/* $NoKeywords: $ */ /* // // Copyright (c) 1993-2012 Robert McNeel & Associates. All rights reserved. // OpenNURBS, Rhinoceros, and Rhino3D are registered trademarks of Robert // McNeel & Associates. // // THIS SOFTWARE IS PROVIDED "AS IS" WITHOUT EXPRESS OR IMPLIED WARRANTY. // ALL IMPLIED WARRANTIES OF FITNESS FOR ANY PARTICULAR PURPOSE AND OF // MERCHANTABILITY ARE HEREBY DISCLAIMED. // // For complete openNURBS copyright information see . // //////////////////////////////////////////////////////////////// */ #include "opennurbs.h" #if !defined(ON_COMPILING_OPENNURBS) // This check is included in all opennurbs source .c and .cpp files to insure // ON_COMPILING_OPENNURBS is defined when opennurbs source is compiled. // When opennurbs source is being compiled, ON_COMPILING_OPENNURBS is defined // and the opennurbs .h files alter what is declared and how it is declared. #error ON_COMPILING_OPENNURBS must be defined when compiling opennurbs #endif // wide char (utf-8 / utf-16 / utf-23) <-> char (utf-8) converter static int w2c_size( int, const wchar_t* ); // gets minimum "c_count" arg for w2c(). static int w2c( int, // w_count = number of wide chars to convert const wchar_t*, // source wide char string int, // c_count, char* // array of at least c_count+1 characters ); static int c2w( int, // c_count = number of chars to convert const char*, // source byte char string int, // w_count, wchar_t* // array of at least c_count+1 wide characters ); static int w2c_size( int w_count, const wchar_t* w ) { // returns number of bytes used in wide conversion. Does not // include nullptr terminator. int rc = 0; if ( w ) { unsigned int error_status = 0; rc = ON_ConvertWideCharToUTF8(false,w,w_count,0,0,&error_status,0,0,0); if ( error_status ) { ON_ERROR("wchar_t string is not valid."); } if ( rc < 0 ) rc = 0; } return rc; } static int w2c( int w_count, const wchar_t* w, int c_count, char* c // array of at least c_count+1 characters ) { // convert wide char string to UTF-8 string int rc = 0; if ( c ) c[0] = 0; // returns length of converted c[] if ( c_count > 0 && c ) { c[0] = 0; if ( w ) { unsigned int error_status = 0; unsigned int error_mask = 0xFFFFFFFF; ON__UINT32 error_code_point = 0xFFFD; const wchar_t* p1 = 0; rc = ON_ConvertWideCharToUTF8(false,w,w_count,c, c_count, &error_status,error_mask,error_code_point,&p1); if ( error_status ) { ON_ERROR("wchar_t string is not valid."); } if ( rc > 0 && rc <= c_count ) c[rc] = 0; else { c[c_count] = 0; rc = 0; } } } return rc; } static int c2w( int c_count, const char* c, int w_count, wchar_t* w // array of at least w_count+1 wide characters ) { // convert UTF-8 string to UTF-16 string int rc = 0; if ( w ) w[0] = 0; // returns length of converted c[] if ( w_count > 0 && w && c_count > 0 && c && c[0] ) { w[0] = 0; if ( c ) { unsigned int error_status = 0; unsigned int error_mask = 0xFFFFFFFF; ON__UINT32 error_code_point = 0xFFFD; const char* p1 = 0; rc = ON_ConvertUTF8ToWideChar(false,c,c_count,w,w_count,&error_status,error_mask,error_code_point,&p1); if ( rc > 0 && rc <= w_count ) w[rc] = 0; else { w[w_count] = 0; rc = 0; } if ( 0 != error_status ) { ON_ERROR("Error converting UTF-8 encoded char string to UTF-16 encoded wchar_t string."); } } } return rc; } void ON_String::CopyToArray( int w_count, const wchar_t* w ) { // if sizeof(wchar_t) is 2, this converts a UTF-16 string to UTF-8 string // if sizeof(wchar_t) is 4, this converts a UTF-32 string to UTF-8 string int c_count = w2c_size( w_count, w ); char* c = (char*)onmalloc(c_count+1); memset( c, 0, c_count+1 ); const int c_length = w2c( w_count, w, c_count, c ); c[c_length] = 0; CopyToArray( c_count, c ); onfree(c); } ///////////////////////////////////////////////////////////////////////////// // Empty strings point at empty_wstring struct ON_wStringHeader { int ref_count; // reference count (>=0 or -1 for empty string) int string_length; // does not include any terminators int string_capacity; // does not include any terminators wchar_t* string_array() {return (wchar_t*)(this+1);} }; static struct { ON_wStringHeader header; wchar_t s; } empty_wstring = { {-1, 0, 0}, 0 }; // ref_count=-1, length=0, capacity=0, s=0 static ON_wStringHeader* pEmptyStringHeader = &empty_wstring.header; static const wchar_t* pEmptywString = &empty_wstring.s; ////////////////////////////////////////////////////////////////////////////// // protected helpers void ON_wString::Create() { m_s = (wchar_t*)pEmptywString; } ON_wStringHeader* ON_wString::Header() const { ON_wStringHeader* p = (ON_wStringHeader*)m_s; if (p) p--; else p = pEmptyStringHeader; return p; } wchar_t* ON_wString::CreateArray( int capacity ) { Destroy(); if ( capacity > 0 ) { ON_wStringHeader* p = (ON_wStringHeader*)onmalloc( sizeof(ON_wStringHeader) + (capacity+1)*sizeof(*m_s) ); p->ref_count = 1; p->string_length = 0; p->string_capacity = capacity; m_s = p->string_array(); memset( m_s, 0, (capacity+1)*sizeof(*m_s) ); return m_s; } return nullptr; } void ON_wString::Destroy() { ON_wStringHeader* p = Header(); if ( p != pEmptyStringHeader && p->ref_count > 0 ) { p->ref_count--; if ( p->ref_count == 0 ) onfree(p); } Create(); } void ON_wString::Empty() { ON_wStringHeader* p = Header(); if ( p != pEmptyStringHeader ) { if ( p->ref_count > 1 ) { // string memory is shared p->ref_count--; Create(); } else if ( p->ref_count == 1 ) { // string memory is not shared - reuse it if (m_s && p->string_capacity>0) *m_s = 0; p->string_length = 0; } else { // should not happen ON_ERROR("ON_wString::Empty() encountered invalid header - fixed."); Create(); } } else { // initialized again Create(); } } void ON_wString::EmergencyDestroy() { Create(); } void ON_wString::EnableReferenceCounting( bool bEnable ) { // TODO fill this in; } bool ON_wString::IsReferenceCounted() const { return true; } void ON_wString::CopyArray() { // If 2 or more string are using array, it is duplicated. // Call CopyArray() before modifying array contents. ON_wStringHeader* p = Header(); if ( p != pEmptyStringHeader && p && p->ref_count > 1 ) { const wchar_t* s = m_s; // p and s remain valid after Destroy() because // will simply be decremented and no deallocation // will happen. Destroy(); Create(); CopyToArray( p->string_capacity, s ); if ( p->string_length < p->string_capacity ) { Header()->string_length = p->string_length; } } } wchar_t* ON_wString::ReserveArray( size_t array_capacity ) { ON_wStringHeader* p = Header(); const int capacity = (int)array_capacity; // for 64 bit compiler if ( p == pEmptyStringHeader ) { CreateArray(capacity); } else if ( p->ref_count > 1 ) { CreateArray(capacity); ON_wStringHeader* p1 = Header(); const int size = (capacity < p->string_length) ? capacity : p->string_length; if ( size > 0 ) { memcpy( p1->string_array(), p->string_array(), size*sizeof(*m_s) ); p1->string_length = size; } } else if ( capacity > p->string_capacity ) { p = (ON_wStringHeader*)onrealloc( p, sizeof(ON_wStringHeader) + (capacity+1)*sizeof(*m_s) ); m_s = p->string_array(); memset( &m_s[p->string_capacity], 0, (1+capacity-p->string_capacity)*sizeof(*m_s) ); p->string_capacity = capacity; } return Array(); } void ON_wString::ShrinkArray() { ON_wStringHeader* p = Header(); if ( p != pEmptyStringHeader ) { if ( p->string_length < 1 ) { Destroy(); } else if ( p->ref_count > 1 ) { // shared string CreateArray(p->string_length); ON_wStringHeader* p1 = Header(); memcpy( m_s, p->string_array(), p->string_length*sizeof(*m_s)); p1->string_length = p->string_length; m_s[p1->string_length] = 0; } else if ( p->string_length < p->string_capacity ) { // onrealloc string p = (ON_wStringHeader*)onrealloc( p, sizeof(ON_wStringHeader) + (p->string_length+1)*sizeof(*m_s) ); p->string_capacity = p->string_length; m_s = p->string_array(); m_s[p->string_length] = 0; } } } void ON_wString::CopyToArray( const ON_wString& s ) { CopyToArray( s.Length(), s.Array() ); } void ON_wString::CopyToArray( int size, const char* s ) { if ( size > 0 && s && s[0] ) { ReserveArray(size); Header()->string_length = c2w( size, s, Header()->string_capacity, m_s ); m_s[Header()->string_length] = 0; } else { if ( Header()->ref_count > 1 ) Destroy(); else { Header()->string_length = 0; m_s[0] = 0; } } } void ON_wString::CopyToArray( int size, const unsigned char* s ) { CopyToArray( size, ((char*)s) ); } void ON_wString::CopyToArray( int size, const wchar_t* s ) { if ( size > 0 && s && s[0] ) { ReserveArray(size); memcpy(m_s, s, size*sizeof(*m_s)); Header()->string_length = size; m_s[Header()->string_length] = 0; } else { if ( Header()->ref_count != 1 ) Destroy(); else { Header()->string_length = 0; m_s[0] = 0; } } } void ON_wString::AppendToArray( const ON_wString& s ) { AppendToArray( s.Length(), s.Array() ); } void ON_wString::AppendToArray( int size, const char* s ) { if ( size > 0 && s && s[0] ) { ReserveArray(size + Header()->string_length ); Header()->string_length += c2w( size, s, Header()->string_capacity-Header()->string_length, &m_s[Header()->string_length] ); m_s[Header()->string_length] = 0; } } void ON_wString::AppendToArray( int size, const unsigned char* s ) { AppendToArray( size, ((char*)s) ); } void ON_wString::AppendToArray( int size, const wchar_t* s ) { if ( size > 0 && s && s[0] ) { ReserveArray(size + Header()->string_length ); memcpy(&m_s[Header()->string_length], s, size*sizeof(*m_s)); Header()->string_length += size; m_s[Header()->string_length] = 0; } } int ON_wString::Length(const wchar_t* s) { size_t slen = s ? wcslen(s) : 0; int n = ((0 < slen && slen <= 2147483645) ? ((int)slen) : 0); // the (int) cast is for 64 bit size_t conversion return n; } unsigned int ON_wString::UnsignedLength(const wchar_t* s) { return (unsigned int)Length(s); } ////////////////////////////////////////////////////////////////////////////// // Construction/Destruction ON_wString::ON_wString() ON_NOEXCEPT { Create(); } ON_wString::~ON_wString() { Destroy(); } ON_wString::ON_wString(const ON_wString& src) { if ( src.Header()->ref_count > 0 ) { m_s = src.m_s; src.Header()->ref_count++; } else { Create(); *this = src.m_s; // use operator=(const wchar_t*) to copy } } #if defined(ON_HAS_RVALUEREF) // Clone constructor ON_wString::ON_wString( ON_wString&& src ) ON_NOEXCEPT { m_s = src.m_s; src.m_s = (wchar_t*)pEmptywString; } // Clone Assignment operator ON_wString& ON_wString::operator=( ON_wString&& src ) ON_NOEXCEPT { if ( this != &src ) { this->Destroy(); m_s = src.m_s; src.m_s = (wchar_t*)pEmptywString; } return *this; } #endif ON_wString::ON_wString(const ON_String& src) { Create(); *this = src; } ON_wString::ON_wString( const char* s ) { Create(); if ( s && s[0] ) { CopyToArray( (int)strlen(s), s ); // the (int) is for 64 bit size_t conversion } } ON_wString::ON_wString( const char* s, int length ) { Create(); if ( s && length > 0 ) { CopyToArray(length,s); } } ON_wString::ON_wString( char c, int repeat_count ) { Create(); if ( repeat_count > 0 ) { char* s = (char*)onmalloc((repeat_count+1)*sizeof(*s)); s[repeat_count] = 0; memset( s, c, repeat_count*sizeof(*s) ); CopyToArray( repeat_count, s ); onfree(s); m_s[repeat_count] = 0; Header()->string_length = repeat_count; } } ON_wString::ON_wString( const unsigned char* s ) { Create(); if ( s && s[0] ) { CopyToArray( (int)strlen((const char*)s), (const char*)s ); // the (int) is for 64 bit size_t conversion } } ON_wString::ON_wString( const unsigned char* s, int length ) { Create(); if ( s && length > 0 ) { CopyToArray(length,s); } } ON_wString::ON_wString( unsigned char c, int repeat_count ) { Create(); if ( repeat_count > 0 ) { char* s = (char*)onmalloc((repeat_count+1)*sizeof(*s)); s[repeat_count] = 0; memset( s, c, repeat_count*sizeof(*s) ); CopyToArray( repeat_count, s ); onfree(s); m_s[repeat_count] = 0; Header()->string_length = repeat_count; } } ON_wString::ON_wString( const wchar_t* s ) { Create(); if ( s && s[0] ) { CopyToArray( (int)wcslen(s), s ); // the (int) is for 64 bit size_t conversion } } ON_wString::ON_wString( const wchar_t* s, int length ) { Create(); if ( s && length > 0 ) { CopyToArray( length, s ); } } ON_wString::ON_wString( wchar_t c, int repeat_count ) { int i; Create(); if ( repeat_count > 0 ) { ReserveArray(repeat_count); for (i=0;istring_length = repeat_count; } } #if defined(ON_RUNTIME_WIN) bool ON_wString::LoadResourceString(HINSTANCE instance, UINT id ) { bool rc = false; wchar_t s[2048]; // room for 2047 characters int length; Destroy(); length = ::LoadStringW( instance, id, s, 2047 ); if ( length > 0 && length < 2048 ) { CopyToArray( length, s ); rc = true; } return rc; } #endif int ON_wString::Length() const { return Header()->string_length; } unsigned int ON_wString::UnsignedLength() const { return (unsigned int)Header()->string_length; } wchar_t& ON_wString::operator[](int i) { CopyArray(); return m_s[i]; } wchar_t ON_wString::operator[](int i) const { return m_s[i]; } bool ON_wString::IsEmpty() const { return (Header()->string_length <= 0) ? true : false; } bool ON_wString::IsNotEmpty() const { return (Header()->string_length > 0) ? true : false; } const ON_wString& ON_wString::operator=(const ON_wString& src) { if (m_s != src.m_s) { if ( src.IsEmpty() ) { Destroy(); Create(); } else if ( src.Header()->ref_count > 0 ) { Destroy(); src.Header()->ref_count++; m_s = src.m_s; } else { ReserveArray(src.Length()); memcpy( m_s, src.Array(), src.Length()*sizeof(*m_s)); Header()->string_length = src.Length(); } } return *this; } const ON_wString& ON_wString::operator=(const ON_String& src) { *this = src.Array(); return *this; } const ON_wString& ON_wString::operator=( char c ) { CopyToArray( 1, &c ); return *this; } const ON_wString& ON_wString::operator=( const char* s ) { if ( (void*)s != (void*)m_s ) CopyToArray( ON_String::Length(s), s); return *this; } const ON_wString& ON_wString::operator=( unsigned char c ) { CopyToArray( 1, &c ); return *this; } const ON_wString& ON_wString::operator=( const unsigned char* s ) { if ( (void*)s != (void*)m_s ) CopyToArray( ON_String::Length((const char*)s), s); return *this; } const ON_wString& ON_wString::operator=( wchar_t c ) { CopyToArray( 1, &c ); return *this; } const ON_wString& ON_wString::operator=( const wchar_t* s ) { if ( (void*)s != (void*)m_s ) CopyToArray( Length(s), s); return *this; } ON_wString ON_wString::operator+(const ON_wString& s2) const { ON_wString s(*this); s.AppendToArray( s2 ); return s; } ON_wString ON_wString::operator+(const ON_String& s2) const { ON_wString s(*this); s.AppendToArray( s2.Length(), s2.Array() ); return s; } ON_wString ON_wString::operator+(char s2 ) const { ON_wString s(*this); s.AppendToArray( 1, &s2 ); return s; } ON_wString ON_wString::operator+(unsigned char s2 ) const { ON_wString s(*this); s.AppendToArray( 1, &s2 ); return s; } ON_wString ON_wString::operator+( wchar_t s2 ) const { ON_wString s(*this); s.AppendToArray( 1, &s2 ); return s; } ON_wString ON_wString::operator+(const char* s2) const { ON_wString s(*this); s.AppendToArray( ON_String::Length(s2), s2 ); return s; } ON_wString ON_wString::operator+(const unsigned char* s2) const { ON_wString s(*this); s.AppendToArray( ON_String::Length((const char*)s2), s2 ); return s; } ON_wString ON_wString::operator+(const wchar_t* s2) const { ON_wString s(*this); s.AppendToArray( ON_wString::Length(s2), s2 ); return s; } ////////////////////////////////////////////////////////////////////////////// // operator+=() void ON_wString::Append( const char* s , int count ) { // append specified number of characters if ( s && count > 0 ) AppendToArray(count,s); } void ON_wString::Append( const unsigned char* s , int count ) { // append specified number of characters if ( s && count > 0 ) AppendToArray(count,s); } void ON_wString::Append( const wchar_t* s, int count ) { // append specified number of characters if ( s && count > 0 ) AppendToArray(count,s); } const ON_wString& ON_wString::operator+=(const ON_wString& s) { AppendToArray(s); return *this; } const ON_wString& ON_wString::operator+=(const ON_String& s) { AppendToArray( s.Length(), s.Array() ); return *this; } const ON_wString& ON_wString::operator+=( char s ) { AppendToArray(1,&s); return *this; } const ON_wString& ON_wString::operator+=( unsigned char s ) { AppendToArray(1,&s); return *this; } const ON_wString& ON_wString::operator+=( wchar_t s ) { AppendToArray(1,&s); return *this; } const ON_wString& ON_wString::operator+=( const char* s ) { AppendToArray(ON_String::Length(s),s); return *this; } const ON_wString& ON_wString::operator+=( const unsigned char* s ) { AppendToArray(ON_String::Length((const char*)s),s); return *this; } const ON_wString& ON_wString::operator+=( const wchar_t* s ) { AppendToArray(ON_wString::Length(s),s); return *this; } wchar_t* ON_wString::SetLength(size_t string_length) { int length = (int)string_length; // for 64 bit compilers if ( length >= Header()->string_capacity ) { ReserveArray(length); } if ( length >= 0 && length <= Header()->string_capacity ) { CopyArray(); Header()->string_length = length; m_s[length] = 0; return m_s; } return nullptr; } wchar_t* ON_wString::Array() { CopyArray(); return ( Header()->string_capacity > 0 ) ? m_s : 0; } const wchar_t* ON_wString::Array() const { return ( Header()->string_capacity > 0 ) ? m_s : 0; } /* Returns: Total number of bytes of memory used by this class. (For use in ON_Object::SizeOf() overrides. */ unsigned int ON_wString::SizeOf() const { size_t sz = sizeof(*this); if ( ((const void*)m_s) != ((const void*)pEmptywString) ) sz += (sizeof(ON_wStringHeader) + sizeof(wchar_t)*(Header()->string_capacity+1)); return ((unsigned int)sz); } ON__UINT32 ON_wString::DataCRC(ON__UINT32 current_remainder) const { int string_length = Header()->string_length; if ( string_length > 0 ) { current_remainder = ON_CRC32(current_remainder,string_length*sizeof(*m_s),m_s); } return current_remainder; } ON__UINT32 ON_wString::DataCRCLower(ON__UINT32 current_remainder) const { int string_length = Header()->string_length; if ( string_length > 0 ) { ON_wString s(*this); s.MakeLower(); current_remainder = s.DataCRC(current_remainder); } return current_remainder; } int ON_wString::Compare( const wchar_t* s ) const { return ON_wString::CompareOrdinal(s,false); } int ON_wString::CompareNoCase( const wchar_t* s) const { return ON_wString::CompareOrdinal(s,true); } bool ON_WildCardMatch(const wchar_t* s, const wchar_t* pattern) { if ( !pattern || !pattern[0] ) { return ( !s || !s[0] ) ? true : false; } if ( *pattern == '*' ) { pattern++; while ( *pattern == '*' ) pattern++; if ( !pattern[0] ) return true; while (*s) { if ( ON_WildCardMatch(s,pattern) ) return true; s++; } return false; } while ( *pattern != '*' ) { if ( *pattern == '?' ) { if ( *s) { pattern++; s++; continue; } return false; } if ( *pattern == '\\' ) { switch( pattern[1] ) { case '*': case '?': pattern++; break; } } if ( *pattern != *s ) { return false; } if ( *s == 0 ) return true; pattern++; s++; } return ON_WildCardMatch(s,pattern); } bool ON_WildCardMatchNoCase(const wchar_t* s, const wchar_t* pattern) { if ( !pattern || !pattern[0] ) { return ( !s || !s[0] ) ? true : false; } if ( *pattern == '*' ) { pattern++; while ( *pattern == '*' ) pattern++; if ( !pattern[0] ) return true; while (*s) { if ( ON_WildCardMatchNoCase(s,pattern) ) return true; s++; } return false; } while ( *pattern != '*' ) { if ( *pattern == '?' ) { if ( *s) { pattern++; s++; continue; } return false; } if ( *pattern == '\\' ) { switch( pattern[1] ) { case '*': case '?': pattern++; break; } } if ( towupper(*pattern) != towupper(*s) ) { return false; } if ( *s == 0 ) return true; pattern++; s++; } return ON_WildCardMatchNoCase(s,pattern); } bool ON_wString::WildCardMatch( const wchar_t* pattern ) const { return ON_WildCardMatch(m_s,pattern); } bool ON_wString::WildCardMatchNoCase( const wchar_t* pattern ) const { return ON_WildCardMatchNoCase(m_s,pattern); } /* static TestReplace( ON_TextLog* text_log ) { int len, len1, len2, i, count, gap, k, i0, repcount, replen; ON_wString str; bool bRepeat = false; wchar_t ws[1024], wsToken1[1024], wsToken2[1024]; memset(ws, 0,sizeof(ws)); memset(wsToken1,0,sizeof(wsToken1)); memset(wsToken2,0,sizeof(wsToken2)); for ( len = 1; len < 32; len++ ) { for ( len1 = 1; len1 < len+1; len1++ ) { if ( len1 > 0 ) wsToken1[0] = '<'; for ( i = 1; i < len1-1; i++ ) wsToken1[i] = '-'; if ( len1 > 1 ) wsToken1[len1-1] = '>'; wsToken1[len1] = 0; for ( len2 = 1; len2 < len1+5; len2++ ) { if ( len2 > 0 ) wsToken2[0] = '+'; for ( i = 1; i < len2-1; i++ ) wsToken2[i] = '='; if ( len2 > 1 ) wsToken2[len2-1] = '*'; wsToken2[len2] = 0; for ( k = 1; k*len1 <= len+1; k++ ) { gap = (len/k) - len1; if (0 == len1 && gap < 1 ) gap = 1; else if ( gap < 0 ) gap = 0; bRepeat = false; for ( i0 = 0; i0 < 2*len1 + gap; i0++ ) { for ( i = 0; i < len; i++ ) { ws[i] = (wchar_t)('a' + (i%26)); } ws[len] = 0; count = 0; for ( i = i0; i+len1 <= len; i += (gap+len1) ) { memcpy(&ws[i],wsToken1,len1*sizeof(ws[0])); count++; } str = ws; repcount = str.Replace(wsToken1,wsToken2); replen = str.Length(); if ( repcount != count || replen != len + count*(len2-len1) ) { if ( text_log ) { text_log->Print("%ls -> %ls failed\n",wsToken1,wsToken2); text_log->Print("%ls (%d tokens, %d chars)\n",ws,count,len); text_log->Print("%ls (%d tokens, %d chars)\n",str.Array(),repcount,replen); } if ( bRepeat ) { bRepeat = false; } else { bRepeat = true; i0--; } } } bRepeat = false; } } } } } */ int ON_wString::Replace( const wchar_t* token1, const wchar_t* token2 ) { int count = 0; if ( 0 != token1 && 0 != token1[0] ) { if ( 0 == token2 ) token2 = L""; const int len1 = (int)wcslen(token1); if ( len1 > 0 ) { const int len2 = (int)wcslen(token2); int len = Length(); if ( len >= len1 ) { // in-place ON_SimpleArray n(32); const wchar_t* s = m_s; int i; for ( i = 0; i <= len-len1; /*empty*/ ) { if ( wcsncmp(s,token1,len1) ) { s++; i++; } else { n.Append(i); i += len1; s += len1; } } count = n.Count(); // reserve array space - must be done even when len2 <= len1 // so that shared arrays are not corrupted. const int newlen = len + (count*(len2-len1)); if ( 0 == newlen ) { Destroy(); return count; } CopyArray(); // 24 August 2006 Dale Lear // This used to say // ReserveArray(newlen); // but when newlen < len and the string had multiple // references, the ReserveArray(newlen) call truncated // the input array. ReserveArray( (newlen len1 ) { // copy from back to front i1 = newlen; i0 = len; for ( ni =0; ni < count; ni++ ) n[ni] = n[ni] + len1; for ( ni = count-1; ni >= 0; ni-- ) { j = n[ni]; while ( i0 > j ) { i0--; i1--; m_s[i1] = m_s[i0]; } i1 -= len2; i0 -= len1; memcpy(&m_s[i1],token2,len2*sizeof(m_s[0])); } } else { // copy from front to back i0 = i1 = n[0]; n.Append(len); for ( ni = 0; ni < count; ni++ ) { if ( len2 > 0 ) { memcpy(&m_s[i1],token2,len2*sizeof(m_s[0])); i1 += len2; } i0 += len1; j = n[ni+1]; while ( i0 < j ) { m_s[i1++] = m_s[i0++]; } } } Header()->string_length = newlen; m_s[newlen] = 0; } } } return count; } int ON_wString::Replace( wchar_t token1, wchar_t token2 ) { int count = 0; int i = Length(); while (i--) { if ( token1 == m_s[i] ) { if ( 0 == count ) CopyArray(); m_s[i] = token2; count++; } } return count; } void ON_wString::UrlEncode() { wchar_t c, c0, c1; wchar_t* buffer = 0; wchar_t* s1 = 0; const wchar_t* s = Array(); const int count = Length(); int i; for ( i = 0; i < count; i++ ) { c = *s++; if ( 0 == c ) break; if ('0' <= c && c <= '9') { if ( s1 ) *s1++ = c; continue; } if ('a' <= c && c <= 'z') { if ( s1 ) *s1++ = c; continue; } if ('A' <= c && c <= 'Z') { if ( s1 ) *s1++ = c; continue; } if (c >= 256) { if ( s1 ) *s1++ = c; continue; } // convert this character to %xx if ( !s1 ) { buffer = (wchar_t*)onmalloc((count*3 + 1)*sizeof(buffer[0])); if ( i > 0 ) memcpy(buffer,Array(),i*sizeof(buffer[0])); s1 = buffer+i; } c0 = ((c/16)%16) + '0'; if ( c0 > '9' ) c0 += ('A'-'9'-1); c1 = (c%16) + '0'; if ( c1 > '9' ) c1 += ('A'-'9'-1); *s1++ = '%'; *s1++ = c0; *s1++ = c1; } if ( s1 ) { *s1 = 0; *this = buffer; onfree(buffer); } } static bool UrlDecodeHelper( wchar_t* s) { // if s[0] and s[1] are hex digits, then s[1] is // set to the wchar_t with that hex value. if ( !s ) return false; wchar_t c0 = *s++; if ( c0 >= '0' && c0 <= '9' ) c0 -= '0'; else if ( c0 >= 'A' && c0 <= 'F' ) c0 -= 'A' - 0x0A; else if ( c0 >= 'a' && c0 <= 'f' ) c0 -= 'a' - 0x0A; else return false; wchar_t c1 = *s; if ( c1 >= '0' && c1 <= '9' ) c1 -= '0'; else if ( c1 >= 'A' && c1 <= 'F' ) c1 -= 'A' - 0x0A; else if ( c1 >= 'a' && c1 <= 'f' ) c1 -= 'a' - 0x0A; else return false; *s = c0*0x10 + c1; return true; } static bool IsValidUrlChar(wchar_t c) { if ( c >= '0' && c <= '9' ) return true; if ( c >= 'A' && c <= 'Z' ) return true; if ( c >= 'A' && c <= 'z' ) return true; // ON_wString::UrlEncode() encodes assumes the following // characters are literal and encodes them. However, // it is permitted for these characters to appear in // a URL. switch(c) { case '$': case '-': case '_': case '.': case '+': case '!': case '*': case '\'': case '(': case ')': // RFC 1738 character return true; case '&': case ',': case '/': case ':': case ';': case '=': case '?': case '@': // permitted URL syntax character return true; case '#': // URL bookmark character return true; } return false; } bool ON_wString::UrlDecode() { CopyArray(); bool rc = true; wchar_t c; wchar_t* s0 = Array(); if ( !s0 ) return true; wchar_t* s1 = s0; //const wchar_t* debg = s1; int i; for (i = Length(); i > 0; i-- ) { c = *s0++; if (0==c) break; if (i >= 3 && '%' == c && UrlDecodeHelper(s0) ) { s0++; *s1++ = *s0++; i -= 2; } else { *s1++ = c; if (rc) rc = IsValidUrlChar(c); } } *s1 = 0; SetLength(s1 - Array()); return rc; } static bool IsWhiteSpaceHelper( wchar_t c, const wchar_t* whitespace ) { while ( *whitespace ) { if ( c == *whitespace++ ) return true; } return false; } int ON_wString::ReplaceWhiteSpace( wchar_t token, const wchar_t* whitespace ) { wchar_t* s0; wchar_t* s1; int n; wchar_t c; if ( 0 == (s0 = m_s) ) return 0; s1 = s0 + Length(); if ( whitespace && *whitespace ) { while( s0 < s1 ) { if (IsWhiteSpaceHelper(*s0++,whitespace)) { // need to modify this string n = ((int)(s0 - m_s)); // keep win64 happy with (int) cast CopyArray(); // may change m_s if string has multiple refs s0 = m_s + n; s1 = m_s + Length(); s0[-1] = token; n = 1; while ( s0 < s1 ) { if ( IsWhiteSpaceHelper(*s0++,whitespace) ) { s0[-1] = token; n++; } } return n; } } } else { while( s0 < s1 ) { c = *s0++; if ( (1 <= c && c <= 32) || 127 == c ) { // need to modify this string n = ((int)(s0 - m_s)); // keep win64 happy with (int) cast CopyArray(); // may change m_s if string has multiple refs s0 = m_s + n; s1 = m_s + Length(); s0[-1] = token; n = 1; while ( s0 < s1 ) { c = *s0++; if ( (1 <= c && c <= 32) || 127 == c ) { s0[-1] = token; n++; } } return n; } } } return 0; } int ON_wString::RemoveWhiteSpace( const wchar_t* whitespace ) { wchar_t* s0; wchar_t* s1; wchar_t* s; int n; wchar_t c; if ( 0 == (s0 = m_s) ) return 0; s1 = s0 + Length(); if ( whitespace && *whitespace ) { while( s0 < s1 ) { if (IsWhiteSpaceHelper(*s0++,whitespace)) { // need to modify this string n = ((int)(s0 - m_s)); // keep win64 happy with (int) cast CopyArray(); // may change m_s if string has multiple refs s0 = m_s + n; s = s0-1; s1 = m_s + Length(); while ( s0 < s1 ) { if ( !IsWhiteSpaceHelper(*s0,whitespace) ) { *s++ = *s0; } s0++; } *s = 0; n = ((int)(s1 - s)); // keep win64 happy with (int) cast Header()->string_length -= n; return n; } } } else { while( s0 < s1 ) { c = *s0++; if ( (1 <= c && c <= 32) || 127 == c ) { // need to modify this string n = ((int)(s0 - m_s)); // keep win64 happy with (int) cast CopyArray(); // may change m_s if string has multiple refs s0 = m_s + n; s = s0-1; s1 = m_s + Length(); while ( s0 < s1 ) { c = *s0; if ( c < 1 || (c > 32 && 127 != c) ) { *s++ = *s0; } s0++; } *s = 0; n = ((int)(s1 - s)); // keep win64 happy with (int) cast Header()->string_length -= n; return n; } } } return 0; } const ON_wString ON_wString::RemovePrefix( const wchar_t* prefix, const class ON_Locale& locale, bool bIgnoreCase ) const { const wchar_t* str = static_cast(*this); const int str_len = Length(); const int prefix_length = ON_wString::Length(prefix); if ( prefix_length > 0 && str_len >= prefix_length && ON_wString::Equal( str, prefix_length, prefix, prefix_length, locale, bIgnoreCase) ) { ON_wString s; s.CopyToArray(str_len - prefix_length, str + prefix_length); return s; } return *this; } const ON_wString ON_wString::RemoveSuffix( const wchar_t* suffix, const class ON_Locale& locale, bool bIgnoreCase ) const { const wchar_t* str = static_cast(*this); const int suffix_length = ON_wString::Length(suffix); const int str_len = Length(); if ( suffix_length > 0 && str_len >= suffix_length && ON_wString::Equal( str + (str_len - suffix_length), suffix_length, suffix, suffix_length, locale, bIgnoreCase) ) { ON_wString s; s.CopyToArray( str_len - suffix_length, str ); return s; } return *this; } /////////////////////////////////////////////////////////////////////////////// ON_wString::operator const wchar_t*() const { return ( nullptr == m_s || m_s == pEmptywString ) ? L"" : m_s; } int ON_wString::Find(char utf8_single_byte_c) const { return (utf8_single_byte_c >= 0 && ON_IsValidSingleElementUTF8Value(utf8_single_byte_c)) ? Find((wchar_t)utf8_single_byte_c, 0) : -1; } int ON_wString::Find(unsigned char utf8_single_byte_c) const { return (ON_IsValidSingleElementUTF8Value(utf8_single_byte_c)) ? Find((wchar_t)utf8_single_byte_c, 0) : -1; } int ON_wString::Find(wchar_t w) const { return Find(w,0); } int ON_wString::Find(const char* s) const { return Find(s, 0); } int ON_wString::Find(const unsigned char* s) const { return Find(s, 0); } int ON_wString::Find(const wchar_t* s) const { return Find(s, 0); } int ON_wString::Find( char utf8_single_byte_c, size_t start_index ) const { return (utf8_single_byte_c >= 0 && ON_IsValidSingleElementUTF8Value(utf8_single_byte_c)) ? Find((wchar_t)utf8_single_byte_c, start_index) : -1; } int ON_wString::Find( unsigned char utf8_single_byte_c, size_t start_index ) const { return (ON_IsValidSingleElementUTF8Value(utf8_single_byte_c)) ? Find((wchar_t)utf8_single_byte_c, start_index) : -1; } int ON_wString::Find( wchar_t w, size_t start_index ) const { if (ON_IsValidSingleElementWideCharValue(w)) { // find first single character const wchar_t s[2] = { w, 0 }; return Find(s, start_index); } return -1; } int ON_wString::Find( wchar_t w, int start_index ) const { return (start_index >= 0) ? Find(w, (size_t)start_index) : -1; } int ON_wString::Find( const char* sUTF8, size_t start_index ) const { const ON_wString w(sUTF8); return Find( static_cast< const wchar_t* >(w), start_index); } int ON_wString::Find( const unsigned char* sUTF8, size_t start_index ) const { return Find((const char*)sUTF8, start_index); } int ON_wString::Find( const wchar_t* wcharString, size_t start_index ) const { if ( start_index < 0x7FFFFFFF ) { const int start_index_as_int = (int)start_index; const int length = ON_wString::Length(wcharString); if (length > 0) { const int this_length = Length(); if ( start_index_as_int < this_length && (this_length - start_index_as_int) >= length ) { const wchar_t w0 = wcharString[0]; const wchar_t* p1 = m_s + (this_length - length); for (const wchar_t* p = m_s + start_index_as_int; p <= p1; p++) { if (w0 == p[0] && ON_wString::EqualOrdinal(p, length, wcharString, length, false) ) return ((int)(p - m_s)); } } } } return -1; } int ON_wString::Find( const wchar_t* wcharString, int start_index ) const { return (start_index < 0) ? -1 : Find(wcharString, (size_t)start_index); } int ON_wString::FindOneOf (const wchar_t* character_set) const { if ( nullptr == character_set || 0 == character_set[0] || IsEmpty() ) return -1; const wchar_t* s1 = character_set; while ( 0 != *s1 ) s1++; ON_UnicodeErrorParameters e = { 0 }; e.m_error_mask = 2 | 4 | 8; const wchar_t* s = character_set; wchar_t buffer[10] = { 0 }; const int buffer_capacity = sizeof(buffer) / sizeof(buffer[0]) - 1; ON__UINT32 sUTF32[2] = { 0 }; while (s < s1) { e.m_error_status = 0; int s_count = ON_DecodeWideChar(s, (int)(s1 - s), &e, &sUTF32[0]); if (s_count <= 0 || 0 == sUTF32[0] || 0 != sUTF32[1]) break; e.m_error_status = 0; int buffer_count = ON_ConvertUTF32ToWideChar( false, sUTF32, 1, buffer, buffer_capacity, &e.m_error_status, e.m_error_mask, e.m_error_code_point, nullptr); if (0 == e.m_error_status && buffer_count > 0 && buffer_count < buffer_capacity) { buffer[buffer_count] = 0; int rc = Find(buffer); if (rc >= 0) return rc; } s += s_count; } return -1; } int ON_wString::ReverseFind(char utf8_single_byte_c) const { return (utf8_single_byte_c >= 0 && ON_IsValidSingleElementUTF8Value(utf8_single_byte_c)) ? ReverseFind((wchar_t)utf8_single_byte_c) : -1; } int ON_wString::ReverseFind(unsigned char utf8_single_byte_c) const { return (ON_IsValidSingleElementUTF8Value(utf8_single_byte_c)) ? ReverseFind((wchar_t)utf8_single_byte_c) : -1; } int ON_wString::ReverseFind( wchar_t c ) const { if (ON_IsValidSingleElementWideCharValue(c)) { // find first single character int i = Length(); while( i > 0 ) { if (c == m_s[--i]) return i; } } return -1; } int ON_wString::ReverseFind(const char* s) const { const ON_wString w(s); return ReverseFind(static_cast< const wchar_t* >(w)); } int ON_wString::ReverseFind(const wchar_t* s) const { const int s_len = ON_wString::Length(s); const int this_len = Length(); if (s_len > 0 && s_len <= this_len ) { const wchar_t* p0 = m_s; const wchar_t* p = p0 + (this_len - s_len + 1); const wchar_t w0 = s[0]; while (p > p0) { p--; if ( w0 == p[0] && ON_wString::EqualOrdinal(p,s_len,s,s_len,false) ) return ((int)(p - p0)); } } return -1; } void ON_wString::MakeReverse() { if ( IsNotEmpty() ) { CopyArray(); ON_wString::Reverse(m_s,Length()); } } ON_wString ON_wString::Reverse() const { ON_wString reverse_string(*this); reverse_string.MakeReverse(); return reverse_string; } static void ON_String_ReverseUTF16( wchar_t* string, int element_count ) { if ( element_count < 2 || nullptr == string ) return; ON_wString buffer(string,element_count); const wchar_t* b0 = static_cast(buffer); const wchar_t* b1 = b0+element_count; wchar_t* s1 = string + (element_count-1); while (b0 < b1) { const wchar_t c = *b0++; if ( c >= 0xD800 && c <= 0xDBFF && b0 < b1 && (*b0 >= 0xDC00 && *b0 <= 0xDFFF) ) { // c, b0[0] is a surrogate pair *s1-- = *b0++; } *s1-- = c; } } wchar_t* ON_wString::Reverse( wchar_t* string, int element_count ) { if (element_count < 0) { element_count = ON_wString::Length(string); if (element_count < 0) return nullptr; } if ( 0 == element_count ) return string; if (nullptr == string) { ON_ERROR("string is nullptr."); return nullptr; } int i, j; wchar_t a, b; for (i = 0, j = element_count - 1; i < j; i++, j--) { a = string[i]; b = string[j]; // The surrogate pair value ranges (0xD800, ..., 0xDBFF) and // (0xDC00, ..., 0xDFFF) are not unicode code points. // If they appear in a UTF-32 encode string, it means the // encoding contains errors. This happens when a UTF-16 // string is incorrectly converted into a UTF-32 encoded string // by an ordinal copy. For this reason, the surrogate pair // test is done unconditionally, including when wchar_t // strings are supposed to be UTF-32 encoded. if ((a >= 0xD800 && a <= 0xDBFF) || (b >= 0xDC00 && b <= 0xDFFF)) { ON_String_ReverseUTF16(string + i, j - i + 1); return string; } string[i] = b; string[j] = a; } return string; } void ON_wString::TrimLeft(const wchar_t* s) { wchar_t c; const wchar_t* sc; wchar_t* dc; int i; if ( !IsEmpty() ) { if (nullptr == s) { for (i = 0; 0 != (c = m_s[i]); i++) { if ( c < 0 || c > ON_wString::Space ) break; } } else { for (i = 0; 0 != (c = m_s[i]); i++) { for (sc = s; *sc; sc++) { if (*sc == c) break; } if (!(*sc)) break; } } if ( i > 0 ) { if ( m_s[i] ) { CopyArray(); dc = m_s; sc = m_s+i; while( 0 != (*dc++ = *sc++) ); Header()->string_length -= i; } else Destroy(); } } } void ON_wString::TrimRight(const wchar_t* s) { wchar_t c; const wchar_t* sc; int i = Header()->string_length; if ( i > 0 ) { if (nullptr == s) { for (i--; i >= 0 && 0 != (c = m_s[i]); i--) { if ( c < 0 || c > ON_wString::Space ) break; } } else { for (i--; i >= 0 && 0 != (c = m_s[i]); i--) { for (sc = s; *sc; sc++) { if (*sc == c) break; } if (!(*sc)) break; } } if ( i < 0 ) Destroy(); else if ( m_s[i+1] ) { CopyArray(); m_s[i+1] = 0; Header()->string_length = i+1; } } } void ON_wString::TrimLeftAndRight(const wchar_t* s) { TrimRight(s); TrimLeft(s); } int ON_wString::Remove(char c) { if (c >= 0 && ON_IsValidSingleElementUTF8Value((ON__UINT32)c)) return Remove((wchar_t)c); return 0; } int ON_wString::Remove(unsigned char c) { if (ON_IsValidSingleElementUTF8Value((ON__UINT32)c)) return Remove((wchar_t)c); return 0; } int ON_wString::Remove(wchar_t c) { if (ON_IsValidSingleElementWideCharValue(c)) { wchar_t* s0; wchar_t* s1; wchar_t* s; int n; if (0 == (s0 = m_s)) return 0; s1 = s0 + Length(); while (s0 < s1) { if (c == *s0++) { // need to modify this string n = ((int)(s0 - m_s)); CopyArray(); // may change m_s if string has multiple refs s0 = m_s + n; s = s0 - 1; s1 = m_s + Length(); while (s0 < s1) { if (c != *s0) { *s++ = *s0; } s0++; } *s = 0; n = ((int)(s1 - s)); Header()->string_length -= n; return n; } } } return 0; } wchar_t ON_wString::GetAt(int i) const { return m_s[i]; } void ON_wString::SetAt( int i, char c ) { if ( i >= 0 && i < Header()->string_length ) { CopyArray(); if (c < 0 || c > 127) { ON_ERROR("c is not a valid single byte utf-8 value."); } m_s[i] = (wchar_t)c; } } void ON_wString::SetAt( int i, unsigned char c ) { SetAt( i, (char)c ); } void ON_wString::SetAt( int i, wchar_t c ) { if ( i >= 0 && i < Header()->string_length ) { CopyArray(); m_s[i] = c; } } ON_wString ON_wString::Mid(int i, int count) const { if ( i >= 0 && i < Length() && count > 0 ) { if ( count > Length() - i ) count = Length() - i; if (count > 0) { ON_wString s; s.CopyToArray(count, &m_s[i]); return s; } } return ON_wString::EmptyString; } ON_wString ON_wString::Mid(int i) const { return Mid( i, Length() - i ); } const ON_wString ON_wString::SubString( int start_index ) const { return Mid( start_index, Length() - start_index ); } const ON_wString ON_wString::SubString( int start_index, int count ) const { return Mid(start_index, count); } ON_wString ON_wString::Left(int count) const { ON_wString s; if ( count > Length() ) count = Length(); if ( count > 0 ) { s.CopyToArray( count, m_s ); } return s; } ON_wString ON_wString::Right(int count) const { ON_wString s; if ( count > Length() ) count = Length(); if ( count > 0 ) { s.CopyToArray( count, &m_s[Length()-count] ); } return s; }