/* -*- 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 #include #include #include #include #include #include #include #include #include using namespace ::connectivity; using namespace ::comphelper; using namespace ::com::sun::star::script; using namespace ::com::sun::star::sdb; using namespace ::com::sun::star::sdbc; using namespace ::dbtools; using namespace ::com::sun::star::lang; using namespace ::com::sun::star::beans; using namespace ::com::sun::star::util; using namespace ::com::sun::star::uno; OUString DBTypeConversion::toSQLString(sal_Int32 eType, const Any& _rVal, const Reference< XTypeConverter >& _rxTypeConverter) { OUStringBuffer aRet; if (_rVal.hasValue()) { try { switch (eType) { case DataType::INTEGER: case DataType::BIT: case DataType::BOOLEAN: case DataType::TINYINT: case DataType::SMALLINT: if (_rVal.getValueTypeClass() == css::uno::TypeClass_BOOLEAN) { if (::cppu::any2bool(_rVal)) aRet.append("1"); else aRet.append("0"); } else { OUString sTemp; _rxTypeConverter->convertToSimpleType(_rVal, TypeClass_STRING) >>= sTemp; aRet.append(sTemp); } break; case DataType::CHAR: case DataType::VARCHAR: case DataType::LONGVARCHAR: aRet.append("'"); { OUString aTemp; _rxTypeConverter->convertToSimpleType(_rVal, TypeClass_STRING) >>= aTemp; aTemp = aTemp.replaceAll(u"\'", u"\'\'"); aRet.append(aTemp); } aRet.append("'"); break; case DataType::REAL: case DataType::DOUBLE: case DataType::DECIMAL: case DataType::NUMERIC: case DataType::BIGINT: default: { OUString sTemp; _rxTypeConverter->convertToSimpleType(_rVal, TypeClass_STRING) >>= sTemp; aRet.append(sTemp); } break; case DataType::TIMESTAMP: { DateTime aDateTime; bool bOk = false; if (_rVal.getValueTypeClass() == css::uno::TypeClass_DOUBLE) { double nValue = 0.0; _rVal >>= nValue; aDateTime = DBTypeConversion::toDateTime(nValue); bOk = true; } else if (_rVal.getValueTypeClass() == css::uno::TypeClass_STRING) { OUString sValue; _rVal >>= sValue; aDateTime = DBTypeConversion::toDateTime(sValue); bOk = true; } else bOk = _rVal >>= aDateTime; OSL_ENSURE( bOk, "DBTypeConversion::toSQLString: _rVal is not datetime!"); // check if this is really a timestamp or only a date if ( bOk ) { aRet.append("{ts '" + DBTypeConversion::toDateTimeString(aDateTime) + "'}"); break; } break; } case DataType::DATE: { Date aDate; bool bOk = false; if (_rVal.getValueTypeClass() == css::uno::TypeClass_DOUBLE) { double nValue = 0.0; _rVal >>= nValue; aDate = DBTypeConversion::toDate(nValue); bOk = true; } else if (_rVal.getValueTypeClass() == css::uno::TypeClass_STRING) { OUString sValue; _rVal >>= sValue; aDate = DBTypeConversion::toDate(sValue); bOk = true; } else bOk = _rVal >>= aDate; OSL_ENSURE( bOk, "DBTypeConversion::toSQLString: _rVal is not date!"); aRet.append("{d '" + DBTypeConversion::toDateString(aDate) + "'}"); } break; case DataType::TIME: { css::util::Time aTime; bool bOk = false; if (_rVal.getValueTypeClass() == css::uno::TypeClass_DOUBLE) { double nValue = 0.0; _rVal >>= nValue; aTime = DBTypeConversion::toTime(nValue); bOk = true; } else if (_rVal.getValueTypeClass() == css::uno::TypeClass_STRING) { OUString sValue; _rVal >>= sValue; aTime = DBTypeConversion::toTime(sValue); bOk = true; } else bOk = _rVal >>= aTime; OSL_ENSURE( bOk,"DBTypeConversion::toSQLString: _rVal is not time!"); aRet.append("{t '" + DBTypeConversion::toTimeString(aTime) + "'}"); } break; } } catch ( const Exception& ) { OSL_FAIL("TypeConversion Error"); } } else aRet.append(" NULL "); return aRet.makeStringAndClear(); } Date DBTypeConversion::getNULLDate(const Reference< XNumberFormatsSupplier > &xSupplier) { OSL_ENSURE(xSupplier.is(), "getNULLDate : the formatter doesn't implement a supplier !"); if (xSupplier.is()) { try { // get the null date Date aDate; xSupplier->getNumberFormatSettings()->getPropertyValue(u"NullDate"_ustr) >>= aDate; return aDate; } catch ( const Exception& ) { } } return getStandardDate(); } void DBTypeConversion::setValue(const Reference& xVariant, const Reference& xFormatter, const Date& rNullDate, const OUString& rString, sal_Int32 nKey, sal_Int16 nFieldType, sal_Int16 nKeyType) { if (!rString.isEmpty()) { // Does the String need to be formatted? sal_Int16 nTypeClass = nKeyType & ~NumberFormat::DEFINED; bool bTextFormat = nTypeClass == NumberFormat::TEXT; sal_Int32 nKeyToUse = bTextFormat ? 0 : nKey; sal_Int16 nRealUsedTypeClass = nTypeClass; // for a Text-Format the formatter needs some more freedom, otherwise // convertStringToNumber will throw a NotNumericException try { double fValue = xFormatter->convertStringToNumber(nKeyToUse, rString); Reference< XNumberFormats > xFormats(xFormatter->getNumberFormatsSupplier()->getNumberFormats()); Reference< XNumberFormatTypes > xFormatTypes(xFormats, UNO_QUERY); sal_Int32 nStandardKey(0); if(xFormatTypes.is()) { const Reference< XPropertySet > xFormatProps(xFormats->getByKey(nKeyToUse)); if (xFormatProps.is()) { css::lang::Locale loc; if (xFormatProps->getPropertyValue(u"Locale"_ustr) >>= loc) nStandardKey = xFormatTypes->getStandardIndex(loc); else { assert(false); } } else { SAL_WARN("connectivity.commontools", "no format by key " << nKeyToUse); } } else { assert(false); } // Why use nStandardKey rather than nKeyToUse here? I'm not sure, but "it was always like that". // Previously had hardcoded 0 instead of nStandardKey, which led to problems with dates // because of differences M/D/Y vs D/M/Y. This at least fixes those problems, but possibly // nKeyToUse is an even better choice than nStandardKey. // OTOH, using nKeyToUse nullifies the special treatment for percent formats, // leading to "5" (in a percent format) to be understood as "500%" instead of "5%". sal_Int32 nRealUsedKey = xFormatter->detectNumberFormat(nStandardKey, rString); if (nRealUsedKey != nKeyToUse) nRealUsedTypeClass = getNumberFormatType(xFormatter, nRealUsedKey) & ~NumberFormat::DEFINED; // and again a special treatment, this time for percent formats if ((NumberFormat::NUMBER == nRealUsedTypeClass) && (NumberFormat::PERCENT == nTypeClass)) { // formatting should be "percent", but the String provides just a simple number -> adjust OUString sExpanded = rString + "%"; fValue = xFormatter->convertStringToNumber(nKeyToUse, sExpanded); } switch (nRealUsedTypeClass) { case NumberFormat::DATE: case NumberFormat::DATETIME: case NumberFormat::TIME: DBTypeConversion::setValue(xVariant,rNullDate,fValue,nRealUsedTypeClass); break; case NumberFormat::CURRENCY: case NumberFormat::NUMBER: case NumberFormat::SCIENTIFIC: case NumberFormat::FRACTION: case NumberFormat::PERCENT: xVariant->updateDouble(fValue); break; default: xVariant->updateString(rString); } } catch(const Exception& ) { xVariant->updateString(rString); } } else { switch (nFieldType) { case css::sdbc::DataType::CHAR: case css::sdbc::DataType::VARCHAR: case css::sdbc::DataType::LONGVARCHAR: xVariant->updateString(rString); break; default: xVariant->updateNull(); } } } void DBTypeConversion::setValue(const Reference& xVariant, const Date& rNullDate, const double& rValue, sal_Int16 nKeyType) { switch (nKeyType & ~NumberFormat::DEFINED) { case NumberFormat::DATE: xVariant->updateDate(toDate( rValue, rNullDate)); break; case NumberFormat::DATETIME: xVariant->updateTimestamp(toDateTime(rValue,rNullDate)); break; case NumberFormat::TIME: xVariant->updateTime(toTime(rValue)); break; default: { double nValue = rValue; // Reference xProp(xVariant,UNO_QUERY); // if ( xProp.is() // && xProp->getPropertySetInfo()->hasPropertyByName(OMetaConnection::getPropMap().getNameByIndex(PROPERTY_ID_ISSIGNED)) // && !::comphelper::getBOOL(xProp->getPropertyValue(OMetaConnection::getPropMap().getNameByIndex(PROPERTY_ID_ISSIGNED))) ) // { // switch (::comphelper::getINT32(xProp->getPropertyValue(OMetaConnection::getPropMap().getNameByIndex(PROPERTY_ID_TYPE)))) // { // case DataType::TINYINT: // nValue = static_cast(rValue); // break; // case DataType::SMALLINT: // nValue = static_cast(rValue); // break; // case DataType::INTEGER: // nValue = static_cast(rValue); // break; // case DataType::BIGINT: // nValue = static_cast(rValue); // break; // } // } xVariant->updateDouble(nValue); } } } double DBTypeConversion::getValue( const Reference< XColumn >& i_column, const Date& i_relativeToNullDate ) { try { const Reference< XPropertySet > xProp( i_column, UNO_QUERY_THROW ); const sal_Int32 nColumnType = ::comphelper::getINT32( xProp->getPropertyValue( OMetaConnection::getPropMap().getNameByIndex( PROPERTY_ID_TYPE ) ) ); switch ( nColumnType ) { case DataType::DATE: return toDouble( i_column->getDate(), i_relativeToNullDate ); case DataType::TIME: return toDouble( i_column->getTime() ); case DataType::TIMESTAMP: return toDouble( i_column->getTimestamp(), i_relativeToNullDate ); default: { bool bIsSigned = true; OSL_VERIFY( xProp->getPropertyValue( OMetaConnection::getPropMap().getNameByIndex( PROPERTY_ID_ISSIGNED ) ) >>= bIsSigned ); if ( !bIsSigned ) { switch ( nColumnType) { case DataType::TINYINT: return static_cast(static_cast(i_column->getByte())); case DataType::SMALLINT: return static_cast(static_cast(i_column->getShort())); case DataType::INTEGER: return static_cast(static_cast(i_column->getInt())); case DataType::BIGINT: return static_cast(static_cast(i_column->getLong())); } } } return i_column->getDouble(); } } catch( const Exception& ) { DBG_UNHANDLED_EXCEPTION("connectivity.commontools"); return 0.0; } } OUString DBTypeConversion::getFormattedValue(const Reference< XPropertySet>& _xColumn, const Reference& _xFormatter, const css::lang::Locale& _rLocale, const Date& _rNullDate) { OSL_ENSURE(_xColumn.is() && _xFormatter.is(), "DBTypeConversion::getFormattedValue: invalid arg !"); if (!_xColumn.is() || !_xFormatter.is()) return OUString(); sal_Int32 nKey(0); try { _xColumn->getPropertyValue(OMetaConnection::getPropMap().getNameByIndex(PROPERTY_ID_FORMATKEY)) >>= nKey; } catch (const Exception& ) { TOOLS_WARN_EXCEPTION( "connectivity.commontools", "DBTypeConversion::getValue: caught an exception while asking for the format key!"); } if (!nKey) { Reference xFormats( _xFormatter->getNumberFormatsSupplier()->getNumberFormats() ); nKey = ::dbtools::getDefaultNumberFormat(_xColumn, Reference< XNumberFormatTypes > (xFormats, UNO_QUERY), _rLocale); } sal_Int16 nKeyType = getNumberFormatType(_xFormatter, nKey) & ~NumberFormat::DEFINED; return DBTypeConversion::getFormattedValue(Reference< XColumn > (_xColumn, UNO_QUERY), _xFormatter, _rNullDate, nKey, nKeyType); } OUString DBTypeConversion::getFormattedValue(const Reference& xVariant, const Reference& xFormatter, const Date& rNullDate, sal_Int32 nKey, sal_Int16 nKeyType) { OUString aString; if (xVariant.is()) { try { switch (nKeyType & ~NumberFormat::DEFINED) { case NumberFormat::DATE: case NumberFormat::DATETIME: { // get a value which represents the given date, relative to the given null date double fValue = getValue( xVariant, rNullDate ); if ( !xVariant->wasNull() ) { // get the null date of the formatter Date aFormatterNullDate( rNullDate ); try { Reference< XNumberFormatsSupplier > xSupplier( xFormatter->getNumberFormatsSupplier(), UNO_SET_THROW ); Reference< XPropertySet > xFormatterSettings( xSupplier->getNumberFormatSettings(), UNO_SET_THROW ); OSL_VERIFY( xFormatterSettings->getPropertyValue(u"NullDate"_ustr) >>= aFormatterNullDate ); } catch( const Exception& ) { DBG_UNHANDLED_EXCEPTION("connectivity.commontools"); } // get a value which represents the given date, relative to the null date of the formatter fValue -= toDays( rNullDate, aFormatterNullDate ); // format this value aString = xFormatter->convertNumberToString( nKey, fValue ); } } break; case NumberFormat::TIME: case NumberFormat::NUMBER: case NumberFormat::SCIENTIFIC: case NumberFormat::FRACTION: case NumberFormat::PERCENT: { double fValue = xVariant->getDouble(); if (!xVariant->wasNull()) aString = xFormatter->convertNumberToString(nKey, fValue); } break; case NumberFormat::CURRENCY: { double fValue = xVariant->getDouble(); if (!xVariant->wasNull()) aString = xFormatter->getInputString(nKey, fValue); } break; case NumberFormat::TEXT: aString = xFormatter->formatString(nKey, xVariant->getString()); break; default: aString = xVariant->getString(); } } catch(const Exception& ) { aString = xVariant->getString(); } } return aString; } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */