/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4; fill-column: 100 -*- */ /* * 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/. * */ #include #include #include #include #include #include #include #include #include #include #include static bool lcl_textMimeInfo(std::u16string_view rMimeString, bool& bHaveNoCharset, bool& bHaveUTF16, bool& bHaveUTF8) { sal_Int32 nIndex = 0; if (o3tl::getToken(rMimeString, 0, ';', nIndex) == u"text/plain") { std::u16string_view aToken(o3tl::getToken(rMimeString, 0, ';', nIndex)); if (aToken == u"charset=utf-16") bHaveUTF16 = true; else if (aToken == u"charset=utf-8") bHaveUTF8 = true; else if (aToken.empty()) bHaveNoCharset = true; else // we just handle UTF-16 and UTF-8, everything else is "bytes" return false; return true; } return false; } QtTransferable::QtTransferable(const QMimeData* pMimeData) : m_pMimeData(pMimeData) { assert(pMimeData); } css::uno::Sequence SAL_CALL QtTransferable::getTransferDataFlavors() { if (!m_pMimeData) return css::uno::Sequence(); QStringList aFormatList(m_pMimeData->formats()); // we might add the UTF-16 mime text variant later const int nMimeTypeSeqSize = aFormatList.size() + 1; bool bHaveNoCharset = false, bHaveUTF16 = false, bHaveUTF8 = false; css::uno::Sequence aMimeTypeSeq(nMimeTypeSeqSize); auto pMimeTypeSeq = aMimeTypeSeq.getArray(); css::datatransfer::DataFlavor aFlavor; int nMimeTypeCount = 0; for (const QString& rMimeType : aFormatList) { // filter out non-MIME types such as TARGETS, MULTIPLE, TIMESTAMP if (rMimeType.indexOf('/') == -1) continue; // gtk3 thinks it is not well defined - skip too if (rMimeType == QStringLiteral("text/plain;charset=unicode")) continue; // LO doesn't like 'text/plain', so we have to provide UTF-16 bool bIsNoCharset = false, bIsUTF16 = false, bIsUTF8 = false; if (lcl_textMimeInfo(toOUString(rMimeType), bIsNoCharset, bIsUTF16, bIsUTF8)) { bHaveNoCharset |= bIsNoCharset; bHaveUTF16 |= bIsUTF16; bHaveUTF8 |= bIsUTF8; if (bIsUTF16) aFlavor.DataType = cppu::UnoType::get(); else aFlavor.DataType = cppu::UnoType>::get(); } else aFlavor.DataType = cppu::UnoType>::get(); aFlavor.MimeType = toOUString(rMimeType); assert(nMimeTypeCount < nMimeTypeSeqSize); pMimeTypeSeq[nMimeTypeCount] = aFlavor; nMimeTypeCount++; } // in case of text/plain data, but no UTF-16 encoded one, // QtTransferable::getTransferData converts from existing encoding to UTF-16 const bool bProvideUTF16FromOtherEncoding = (bHaveNoCharset || bHaveUTF8) && !bHaveUTF16; if (bProvideUTF16FromOtherEncoding) { aFlavor.MimeType = "text/plain;charset=utf-16"; aFlavor.DataType = cppu::UnoType::get(); assert(nMimeTypeCount < nMimeTypeSeqSize); pMimeTypeSeq[nMimeTypeCount] = aFlavor; nMimeTypeCount++; } aMimeTypeSeq.realloc(nMimeTypeCount); return aMimeTypeSeq; } sal_Bool SAL_CALL QtTransferable::isDataFlavorSupported(const css::datatransfer::DataFlavor& rFlavor) { const auto aSeq = getTransferDataFlavors(); return std::any_of(aSeq.begin(), aSeq.end(), [&](const css::datatransfer::DataFlavor& aFlavor) { return rFlavor.MimeType == aFlavor.MimeType; }); } css::uno::Any SAL_CALL QtTransferable::getTransferData(const css::datatransfer::DataFlavor& rFlavor) { css::uno::Any aAny; if (!isDataFlavorSupported(rFlavor)) return aAny; if (rFlavor.MimeType == "text/plain;charset=utf-16") { OUString aString; // use existing UTF-16 encoded text/plain or convert to UTF-16 as needed if (m_pMimeData->hasFormat("text/plain;charset=utf-16")) { QByteArray aByteData(m_pMimeData->data(toQString(rFlavor.MimeType))); aString = OUString(reinterpret_cast(aByteData.data()), aByteData.size() / 2); } else if (m_pMimeData->hasFormat("text/plain;charset=utf-8")) { QByteArray aByteData(m_pMimeData->data(QStringLiteral("text/plain;charset=utf-8"))); aString = OUString::fromUtf8(reinterpret_cast(aByteData.data())); } else { QByteArray aByteData(m_pMimeData->data(QStringLiteral("text/plain"))); aString = OUString(reinterpret_cast(aByteData.data()), aByteData.size(), osl_getThreadTextEncoding()); } aAny <<= aString; } else { QByteArray aByteData(m_pMimeData->data(toQString(rFlavor.MimeType))); css::uno::Sequence aSeq(reinterpret_cast(aByteData.data()), aByteData.size()); aAny <<= aSeq; } return aAny; } QtClipboardTransferable::QtClipboardTransferable(const QClipboard::Mode aMode, const QMimeData* pMimeData) : QtTransferable(pMimeData) , m_aMode(aMode) { } void QtClipboardTransferable::ensureConsistencyWithSystemClipboard() { const QMimeData* pCurrentClipboardData = QApplication::clipboard()->mimeData(m_aMode); if (mimeData() != pCurrentClipboardData) { SAL_WARN("vcl.qt", "In flight clipboard change detected - updating mime data with current " "clipboard contents."); DBG_TESTSOLARMUTEX(); setMimeData(pCurrentClipboardData); } } bool QtClipboardTransferable::hasMimeData(const QMimeData* pMimeData) const { SolarMutexGuard aGuard; return QtTransferable::mimeData() == pMimeData; } css::uno::Any SAL_CALL QtClipboardTransferable::getTransferData(const css::datatransfer::DataFlavor& rFlavor) { css::uno::Any aAny; SolarMutexGuard g; GetQtInstance().RunInMainThread([&, this]() { ensureConsistencyWithSystemClipboard(); aAny = QtTransferable::getTransferData(rFlavor); }); return aAny; } css::uno::Sequence SAL_CALL QtClipboardTransferable::getTransferDataFlavors() { css::uno::Sequence aSeq; SolarMutexGuard g; GetQtInstance().RunInMainThread([&, this]() { ensureConsistencyWithSystemClipboard(); aSeq = QtTransferable::getTransferDataFlavors(); }); return aSeq; } sal_Bool SAL_CALL QtClipboardTransferable::isDataFlavorSupported(const css::datatransfer::DataFlavor& rFlavor) { bool bIsSupported = false; SolarMutexGuard g; GetQtInstance().RunInMainThread([&, this]() { ensureConsistencyWithSystemClipboard(); bIsSupported = QtTransferable::isDataFlavorSupported(rFlavor); }); return bIsSupported; } QtMimeData::QtMimeData(const css::uno::Reference& xTrans) : m_aContents(xTrans) , m_bHaveNoCharset(false) , m_bHaveUTF8(false) { assert(xTrans.is()); } bool QtMimeData::deepCopy(QMimeData** const pMimeCopy) const { if (!pMimeCopy) return false; QMimeData* pMimeData = new QMimeData(); for (QString& format : formats()) { QByteArray aData = data(format); // Checking for custom MIME types if (format.startsWith("application/x-qt")) { // Retrieving true format name int indexBegin = format.indexOf('"') + 1; int indexEnd = format.indexOf('"', indexBegin); format = format.mid(indexBegin, indexEnd - indexBegin); } pMimeData->setData(format, aData); } *pMimeCopy = pMimeData; return true; } QStringList QtMimeData::formats() const { if (!m_aMimeTypeList.isEmpty()) return m_aMimeTypeList; const css::uno::Sequence aFormats = m_aContents->getTransferDataFlavors(); QStringList aList; bool bHaveUTF16 = false; for (const auto& rFlavor : aFormats) { aList << toQString(rFlavor.MimeType); lcl_textMimeInfo(rFlavor.MimeType, m_bHaveNoCharset, bHaveUTF16, m_bHaveUTF8); } // we provide a locale encoded and a UTF-8 variant, if missing if (m_bHaveNoCharset || bHaveUTF16 || m_bHaveUTF8) { // if there is a text representation from LO point of view, it'll be UTF-16 assert(bHaveUTF16); if (!m_bHaveUTF8) aList << QStringLiteral("text/plain;charset=utf-8"); if (!m_bHaveNoCharset) aList << QStringLiteral("text/plain"); } m_aMimeTypeList = aList; return m_aMimeTypeList; } #if QT_VERSION < QT_VERSION_CHECK(6, 0, 0) QVariant QtMimeData::retrieveData(const QString& mimeType, QVariant::Type) const #else QVariant QtMimeData::retrieveData(const QString& mimeType, QMetaType) const #endif { if (!hasFormat(mimeType)) return QVariant(); css::datatransfer::DataFlavor aFlavor; aFlavor.MimeType = toOUString(mimeType); aFlavor.DataType = cppu::UnoType>::get(); bool bWantNoCharset = false, bWantUTF16 = false, bWantUTF8 = false; if (lcl_textMimeInfo(aFlavor.MimeType, bWantNoCharset, bWantUTF16, bWantUTF8)) { if ((bWantNoCharset && !m_bHaveNoCharset) || (bWantUTF8 && !m_bHaveUTF8)) { aFlavor.MimeType = "text/plain;charset=utf-16"; aFlavor.DataType = cppu::UnoType::get(); } else if (bWantUTF16) aFlavor.DataType = cppu::UnoType::get(); } css::uno::Any aValue; try { // tdf#129809 take a reference in case m_aContents is replaced during this call css::uno::Reference xCurrentContents(m_aContents); aValue = xCurrentContents->getTransferData(aFlavor); } catch (...) { } QByteArray aByteArray; if (aValue.getValueTypeClass() == css::uno::TypeClass_STRING) { OUString aString; aValue >>= aString; if (bWantUTF8) { OString aUTF8String(OUStringToOString(aString, RTL_TEXTENCODING_UTF8)); aByteArray = QByteArray(aUTF8String.getStr(), aUTF8String.getLength()); } else if (bWantNoCharset) { OString aLocaleString(OUStringToOString(aString, osl_getThreadTextEncoding())); aByteArray = QByteArray(aLocaleString.getStr(), aLocaleString.getLength()); } else if (bWantUTF16) { aByteArray = QByteArray(reinterpret_cast(aString.getStr()), aString.getLength() * 2); } else return QVariant(toQString(aString)); } else { css::uno::Sequence aData; aValue >>= aData; aByteArray = QByteArray(reinterpret_cast(aData.getConstArray()), aData.getLength()); } return QVariant::fromValue(aByteArray); } bool QtMimeData::hasFormat(const QString& mimeType) const { return formats().contains(mimeType); } /* vim:set shiftwidth=4 softtabstop=4 expandtab cinoptions=b1,g0,N-s cinkeys+=0=break: */