwap(m_autoSort, other.m_autoSort); } protected: void Init(bool autoSort); // common part of all ctors void Copy(const wxArrayString& src); // copies the contents of another array private: void Grow(size_t nIncrement = 0); // makes array bigger if needed size_t m_nSize, // current size of the array m_nCount; // current number of elements wxString *m_pItems; // pointer to data bool m_autoSort; // if true, keep the array always sorted }; class WXDLLIMPEXP_BASE wxSortedArrayString : public wxArrayString { public: wxSortedArrayString() : wxArrayString(true) { } wxSortedArrayString(const wxArrayString& array) : wxArrayString(true) { Copy(array); } }; #endif // !wxUSE_STD_CONTAINERS // this class provides a temporary wxString* from a // wxArrayString class WXDLLIMPEXP_BASE wxCArrayString { public: wxCArrayString( const wxArrayString& array ) : m_array( array ), m_strings( NULL ) { } ~wxCArrayString() { delete[] m_strings; } size_t GetCount() const { return m_array.GetCount(); } wxString* GetStrings() { if( m_strings ) return m_strings; size_t count = m_array.GetCount(); m_strings = new wxString[count]; for( size_t i = 0; i < count; ++i ) m_strings[i] = m_array[i]; return m_strings; } wxString* Release() { wxString *r = GetStrings(); m_strings = NULL; return r; } private: const wxArrayString& m_array; wxString* m_strings; }; // ---------------------------------------------------------------------------- // helper functions for working with arrays // ---------------------------------------------------------------------------- // by default, these functions use the escape character to escape the // separators occurring inside the string to be joined, this can be disabled by // passing '\0' as escape WXDLLIMPEXP_BASE wxString wxJoin(const wxArrayString& arr, const wxChar sep, const wxChar escape = wxT('\\')); WXDLLIMPEXP_BASE wxArrayString wxSplit(const wxString& str, const wxChar sep, const wxChar escape = wxT('\\')); // ---------------------------------------------------------------------------- // This helper class allows to pass both C array of wxStrings or wxArrayString // using the same interface. // // Use it when you have two methods taking wxArrayString or (int, wxString[]), // that do the same thing. This class lets you iterate over input data in the // same way whether it is a raw array of strings or wxArrayString. // // The object does not take ownership of the data -- internally it keeps // pointers to the data, therefore the data must be disposed of by user // and only after this object is destroyed. Usually it is not a problem as // only temporary objects of this class are used. // ---------------------------------------------------------------------------- class wxArrayStringsAdapter { public: // construct an adapter from a wxArrayString wxArrayStringsAdapter(const wxArrayString& strings) : m_type(wxSTRING_ARRAY), m_size(strings.size()) { m_data.array = &strings; } // construct an adapter from a wxString[] wxArrayStringsAdapter(unsigned int n, const wxString *strings) : m_type(wxSTRING_POINTER), m_size(n) { m_data.ptr = strings; } // construct an adapter from a single wxString wxArrayStringsAdapter(const wxString& s) : m_type(wxSTRING_POINTER), m_size(1) { m_data.ptr = &s; } // default copy constructor is ok // iteration interface size_t GetCount() const { return m_size; } bool IsEmpty() const { return GetCount() == 0; } const wxString& operator[] (unsigned int i) const { wxASSERT_MSG( i < GetCount(), wxT("index out of bounds") ); if(m_type == wxSTRING_POINTER) return m_data.ptr[i]; return m_data.array->Item(i); } wxArrayString AsArrayString() const { if(m_type == wxSTRING_ARRAY) return *m_data.array; return wxArrayString(GetCount(), m_data.ptr); } private: // type of the data being held enum wxStringContainerType { wxSTRING_ARRAY, // wxArrayString wxSTRING_POINTER // wxString[] }; wxStringContainerType m_type; size_t m_size; union { const wxString * ptr; const wxArrayString * array; } m_data; wxDECLARE_NO_ASSIGN_CLASS(wxArrayStringsAdapter); }; #endif // _WX_ARRSTR_H