/*! This function is called for every value objects of INT type. This function uses the \n snprintf function to get the US-ASCII representation of the integer and simply copy it to the output stream. Returns -1 on stream errors or ZERO if no errors. */ int wxJSONWriter::WriteIntValue( wxOutputStream& os, const wxJSONValue& value ) { int r = 0; char buffer[32]; // need to store 64-bits integers (max 20 digits) size_t len; wxJSONRefData* data = value.GetRefData(); wxASSERT( data ); #if defined( wxJSON_64BIT_INT ) // this is for wxW 2.8 Unicode: in order to use the cross-platform // format specifier, we use the wxString's sprintf() function and then // convert to UTF-8 before writing to the stream wxString s; s.Printf( _T("%") wxLongLongFmtSpec _T("d"), data->m_value.m_valInt64 ); wxCharBuffer cb = s.ToUTF8(); const char* cbData = cb.data(); len = strlen( cbData ); wxASSERT( len < 32 ); memcpy( buffer, cbData, len ); buffer[len] = 0; #else snprintf( buffer, 32, "%ld", data->m_value.m_valLong ); #endif len = strlen( buffer ); os.Write( buffer, len ); if ( os.GetLastError() != wxSTREAM_NO_ERROR ) { r = -1; } return r; }
/*! The function writes the \b null literal string to the output stream. */ int wxJSONWriter::WriteNullValue( wxOutputStream& os ) { os.Write( "null", 4 ); if ( os.GetLastError() != wxSTREAM_NO_ERROR ) { return -1; } return 0; }
/*! This function is called for every value objects of DOUBLE type. This function uses the \n snprintf function to get the US-ASCII representation of the integer and simply copy it to the output stream. Returns -1 on stream errors or ZERO if no errors. Note that writing a double to a decimal ASCII representation could lay to unexpected results depending on the format string used in the conversion. See SetDoubleFmtString for details. */ int wxJSONWriter::WriteDoubleValue( wxOutputStream& os, const wxJSONValue& value ) { int r = 0; char buffer[32]; wxJSONRefData* data = value.GetRefData(); wxASSERT( data ); snprintf( buffer, 32, m_fmt, data->m_value.m_valDouble ); size_t len = strlen( buffer ); os.Write( buffer, len ); if ( os.GetLastError() != wxSTREAM_NO_ERROR ) { r = -1; } return r; }
/*! This function is called for every value objects of UINT type. This function uses the \n snprintf function to get the US-ASCII representation of the integer and simply copy it to the output stream. The function prepends a \b plus \b sign if the \c wxJSONWRITER_RECOGNIZE_UNSIGNED flag is set in the \c m_flags data member. Returns -1 on stream errors or ZERO if no errors. */ int wxJSONWriter::WriteUIntValue( wxOutputStream& os, const wxJSONValue& value ) { int r = 0; size_t len; // prepend a plus sign if the style specifies that unsigned integers // have to be recognized by the JSON reader if ( m_style & wxJSONWRITER_RECOGNIZE_UNSIGNED ) { os.PutC( '+' ); } char buffer[32]; // need to store 64-bits integers (max 20 digits) wxJSONRefData* data = value.GetRefData(); wxASSERT( data ); #if defined( wxJSON_64BIT_INT ) #if wxCHECK_VERSION(2, 9, 0 ) || !defined( wxJSON_USE_UNICODE ) // this is fine for wxW 2.9 and for wxW 2.8 ANSI snprintf( buffer, 32, "%" wxLongLongFmtSpec "u", data->m_value.m_valUInt64 ); #elif wxCHECK_VERSION(3, 0, 0) || !defined( wxJSON_USE_UNICODE ) snprintf( buffer, 32, "%" wxLongLongFmtSpec "u", data->m_value.m_valUInt64 ); #else // this is for wxW 2.8 Unicode: in order to use the cross-platform // format specifier, we use the wxString's sprintf() function and then // convert to UTF-8 before writing to the stream wxString s; s.Printf( _T("%") wxLongLongFmtSpec _T("u"), data->m_value.m_valInt64 ); wxCharBuffer cb = s.ToUTF8(); const char* cbData = cb.data(); len = strlen( cbData ); wxASSERT( len < 32 ); memcpy( buffer, cbData, len ); buffer[len] = 0; #endif #else snprintf( buffer, 32, "%lu", data->m_value.m_valULong ); #endif len = strlen( buffer ); os.Write( buffer, len ); if ( os.GetLastError() != wxSTREAM_NO_ERROR ) { r = -1; } return r; }
/*! This function is called for every value objects of DOUBLE type. This function uses the \n snprintf function to get the US-ASCII representation of the integer and simply copy it to the output stream. Returns -1 on stream errors or ZERO if no errors. Note that writing a double to a decimal ASCII representation could lay to unexpected results depending on the format string used in the conversion. See SetDoubleFmtString for details. */ int wxJSONWriter::WriteDoubleValue( wxOutputStream& os, const wxJSONValue& value ) { int r = 0; wxJSONRefData* data = value.GetRefData(); wxASSERT( data ); char* writeBuff = 0; // the buffer that has to be written is either UTF-8 or ANSI c_str() depending // on the 'm_noUtf8' flag wxCharBuffer utf8CB = wxString::FromCDouble(data->m_value.m_valDouble, 10).ToUTF8(); // the UTF-8 buffer #if !defined(wxJSON_USE_UNICODE) wxCharBuffer ansiCB(str.c_str()); // the ANSI buffer if (m_noUtf8) { writeBuff = ansiCB.data(); } else { writeBuff = utf8CB.data(); } #else writeBuff = utf8CB.data(); #endif // NOTE: in ANSI builds UTF-8 conversion may fail (see samples/test5.cpp, // test 7.3) although I do not know why if (writeBuff == 0) { const char* err = "<wxJSONWriter::WriteComment(): error converting the double to UTF-8>"; os.Write(err, strlen(err)); return 0; } size_t len = strlen(writeBuff); os.Write(writeBuff, len); if (os.GetLastError() != wxSTREAM_NO_ERROR) { r = -1; } return r; }
/*! The function writes the wxString object \c str to the output object. The string is written as is; you cannot use it to write JSON strings to the output text. The function converts the string \c str to UTF-8 and writes the buffer.. */ int wxJSONWriter::WriteString( wxOutputStream& os, const wxString& str ) { wxLogTrace( writerTraceMask, _T("(%s) string to write=%s"), __PRETTY_FUNCTION__, str.c_str() ); int lastChar = 0; char* writeBuff = 0; // the buffer that has to be written is either UTF-8 or ANSI c_str() depending // on the 'm_noUtf8' flag wxCharBuffer utf8CB = str.ToUTF8(); // the UTF-8 buffer #if !defined( wxJSON_USE_UNICODE ) wxCharBuffer ansiCB( str.c_str()); // the ANSI buffer if ( m_noUtf8 ) { writeBuff = ansiCB.data(); } else { writeBuff = utf8CB.data(); } #else writeBuff = utf8CB.data(); #endif // NOTE: in ANSI builds UTF-8 conversion may fail (see samples/test5.cpp, // test 7.3) although I do not know why if ( writeBuff == 0 ) { const char* err = "<wxJSONWriter::WriteComment(): error converting the string to UTF-8>"; os.Write( err, strlen( err )); return 0; } size_t len = strlen( writeBuff ); os.Write( writeBuff, len ); if ( os.GetLastError() != wxSTREAM_NO_ERROR ) { return -1; } wxLogTrace( writerTraceMask, _T("(%s) result=%d"), __PRETTY_FUNCTION__, lastChar ); return lastChar; }
/*! This function is called for every value objects of BOOL type. This function prints the literals \b true or \b false depending on the value in \c value. Returns -1 on stream errors or ZERO if no errors. */ int wxJSONWriter::WriteBoolValue( wxOutputStream& os, const wxJSONValue& value ) { int r = 0; const char* f = "false"; const char* t = "true"; wxJSONRefData* data = value.GetRefData(); wxASSERT( data ); const char* c = f; // defaults to FALSE if ( data->m_value.m_valBool ) { c = t; } size_t len = strlen( c ); os.Write( c, len ); if ( os.GetLastError() != wxSTREAM_NO_ERROR ) { r = -1; } return r; }
/*! The function is called by WriteIndent() and other writer's functions. It writes the indentation as specified in the \c num parameter which is the actual \b level of annidation. The function checks if wxJSONWRITER_STYLED is set: if not, no indentation is performed. Also, the function checks if wxJSONWRITER_TAB_INDENT is set: if it is, indentation is done by writing \b num TAB characters otherwise, it is performed by writing a number of spaces computed as: \code numSpaces = m_indent + ( m_step * num ) \endcode */ int wxJSONWriter::WriteIndent( wxOutputStream& os, int num ) { int lastChar = 0; if ( !(m_style & wxJSONWRITER_STYLED) || (m_style & wxJSONWRITER_NO_INDENTATION)) { return lastChar; } int numChars = m_indent + ( m_step * num ); char c = ' '; if ( m_style & wxJSONWRITER_TAB_INDENT ) { c = '\t'; numChars = num; } for ( int i = 0; i < numChars; i++ ) { os.PutC( c ); if ( os.GetLastError() != wxSTREAM_NO_ERROR ) { return -1; } } return c; }
/*! The function writes the string \c str to the output object that was specified in the wxJSONWriter::Write() function. The function may split strings in two or more lines if the string contains LF characters if the \c m_style data member contains the wxJSONWRITER_SPLIT_STRING flag. The function does not actually write the string: for every character in the provided string the function calls WriteChar() which does the actual character output. The function returns ZERO on success or -1 in case of errors. */ int wxJSONWriter::WriteStringValue( wxOutputStream& os, const wxString& str ) { // JSON values of type STRING are written by converting the whole string // to UTF-8 and then copying the UTF-8 buffer to the 'os' stream // one byte at a time and processing them os.PutC( '\"' ); // open quotes // the buffer that has to be written is either UTF-8 or ANSI c_str() depending // on the 'm_noUtf8' flag char* writeBuff = 0; wxCharBuffer utf8CB = str.ToUTF8(); // the UTF-8 buffer #if !defined( wxJSON_USE_UNICODE ) wxCharBuffer ansiCB( str.c_str()); // the ANSI buffer if ( m_noUtf8 ) { writeBuff = ansiCB.data(); } else { writeBuff = utf8CB.data(); } #else writeBuff = utf8CB.data(); #endif // NOTE: in ANSI builds UTF-8 conversion may fail (see samples/test5.cpp, // test 7.3) although I do not know why if ( writeBuff == 0 ) { const char* err = "<wxJSONWriter::WriteStringValue(): error converting the string to a UTF8 buffer>"; os.Write( err, strlen( err )); return 0; } size_t len = strlen( writeBuff ); int lastChar = 0; // store the column at which the string starts // splitting strings only happen if the string starts within // column wxJSONWRITER_LAST_COL (default 50) // see 'include/wx/json_defs.h' for the defines int tempCol = m_colNo; // now write the UTF8 buffer processing the bytes size_t i; for ( i = 0; i < len; i++ ) { bool shouldEscape = false; unsigned char ch = *writeBuff; ++writeBuff; // point to the next byte // the escaped character char escCh = 0; // for every character we have to check if it is a character that // needs to be escaped: note that characters that should be escaped // may be not if some writer's flags are specified switch ( ch ) { case '\"' : // quotes shouldEscape = true; escCh = '\"'; break; case '\\' : // reverse solidus shouldEscape = true; escCh = '\\'; break; case '/' : // solidus shouldEscape = true; escCh = '/'; break; case '\b' : // backspace shouldEscape = true; escCh = 'b'; break; case '\f' : // formfeed shouldEscape = true; escCh = 'f'; break; case '\n' : // newline shouldEscape = true; escCh = 'n'; break; case '\r' : // carriage-return shouldEscape = true; escCh = 'r'; break; case '\t' : // horizontal tab shouldEscape = true; escCh = 't'; break; default : shouldEscape = false; break; } // end switch // if the character is a control character that is not identified by a // lowercase letter, we should escape it if ( !shouldEscape && ch < 32 ) { char b[8]; snprintf( b, 8, "\\u%04X", (int) ch ); os.Write( b, 6 ); if ( os.GetLastError() != wxSTREAM_NO_ERROR ) { return -1; } } // the char is not a control character else { // some characters that should be escaped are not escaped // if the writer was constructed with some flags if ( shouldEscape && !( m_style & wxJSONWRITER_ESCAPE_SOLIDUS) ) { if ( ch == '/' ) { shouldEscape = false; } } if ( shouldEscape && (m_style & wxJSONWRITER_MULTILINE_STRING)) { if ( ch == '\n' || ch == '\t' ) { shouldEscape = false; } } // now write the character prepended by ESC if it should be escaped if ( shouldEscape ) { os.PutC( '\\' ); os.PutC( escCh ); if ( os.GetLastError() != wxSTREAM_NO_ERROR ) { return -1; } } else { // a normal char or a UTF-8 units: write the character os.PutC( ch ); if ( os.GetLastError() != wxSTREAM_NO_ERROR ) { return -1; } } } // check if SPLIT_STRING flag is set and if the string has to // be splitted if ( (m_style & wxJSONWRITER_STYLED) && (m_style & wxJSONWRITER_SPLIT_STRING)) { // split the string if the character written is LF if ( ch == '\n' ) { // close quotes and CR os.Write( "\"\n", 2 ); lastChar = WriteIndent( os, m_level + 2 ); // write indentation os.PutC( '\"' ); // reopen quotes if ( lastChar < 0 ) { return lastChar; } } // split the string only if there is at least wxJSONWRITER_MIN_LENGTH // character to write and the character written is a punctuation or space // BUG: the following does not work because the columns are not counted else if ( (m_colNo >= wxJSONWRITER_SPLIT_COL) && (tempCol <= wxJSONWRITER_LAST_COL )) { if ( IsSpace( ch ) || IsPunctuation( ch )) { if ( len - i > wxJSONWRITER_MIN_LENGTH ) { // close quotes and CR os.Write( "\"\n", 2 ); lastChar = WriteIndent( os, m_level + 2 ); // write indentation os.PutC( '\"' ); // reopen quotes if ( lastChar < 0 ) { return lastChar; } } } } } } // end for os.PutC( '\"' ); // close quotes return 0; }
/*! The type wxJSONTYPE_MEMORYBUFF is a \b wxJSON extension that is not correctly read by other JSON implementations. By default, the function writes such a type as an array of INTs as follows: \code [ 0,32,45,255,6,...] \endcode If the writer object was constructed using the \c wxJSONWRITER_MEMORYBUFF flag, then the output is much more compact and recognized by the \b wxJSON reader as a memory buffer type: \code '00203FFF06..' \endcode */ int wxJSONWriter::WriteMemoryBuff( wxOutputStream& os, const wxMemoryBuffer& buff ) { #define MAX_BYTES_PER_ROW 20 char str[16]; // if STYLED and SPLIT_STRING flags are set, the function writes 20 bytes on every row // the following is the counter of bytes written. // the string is splitted only for the special meory buffer type, not for array of INTs int bytesWritten = 0; bool splitString = false; if ( (m_style & wxJSONWRITER_STYLED) && (m_style & wxJSONWRITER_SPLIT_STRING)) { splitString = true; } size_t buffLen = buff.GetDataLen(); unsigned char* ptr = (unsigned char*) buff.GetData(); wxASSERT( ptr ); char openChar = '\''; char closeChar = '\''; bool asArray = false; if ( (m_style & wxJSONWRITER_MEMORYBUFF ) == 0 ) { // if the special flag is not specified, write as an array of INTs openChar = '['; closeChar = ']'; asArray = true; } // write the open character os.PutC( openChar ); for ( size_t i = 0; i < buffLen; i++ ) { unsigned char c = *ptr; ++ptr; if ( asArray ) { snprintf( str, 14, "%d", c ); size_t len = strlen( str ); wxASSERT( len <= 3 ); wxASSERT( len >= 1 ); str[len] = ','; // do not write the comma char for the last element if ( i < buffLen - 1 ) { ++len; } os.Write( str, len ); if ( os.GetLastError() != wxSTREAM_NO_ERROR ) { return -1; } } else { // now convert the byte in two hex digits char c1 = c / 16; char c2 = c % 16; c1 += '0'; c2 += '0'; if ( c1 > '9' ) { c1 += 7; } if ( c2 > '9' ) { c2 += 7; } os.PutC( c1 ); os.PutC( c2 ); if ( os.GetLastError() != wxSTREAM_NO_ERROR ) { return -1; } if ( splitString ) { ++bytesWritten; } if (( bytesWritten >= MAX_BYTES_PER_ROW ) && ((buffLen - i ) >= 5 )) { // split the string if we wrote 20 bytes, but only is we have to // write at least 5 bytes os.Write( "\'\n", 2 ); int lastChar = WriteIndent( os, m_level + 2 ); // write indentation os.PutC( '\'' ); // reopen quotes if ( lastChar < 0 ) { return lastChar; } bytesWritten = 0; } } } // write the close character os.PutC( closeChar ); return closeChar; }