/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. * * This file incorporates work covered by the following license notice: * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed * with this work for additional information regarding copyright * ownership. The ASF licenses this file to you under the Apache * License, Version 2.0 (the "License"); you may not use this file * except in compliance with the License. You may obtain a copy of * the License at http://www.apache.org/licenses/LICENSE-2.0 . */ #include #include #include #include #include #include #include #include SbiScanner::SbiScanner( const OUString& rBuf, StarBASIC* p ) : aBuf( rBuf ) { pBasic = p; nLineIdx = -1; nVal = 0; eScanType = SbxVARIANT; nErrors = 0; nBufPos = 0; nSavedCol1 = 0; nColLock = 0; nLine = 0; nCol1 = 0; nCol2 = 0; nCol = 0; bError = bAbort = bSpaces = bNumber = bSymbol = bCompatible = bVBASupportOn = bInStatement = bPrevLineExtentsComment = false; bHash = true; nSaveLineIdx = -1; } void SbiScanner::LockColumn() { if( !nColLock++ ) nSavedCol1 = nCol1; } void SbiScanner::UnlockColumn() { if( nColLock ) nColLock--; } void SbiScanner::GenError( ErrCode code ) { if( GetSbData()->bBlockCompilerError ) { bAbort = true; return; } if( !bError ) { bool bRes = true; // report only one error per statement bError = true; if( pBasic ) { // in case of EXPECTED or UNEXPECTED it always refers // to the last token, so take the Col1 over sal_Int32 nc = nColLock ? nSavedCol1 : nCol1; if ( code.anyOf( ERRCODE_BASIC_EXPECTED, ERRCODE_BASIC_UNEXPECTED, ERRCODE_BASIC_SYMBOL_EXPECTED, ERRCODE_BASIC_LABEL_EXPECTED) ) { nc = nCol1; if( nc > nCol2 ) nCol2 = nc; } bRes = pBasic->CError( code, aError, nLine, nc, nCol2 ); } bAbort = bAbort || !bRes || ( code == ERRCODE_BASIC_NO_MEMORY || code == ERRCODE_BASIC_PROG_TOO_LARGE ); } nErrors++; } // used by SbiTokenizer::MayBeLabel() to detect a label bool SbiScanner::DoesColonFollow() { if(nCol < aLine.getLength() && aLine[nCol] == ':') { ++nLineIdx; ++nCol; return true; } else return false; } // test for legal suffix static SbxDataType GetSuffixType( sal_Unicode c ) { switch (c) { case '%': return SbxINTEGER; case '&': return SbxLONG; case '!': return SbxSINGLE; case '#': return SbxDOUBLE; case '@': return SbxCURRENCY; case '$': return SbxSTRING; default: return SbxVARIANT; } } // reading the next symbol into the variables aSym, nVal and eType // return value is sal_False at EOF or errors #define BUF_SIZE 80 void SbiScanner::scanAlphanumeric() { sal_Int32 n = nCol; while(nCol < aLine.getLength() && (BasicCharClass::isAlphaNumeric(aLine[nCol], bCompatible) || aLine[nCol] == '_')) { ++nLineIdx; ++nCol; } aSym = aLine.copy(n, nCol - n); } void SbiScanner::scanGoto() { sal_Int32 n = nCol; while(n < aLine.getLength() && BasicCharClass::isWhitespace(aLine[n])) ++n; if(n + 1 < aLine.getLength()) { OUString aTemp = aLine.copy(n, 2); if(aTemp.equalsIgnoreAsciiCase("to")) { aSym = "goto"; nLineIdx += n + 2 - nCol; nCol = n + 2; } } } bool SbiScanner::readLine() { if(nBufPos >= aBuf.getLength()) return false; sal_Int32 n = nBufPos; sal_Int32 nLen = aBuf.getLength(); while(n < nLen && aBuf[n] != '\r' && aBuf[n] != '\n') ++n; // Trim trailing whitespace sal_Int32 nEnd = n; while(nBufPos < nEnd && BasicCharClass::isWhitespace(aBuf[nEnd - 1])) --nEnd; aLine = aBuf.copy(nBufPos, nEnd - nBufPos); // Fast-forward past the line ending if(n + 1 < nLen && aBuf[n] == '\r' && aBuf[n + 1] == '\n') n += 2; else if(n < nLen) ++n; nBufPos = n; nLineIdx = 0; ++nLine; nCol = nCol1 = nCol2 = 0; nColLock = 0; return true; } bool SbiScanner::NextSym() { // memorize for the EOLN-case sal_Int32 nOldLine = nLine; sal_Int32 nOldCol1 = nCol1; sal_Int32 nOldCol2 = nCol2; sal_Unicode buf[ BUF_SIZE ], *p = buf; eScanType = SbxVARIANT; aSym.clear(); bHash = bSymbol = bNumber = bSpaces = false; bool bCompilerDirective = false; // read in line? if (nLineIdx == -1) { if(!readLine()) return false; nOldLine = nLine; nOldCol1 = nOldCol2 = 0; } const sal_Int32 nLineIdxScanStart = nLineIdx; if(nCol < aLine.getLength() && BasicCharClass::isWhitespace(aLine[nCol])) { bSpaces = true; while(nCol < aLine.getLength() && BasicCharClass::isWhitespace(aLine[nCol])) { ++nLineIdx; ++nCol; } } nCol1 = nCol; // only blank line? if(nCol >= aLine.getLength()) goto eoln; if( bPrevLineExtentsComment ) goto PrevLineCommentLbl; if(nCol < aLine.getLength() && aLine[nCol] == '#') { sal_Int32 nLineTempIdx = nLineIdx; do { nLineTempIdx++; } while (nLineTempIdx < aLine.getLength() && !BasicCharClass::isWhitespace(aLine[nLineTempIdx]) && aLine[nLineTempIdx] != '#'); // leave it if it is a date literal - it will be handled later if (nLineTempIdx >= aLine.getLength() || aLine[nLineTempIdx] != '#') { ++nLineIdx; ++nCol; //ignore compiler directives (# is first non-space character) if (nOldCol2 == 0) bCompilerDirective = true; else bHash = true; } } // copy character if symbol if(nCol < aLine.getLength() && (BasicCharClass::isAlpha(aLine[nCol], bCompatible) || aLine[nCol] == '_')) { // if there's nothing behind '_' , it's the end of a line! if(nCol + 1 == aLine.getLength() && aLine[nCol] == '_') { // Note that nCol is not incremented here... ++nLineIdx; goto eoln; } bSymbol = true; scanAlphanumeric(); // Special handling for "go to" if(nCol < aLine.getLength() && bCompatible && aSym.equalsIgnoreAsciiCase("go")) scanGoto(); // replace closing '_' by space when end of line is following // (wrong line continuation otherwise) if (nCol == aLine.getLength() && aLine[nCol - 1] == '_') { // We are going to modify a potentially shared string, so force // a copy, so that aSym is not modified by the following operation OUString aSymCopy( aSym.getStr(), aSym.getLength() ); aSym = aSymCopy; // HACK: modifying a potentially shared string here! const_cast(aLine.getStr())[nLineIdx - 1] = ' '; } // type recognition? // don't test the exclamation mark // if there's a symbol behind it else if((nCol >= aLine.getLength() || aLine[nCol] != '!') || (nCol + 1 >= aLine.getLength() || !BasicCharClass::isAlpha(aLine[nCol + 1], bCompatible))) { if(nCol < aLine.getLength()) { SbxDataType t(GetSuffixType(aLine[nCol])); if( t != SbxVARIANT ) { eScanType = t; ++nLineIdx; ++nCol; } } } } // read in and convert if number else if((nCol < aLine.getLength() && rtl::isAsciiDigit(aLine[nCol])) || (nCol + 1 < aLine.getLength() && aLine[nCol] == '.' && rtl::isAsciiDigit(aLine[nCol + 1]))) { short exp = 0; short dec = 0; eScanType = SbxDOUBLE; bool bScanError = false; bool bBufOverflow = false; // All this because of 'D' or 'd' floating point type, sigh.. while(!bScanError && nCol < aLine.getLength() && strchr("0123456789.DEde", aLine[nCol])) { // from 4.1.1996: buffer full? -> go on scanning empty if( (p-buf) == (BUF_SIZE-1) ) { bBufOverflow = true; ++nLineIdx; ++nCol; continue; } // point or exponent? if(aLine[nCol] == '.') { if( ++dec > 1 ) bScanError = true; else *p++ = '.'; } else if(strchr("DdEe", aLine[nCol])) { if (++exp > 1) bScanError = true; else { *p++ = 'E'; if (nCol + 1 < aLine.getLength() && (aLine[nCol+1] == '+' || aLine[nCol+1] == '-')) { ++nLineIdx; ++nCol; if( (p-buf) == (BUF_SIZE-1) ) { bBufOverflow = true; continue; } *p++ = aLine[nCol]; } } } else { *p++ = aLine[nCol]; } ++nLineIdx; ++nCol; } *p = 0; aSym = p; bNumber = true; // For bad characters, scan and parse errors generate only one error. ErrCode nError = ERRCODE_NONE; if (bScanError) { --nLineIdx; --nCol; aError = OUString( aLine[nCol]); nError = ERRCODE_BASIC_BAD_CHAR_IN_NUMBER; } rtl_math_ConversionStatus eStatus = rtl_math_ConversionStatus_Ok; const sal_Unicode* pParseEnd = buf; nVal = rtl_math_uStringToDouble( buf, buf+(p-buf), '.', ',', &eStatus, &pParseEnd ); if (pParseEnd != buf+(p-buf)) { // e.g. "12e" or "12e+", or with bScanError "12d"+"E". sal_Int32 nChars = buf+(p-buf) - pParseEnd; nLineIdx -= nChars; nCol -= nChars; // For bScanError, nLineIdx and nCol were already decremented, just // add that character to the parse end. if (bScanError) ++nChars; // Copy error position from original string, not the buffer // replacement where "12dE" => "12EE". aError = aLine.copy( nCol, nChars); nError = ERRCODE_BASIC_BAD_CHAR_IN_NUMBER; } else if (eStatus != rtl_math_ConversionStatus_Ok) { // Keep the scan error and character at position, if any. if (!nError) nError = ERRCODE_BASIC_MATH_OVERFLOW; } if (nError) GenError( nError ); if( !dec && !exp ) { if( nVal >= SbxMININT && nVal <= SbxMAXINT ) eScanType = SbxINTEGER; else if( nVal >= SbxMINLNG && nVal <= SbxMAXLNG ) eScanType = SbxLONG; } if( bBufOverflow ) GenError( ERRCODE_BASIC_MATH_OVERFLOW ); // type recognition? if( nCol < aLine.getLength() ) { SbxDataType t(GetSuffixType(aLine[nCol])); if( t != SbxVARIANT ) { eScanType = t; ++nLineIdx; ++nCol; } } } // Hex/octal number? Read in and convert: else if(aLine.getLength() - nCol > 1 && aLine[nCol] == '&') { ++nLineIdx; ++nCol; sal_Unicode base = 16; sal_Unicode xch = aLine[nCol]; ++nLineIdx; ++nCol; switch( rtl::toAsciiUpperCase( xch ) ) { case 'O': base = 8; break; case 'H': break; default : // treated as an operator --nLineIdx; --nCol; nCol1 = nCol-1; aSym = "&"; return true; } bNumber = true; // Hex literals are signed Integers ( as defined by basic // e.g. -2,147,483,648 through 2,147,483,647 (signed) sal_uInt64 lu = 0; bool bOverflow = false; while(nCol < aLine.getLength() && BasicCharClass::isAlphaNumeric(aLine[nCol], false)) { sal_Unicode ch = rtl::toAsciiUpperCase(aLine[nCol]); ++nLineIdx; ++nCol; if( ((base == 16 ) && rtl::isAsciiHexDigit( ch ) ) || ((base == 8) && rtl::isAsciiOctalDigit( ch ))) { int i = ch - '0'; if( i > 9 ) i -= 7; lu = ( lu * base ) + i; if( lu > SAL_MAX_UINT32 ) { bOverflow = true; } } else { aError = OUString(ch); GenError( ERRCODE_BASIC_BAD_CHAR_IN_NUMBER ); } } if(nCol < aLine.getLength() && aLine[nCol] == '&') { ++nLineIdx; ++nCol; } sal_Int32 ls = static_cast(lu); nVal = static_cast(ls); eScanType = ( ls >= SbxMININT && ls <= SbxMAXINT ) ? SbxINTEGER : SbxLONG; if( bOverflow ) GenError( ERRCODE_BASIC_MATH_OVERFLOW ); } // Strings: else if (nLineIdx < aLine.getLength() && (aLine[nLineIdx] == '"' || aLine[nLineIdx] == '[')) { sal_Unicode cSep = aLine[nLineIdx]; if( cSep == '[' ) { bSymbol = true; cSep = ']'; } sal_Int32 n = nCol + 1; while (nLineIdx < aLine.getLength()) { do { nLineIdx++; nCol++; } while (nLineIdx < aLine.getLength() && (aLine[nLineIdx] != cSep)); if (nLineIdx < aLine.getLength() && aLine[nLineIdx] == cSep) { nLineIdx++; nCol++; if (nLineIdx >= aLine.getLength() || aLine[nLineIdx] != cSep || cSep == ']') { // If VBA Interop then doesn't eat the [] chars if ( cSep == ']' && bVBASupportOn ) aSym = aLine.copy( n - 1, nCol - n + 1); else aSym = aLine.copy( n, nCol - n - 1 ); // get out duplicate string delimiters OUStringBuffer aSymBuf; for ( sal_Int32 i = 0, len = aSym.getLength(); i < len; ++i ) { aSymBuf.append( aSym[i] ); if ( aSym[i] == cSep && ( i+1 < len ) && aSym[i+1] == cSep ) ++i; } aSym = aSymBuf.makeStringAndClear(); if( cSep != ']' ) eScanType = SbxSTRING; break; } } else { aError = OUString(cSep); GenError( ERRCODE_BASIC_EXPECTED ); } } } // Date: else if (nLineIdx < aLine.getLength() && aLine[nLineIdx] == '#') { sal_Int32 n = nCol + 1; do { nLineIdx++; nCol++; } while (nLineIdx < aLine.getLength() && (aLine[nLineIdx] != '#')); if (nLineIdx < aLine.getLength() && aLine[nLineIdx] == '#') { nLineIdx++; nCol++; aSym = aLine.copy( n, nCol - n - 1 ); // parse date literal std::shared_ptr pFormatter; if (GetSbData()->pInst) { pFormatter = GetSbData()->pInst->GetNumberFormatter(); } else { sal_uInt32 nDummy; pFormatter = SbiInstance::PrepareNumberFormatter( nDummy, nDummy, nDummy ); } sal_uInt32 nIndex = pFormatter->GetStandardIndex( LANGUAGE_ENGLISH_US); bool bSuccess = pFormatter->IsNumberFormat(aSym, nIndex, nVal); if( bSuccess ) { SvNumFormatType nType_ = pFormatter->GetType(nIndex); if( !(nType_ & SvNumFormatType::DATE) ) bSuccess = false; } if (!bSuccess) GenError( ERRCODE_BASIC_CONVERSION ); bNumber = true; eScanType = SbxDOUBLE; } else { aError = OUString('#'); GenError( ERRCODE_BASIC_EXPECTED ); } } // invalid characters: else if (nLineIdx < aLine.getLength() && aLine[nLineIdx] >= 0x7F) { GenError( ERRCODE_BASIC_SYNTAX ); nLineIdx++; nCol++; } // other groups: else { sal_Int32 n = 1; auto nChar = nLineIdx < aLine.getLength() ? aLine[nLineIdx] : 0; ++nLineIdx; if (nLineIdx < aLine.getLength()) { switch (nChar) { case '<': if( aLine[nLineIdx] == '>' || aLine[nLineIdx] == '=' ) n = 2; break; case '>': if( aLine[nLineIdx] == '=' ) n = 2; break; case ':': if( aLine[nLineIdx] == '=' ) n = 2; break; } } aSym = aLine.copy(nCol, std::min(n, aLine.getLength() - nCol)); nLineIdx += n-1; nCol = nCol + n; } nCol2 = nCol-1; PrevLineCommentLbl: if( bPrevLineExtentsComment || (eScanType != SbxSTRING && ( bCompilerDirective || aSym.startsWith("'") || aSym.equalsIgnoreAsciiCase( "REM" ) ) ) ) { bPrevLineExtentsComment = false; aSym = "REM"; sal_Int32 nLen = aLine.getLength() - nLineIdx; if( bCompatible && aLine[nLineIdx + nLen - 1] == '_' && aLine[nLineIdx + nLen - 2] == ' ' ) bPrevLineExtentsComment = true; nCol2 = nCol2 + nLen; nLineIdx = -1; } if (nLineIdx == nLineIdxScanStart) { GenError( ERRCODE_BASIC_SYMBOL_EXPECTED ); return false; } return true; eoln: if( nCol && aLine[--nLineIdx] == '_' ) { nLineIdx = -1; bool bRes = NextSym(); if( aSym.startsWith(".") ) { // object _ // .Method // ^^^ <- spaces is legal in MSO VBA bSpaces = false; } return bRes; } else { nLineIdx = -1; nLine = nOldLine; nCol1 = nOldCol1; nCol2 = nOldCol2; aSym = "\n"; nColLock = 0; return true; } } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */