/**************************************************************************** ** ** Copyright (C) 2009 Nokia Corporation and/or its subsidiary(-ies). ** Contact: Qt Software Information (qt-info@nokia.com) ** ** This file is part of the QtGui module of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** No Commercial Usage ** This file contains pre-release code and may not be distributed. ** You may use this file in accordance with the terms and conditions ** contained in the either Technology Preview License Agreement or the ** Beta Release License Agreement. ** ** GNU Lesser General Public License Usage ** Alternatively, this file may be used under the terms of the GNU Lesser ** General Public License version 2.1 as published by the Free Software ** Foundation and appearing in the file LICENSE.LGPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU Lesser General Public License version 2.1 requirements ** will be met: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. ** ** In addition, as a special exception, Nokia gives you certain ** additional rights. These rights are described in the Nokia Qt LGPL ** Exception version 1.0, included in the file LGPL_EXCEPTION.txt in this ** package. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU ** General Public License version 3.0 as published by the Free Software ** Foundation and appearing in the file LICENSE.GPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU General Public License version 3.0 requirements will be ** met: http://www.gnu.org/copyleft/gpl.html. ** ** If you are unsure which license is appropriate for your use, please ** contact the sales department at qt-sales@nokia.com. ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "qmime.h" #include "qimagereader.h" #include "qimagewriter.h" #include "qdatastream.h" #include "qbuffer.h" #include "qt_windows.h" #include "qapplication_p.h" #include "qtextcodec.h" #include "qregexp.h" #include "qalgorithms.h" #include "qmap.h" #include "qdnd_p.h" #include #include "qurl.h" #include "qvariant.h" #include "qtextdocument.h" #include "qdir.h" #if defined(Q_OS_WINCE) #include "qguifunctions_wince.h" #endif QT_BEGIN_NAMESPACE #ifndef QT_NO_IMAGEFORMAT_BMP #ifndef CF_DIBV5 #define CF_DIBV5 17 #endif /* The MSVC compilers allows multi-byte characters, that has the behavior of * that each character gets shifted into position. 0x73524742 below is for MSVC * equivalent to doing 'sRGB', but this does of course not work * on conformant C++ compilers. */ #define BMP_LCS_sRGB 0x73524742 #define BMP_LCS_GM_IMAGES 0x00000004L struct _CIEXYZ { long ciexyzX, ciexyzY, ciexyzZ; }; struct _CIEXYZTRIPLE { _CIEXYZ ciexyzRed, ciexyzGreen, ciexyzBlue; }; struct BMP_BITMAPV5HEADER { DWORD bV5Size; LONG bV5Width; LONG bV5Height; WORD bV5Planes; WORD bV5BitCount; DWORD bV5Compression; DWORD bV5SizeImage; LONG bV5XPelsPerMeter; LONG bV5YPelsPerMeter; DWORD bV5ClrUsed; DWORD bV5ClrImportant; DWORD bV5RedMask; DWORD bV5GreenMask; DWORD bV5BlueMask; DWORD bV5AlphaMask; DWORD bV5CSType; _CIEXYZTRIPLE bV5Endpoints; DWORD bV5GammaRed; DWORD bV5GammaGreen; DWORD bV5GammaBlue; DWORD bV5Intent; DWORD bV5ProfileData; DWORD bV5ProfileSize; DWORD bV5Reserved; }; static const int BMP_BITFIELDS = 3; extern bool qt_read_dib(QDataStream&, QImage&); // qimage.cpp extern bool qt_write_dib(QDataStream&, QImage); // qimage.cpp static bool qt_write_dibv5(QDataStream &s, QImage image); static bool qt_read_dibv5(QDataStream &s, QImage &image); #endif //#define QMIME_DEBUG // helpers for using global memory static int getCf(const FORMATETC &formatetc) { return formatetc.cfFormat; } static FORMATETC setCf(int cf) { FORMATETC formatetc; formatetc.cfFormat = cf; formatetc.dwAspect = DVASPECT_CONTENT; formatetc.lindex = -1; formatetc.ptd = NULL; formatetc.tymed = TYMED_HGLOBAL; return formatetc; } static bool setData(const QByteArray &data, STGMEDIUM *pmedium) { HGLOBAL hData = GlobalAlloc(0, data.size()); if (!hData) return false; void *out = GlobalLock(hData); memcpy(out, data.data(), data.size()); GlobalUnlock(hData); pmedium->tymed = TYMED_HGLOBAL; pmedium->hGlobal = hData; pmedium->pUnkForRelease = 0; return true; } static QByteArray getData(int cf, IDataObject *pDataObj) { QByteArray data; FORMATETC formatetc = setCf(cf); STGMEDIUM s; if (pDataObj->GetData(&formatetc, &s) == S_OK) { DWORD * val = (DWORD*)GlobalLock(s.hGlobal); data = QByteArray::fromRawData((char*)val, GlobalSize(s.hGlobal)); data.detach(); GlobalUnlock(s.hGlobal); ReleaseStgMedium(&s); } else { //Try reading IStream data formatetc.tymed = TYMED_ISTREAM; if (pDataObj->GetData(&formatetc, &s) == S_OK) { char szBuffer[4096]; ULONG actualRead = 0; LARGE_INTEGER pos = {0, 0}; //Move to front (can fail depending on the data model implemented) HRESULT hr = s.pstm->Seek(pos, STREAM_SEEK_SET, NULL); while(SUCCEEDED(hr)){ hr = s.pstm->Read(szBuffer, sizeof(szBuffer), &actualRead); if (SUCCEEDED(hr) && actualRead > 0) { data += QByteArray::fromRawData(szBuffer, actualRead); } if (actualRead != sizeof(szBuffer)) break; } data.detach(); ReleaseStgMedium(&s); } } return data; } static bool canGetData(int cf, IDataObject * pDataObj) { FORMATETC formatetc = setCf(cf); if (pDataObj->QueryGetData(&formatetc) != S_OK){ formatetc.tymed = TYMED_ISTREAM; return pDataObj->QueryGetData(&formatetc) == S_OK; } return true; } class QWindowsMimeList { public: QWindowsMimeList(); ~QWindowsMimeList(); void addWindowsMime(QWindowsMime * mime); void removeWindowsMime(QWindowsMime * mime); QList windowsMimes(); private: void init(); bool initialized; QList mimes; }; Q_GLOBAL_STATIC(QWindowsMimeList, theMimeList); /*! \class QWindowsMime \brief The QWindowsMime class maps open-standard MIME to Window Clipboard formats. \ingroup io \ingroup draganddrop \ingroup misc Qt's drag-and-drop and clipboard facilities use the MIME standard. On X11, this maps trivially to the Xdnd protocol, but on Windows although some applications use MIME types to describe clipboard formats, others use arbitrary non-standardized naming conventions, or unnamed built-in formats of Windows. By instantiating subclasses of QWindowsMime that provide conversions between Windows Clipboard and MIME formats, you can convert proprietary clipboard formats to MIME formats. Qt has predefined support for the following Windows Clipboard formats: \table \header \o Windows Format \o Equivalent MIME type \row \o \c CF_UNICODETEXT \o \c text/plain \row \o \c CF_TEXT \o \c text/plain \row \o \c CF_DIB \o \c{image/xyz}, where \c xyz is a \l{QImageWriter::supportedImageFormats()}{Qt image format} \row \o \c CF_HDROP \o \c text/uri-list \row \o \c CF_INETURL \o \c text/uri-list \row \o \c CF_HTML \o \c text/html \endtable An example use of this class would be to map the Windows Metafile clipboard format (\c CF_METAFILEPICT) to and from the MIME type \c{image/x-wmf}. This conversion might simply be adding or removing a header, or even just passing on the data. See \l{Drag and Drop} for more information on choosing and definition MIME types. You can check if a MIME type is convertible using canConvertFromMime() and can perform conversions with convertToMime() and convertFromMime(). */ /*! Constructs a new conversion object, adding it to the globally accessed list of available converters. */ QWindowsMime::QWindowsMime() { theMimeList()->addWindowsMime(this); } /*! Destroys a conversion object, removing it from the global list of available converters. */ QWindowsMime::~QWindowsMime() { theMimeList()->removeWindowsMime(this); } /*! Registers the MIME type \a mime, and returns an ID number identifying the format on Windows. */ int QWindowsMime::registerMimeType(const QString &mime) { #ifdef Q_OS_WINCE int f = RegisterClipboardFormat(reinterpret_cast (mime.utf16())); #else int f = RegisterClipboardFormatA(mime.toLocal8Bit()); #endif if (!f) qErrnoWarning("QWindowsMime::registerMimeType: Failed to register clipboard format"); return f; } /*! \fn bool QWindowsMime::canConvertFromMime(const FORMATETC &formatetc, const QMimeData *mimeData) const Returns true if the converter can convert from the \a mimeData to the format specified in \a formatetc. All subclasses must reimplement this pure virtual function. */ /*! \fn bool QWindowsMime::canConvertToMime(const QString &mimeType, IDataObject *pDataObj) const Returns true if the converter can convert to the \a mimeType from the available formats in \a pDataObj. All subclasses must reimplement this pure virtual function. */ /*! \fn QString QWindowsMime::mimeForFormat(const FORMATETC &formatetc) const Returns the mime type that will be created form the format specified in \a formatetc, or an empty string if this converter does not support \a formatetc. All subclasses must reimplement this pure virtual function. */ /*! \fn QVector QWindowsMime::formatsForMime(const QString &mimeType, const QMimeData *mimeData) const Returns a QVector of FORMATETC structures representing the different windows clipboard formats that can be provided for the \a mimeType from the \a mimeData. All subclasses must reimplement this pure virtual function. */ /*! \fn QVariant QWindowsMime::convertToMime(const QString &mimeType, IDataObject *pDataObj, QVariant::Type preferredType) const Returns a QVariant containing the converted data for \a mimeType from \a pDataObj. If possible the QVariant should be of the \a preferredType to avoid needless conversions. All subclasses must reimplement this pure virtual function. */ /*! \fn bool QWindowsMime::convertFromMime(const FORMATETC &formatetc, const QMimeData *mimeData, STGMEDIUM * pmedium) const Convert the \a mimeData to the format specified in \a formatetc. The converted data should then be placed in \a pmedium structure. Return true if the conversion was successful. All subclasses must reimplement this pure virtual function. */ QWindowsMime *QWindowsMime::converterFromMime(const FORMATETC &formatetc, const QMimeData *mimeData) { QList mimes = theMimeList()->windowsMimes(); for (int i=mimes.size()-1; i>=0; --i) { if (mimes.at(i)->canConvertFromMime(formatetc, mimeData)) return mimes.at(i); } return 0; } QWindowsMime *QWindowsMime::converterToMime(const QString &mimeType, IDataObject *pDataObj) { QList mimes = theMimeList()->windowsMimes(); for (int i=mimes.size()-1; i>=0; --i) { if (mimes.at(i)->canConvertToMime(mimeType, pDataObj)) return mimes.at(i); } return 0; } QVector QWindowsMime::allFormatsForMime(const QMimeData *mimeData) { QList mimes = theMimeList()->windowsMimes(); QVector formatics; formatics.reserve(20); #ifndef QT_NO_DRAGANDDROP QStringList formats = QInternalMimeData::formatsHelper(mimeData); for (int f=0; f=0; --i) formatics += mimes.at(i)->formatsForMime(formats.at(f), mimeData); } #else Q_UNUSED(mimeData); #endif //QT_NO_DRAGANDDROP return formatics; } QStringList QWindowsMime::allMimesForFormats(IDataObject *pDataObj) { QList mimes = theMimeList()->windowsMimes(); QStringList formats; LPENUMFORMATETC FAR fmtenum; HRESULT hr = pDataObj->EnumFormatEtc(DATADIR_GET, &fmtenum); if (hr == NOERROR) { FORMATETC fmtetc; while (S_OK == fmtenum->Next(1, &fmtetc, 0)) { #if defined(QMIME_DEBUG) && !defined(Q_OS_WINCE) qDebug("QWindowsMime::allMimesForFormats()"); char buf[256] = {0}; GetClipboardFormatNameA(fmtetc.cfFormat, buf, 255); qDebug("CF = %d : %s", fmtetc.cfFormat, buf); #endif for (int i=mimes.size()-1; i>=0; --i) { QString format = mimes.at(i)->mimeForFormat(fmtetc); if (!format.isEmpty() && !formats.contains(format)) { formats += format; } } // as documented in MSDN to avoid possible memleak if (fmtetc.ptd) CoTaskMemFree(fmtetc.ptd); } fmtenum->Release(); } return formats; } class QWindowsMimeText : public QWindowsMime { public: bool canConvertToMime(const QString &mimeType, IDataObject *pDataObj) const; QVariant convertToMime(const QString &mime, LPDATAOBJECT pDataObj, QVariant::Type preferredType) const; QString mimeForFormat(const FORMATETC &formatetc) const; bool canConvertFromMime(const FORMATETC &formatetc, const QMimeData *mimeData) const; bool convertFromMime(const FORMATETC &formatetc, const QMimeData *mimeData, STGMEDIUM *pmedium) const; QVector formatsForMime(const QString &mimeType, const QMimeData *mimeData) const; }; bool QWindowsMimeText::canConvertFromMime(const FORMATETC &formatetc, const QMimeData *mimeData) const { int cf = getCf(formatetc); return (cf == CF_UNICODETEXT || cf == CF_TEXT) && mimeData->hasText(); } /* text/plain is defined as using CRLF, but so many programs don't, and programmers just look for '\n' in strings. Windows really needs CRLF, so we ensure it here. */ bool QWindowsMimeText::convertFromMime(const FORMATETC &formatetc, const QMimeData *mimeData, STGMEDIUM *pmedium) const { if (canConvertFromMime(formatetc, mimeData)) { QByteArray data; int cf = getCf(formatetc); if (cf == CF_TEXT) { data = mimeData->text().toLocal8Bit(); // Anticipate required space for CRLFs at 1/40 int maxsize=data.size()+data.size()/40+3; QByteArray r(maxsize, '\0'); char* o = r.data(); const char* d = data.data(); const int s = data.size(); bool cr=false; int j=0; for (int i=0; i= maxsize) { maxsize += maxsize/4; r.resize(maxsize); o = r.data(); } } o[j]=0; return setData(r, pmedium); } else if (cf == CF_UNICODETEXT) { QString str = mimeData->text(); const QChar *u = str.unicode(); QString res; const int s = str.length(); int maxsize = s + s/40 + 3; res.resize(maxsize); int ri = 0; bool cr = false; for (int i=0; i < s; ++i) { if (*u == QLatin1Char('\r')) cr = true; else { if (*u == QLatin1Char('\n') && !cr) res[ri++] = QLatin1Char('\r'); cr = false; } res[ri++] = *u; if (ri+3 >= maxsize) { maxsize += maxsize/4; res.resize(maxsize); } ++u; } res.truncate(ri); const int byteLength = res.length()*2; QByteArray r(byteLength + 2, '\0'); memcpy(r.data(), res.unicode(), byteLength); r[byteLength] = 0; r[byteLength+1] = 0; return setData(r, pmedium); } } return false; } bool QWindowsMimeText::canConvertToMime(const QString &mimeType, IDataObject *pDataObj) const { return mimeType.startsWith(QLatin1String("text/plain")) && (canGetData(CF_UNICODETEXT, pDataObj) || canGetData(CF_TEXT, pDataObj)); } QString QWindowsMimeText::mimeForFormat(const FORMATETC &formatetc) const { int cf = getCf(formatetc); if (cf == CF_UNICODETEXT || cf == CF_TEXT) return QLatin1String("text/plain"); return QString(); } QVector QWindowsMimeText::formatsForMime(const QString &mimeType, const QMimeData *mimeData) const { QVector formatics; if (mimeType.startsWith(QLatin1String("text/plain")) && mimeData->hasText()) { formatics += setCf(CF_UNICODETEXT); formatics += setCf(CF_TEXT); } return formatics; } QVariant QWindowsMimeText::convertToMime(const QString &mime, LPDATAOBJECT pDataObj, QVariant::Type preferredType) const { QVariant ret; if (canConvertToMime(mime, pDataObj)) { QString str; QByteArray data = getData(CF_UNICODETEXT, pDataObj); if (!data.isEmpty()) { str = QString::fromUtf16((const unsigned short *)data.data()); str.replace(QLatin1String("\r\n"), QLatin1String("\n")); } else { data = getData(CF_TEXT, pDataObj); if (!data.isEmpty()) { const char* d = data.data(); const int s = qstrlen(d); QByteArray r(data.size()+1, '\0'); char* o = r.data(); int j=0; for (int i=0; i formatsForMime(const QString &mimeType, const QMimeData *mimeData) const; private: int CF_INETURL_W; // wide char version int CF_INETURL; }; QWindowsMimeURI::QWindowsMimeURI() { CF_INETURL_W = QWindowsMime::registerMimeType(QLatin1String("UniformResourceLocatorW")); CF_INETURL = QWindowsMime::registerMimeType(QLatin1String("UniformResourceLocator")); } bool QWindowsMimeURI::canConvertFromMime(const FORMATETC &formatetc, const QMimeData *mimeData) const { if (getCf(formatetc) == CF_HDROP) { QList urls = mimeData->urls(); for (int i=0; ihasFormat(QLatin1String("text/uri-list")); } bool QWindowsMimeURI::convertFromMime(const FORMATETC &formatetc, const QMimeData *mimeData, STGMEDIUM *pmedium) const { if (canConvertFromMime(formatetc, mimeData)) { if (getCf(formatetc) == CF_HDROP) { QList urls = mimeData->urls(); QStringList fileNames; int size = sizeof(DROPFILES)+2; for (int i=0; ipFiles = sizeof(DROPFILES); GetCursorPos(&d->pt); // try d->fNC = true; char* files = ((char*)d) + d->pFiles; QT_WA({ d->fWide = true; TCHAR* f = (TCHAR*)files; for (int i=0; ifWide = false; char* f = files; for (int i=0; i urls = mimeData->urls(); QByteArray result; QString url = urls.at(0).toString(); result = QByteArray((const char *)url.utf16(), url.length() * 2); result.append('\0'); result.append('\0'); return setData(result, pmedium); } else if (getCf(formatetc) == CF_INETURL) { QList urls = mimeData->urls(); QByteArray result = urls.at(0).toString().toLocal8Bit(); return setData(result, pmedium); } } return false; } bool QWindowsMimeURI::canConvertToMime(const QString &mimeType, IDataObject *pDataObj) const { return mimeType == QLatin1String("text/uri-list") && (canGetData(CF_HDROP, pDataObj) || canGetData(CF_INETURL_W, pDataObj) || canGetData(CF_INETURL, pDataObj)); } QString QWindowsMimeURI::mimeForFormat(const FORMATETC &formatetc) const { QString format; if (getCf(formatetc) == CF_HDROP || getCf(formatetc) == CF_INETURL_W || getCf(formatetc) == CF_INETURL) format = QLatin1String("text/uri-list"); return format; } QVector QWindowsMimeURI::formatsForMime(const QString &mimeType, const QMimeData *mimeData) const { QVector formatics; if (mimeType == QLatin1String("text/uri-list")) { if (canConvertFromMime(setCf(CF_HDROP), mimeData)) formatics += setCf(CF_HDROP); if (canConvertFromMime(setCf(CF_INETURL_W), mimeData)) formatics += setCf(CF_INETURL_W); if (canConvertFromMime(setCf(CF_INETURL), mimeData)) formatics += setCf(CF_INETURL); } return formatics; } QVariant QWindowsMimeURI::convertToMime(const QString &mimeType, LPDATAOBJECT pDataObj, QVariant::Type preferredType) const { if (mimeType == QLatin1String("text/uri-list")) { if (canGetData(CF_HDROP, pDataObj)) { QByteArray texturi; QList urls; QByteArray data = getData(CF_HDROP, pDataObj); if (data.isEmpty()) return QVariant(); LPDROPFILES hdrop = (LPDROPFILES)data.data(); if (hdrop->fWide) { const ushort* filesw = (const ushort*)(data.data() + hdrop->pFiles); int i=0; while (filesw[i]) { QString fileurl = QString::fromUtf16(filesw+i); urls += QUrl::fromLocalFile(fileurl); i += fileurl.length()+1; } } else { const char* files = (const char*)data.data() + hdrop->pFiles; int i=0; while (files[i]) { urls += QUrl::fromLocalFile(QString::fromLocal8Bit(files+i)); i += int(strlen(files+i))+1; } } if (preferredType == QVariant::Url && urls.size() == 1) return urls.at(0); else if (!urls.isEmpty()) return urls; } else if (canGetData(CF_INETURL_W, pDataObj)) { QByteArray data = getData(CF_INETURL_W, pDataObj); if (data.isEmpty()) return QVariant(); return QUrl(QString::fromUtf16((const unsigned short *)data.constData())); } else if (canGetData(CF_INETURL, pDataObj)) { QByteArray data = getData(CF_INETURL, pDataObj); if (data.isEmpty()) return QVariant(); return QUrl(QString::fromLocal8Bit(data.constData())); } } return QVariant(); } class QWindowsMimeHtml : public QWindowsMime { public: QWindowsMimeHtml(); // for converting from Qt bool canConvertFromMime(const FORMATETC &formatetc, const QMimeData *mimeData) const; bool convertFromMime(const FORMATETC &formatetc, const QMimeData *mimeData, STGMEDIUM * pmedium) const; QVector formatsForMime(const QString &mimeType, const QMimeData *mimeData) const; // for converting to Qt bool canConvertToMime(const QString &mimeType, IDataObject *pDataObj) const; QVariant convertToMime(const QString &mime, IDataObject *pDataObj, QVariant::Type preferredType) const; QString mimeForFormat(const FORMATETC &formatetc) const; private: int CF_HTML; }; QWindowsMimeHtml::QWindowsMimeHtml() { CF_HTML = QWindowsMime::registerMimeType(QLatin1String("HTML Format")); } QVector QWindowsMimeHtml::formatsForMime(const QString &mimeType, const QMimeData *mimeData) const { QVector formatetcs; if (mimeType == QLatin1String("text/html") && (!mimeData->html().isEmpty())) formatetcs += setCf(CF_HTML); return formatetcs; } QString QWindowsMimeHtml::mimeForFormat(const FORMATETC &formatetc) const { if (getCf(formatetc) == CF_HTML) return QLatin1String("text/html"); return QString(); } bool QWindowsMimeHtml::canConvertToMime(const QString &mimeType, IDataObject *pDataObj) const { return mimeType == QLatin1String("text/html") && canGetData(CF_HTML, pDataObj); } bool QWindowsMimeHtml::canConvertFromMime(const FORMATETC &formatetc, const QMimeData *mimeData) const { return getCf(formatetc) == CF_HTML && (!mimeData->html().isEmpty()); } /* The windows HTML clipboard format is as follows (xxxxxxxxxx is a 10 integer number giving the positions in bytes). Charset used is mostly utf8, but can be different, ie. we have to look for the charset tag Version: 1.0 StartHTML:xxxxxxxxxx EndHTML:xxxxxxxxxx StartFragment:xxxxxxxxxx EndFragment:xxxxxxxxxx ...html... */ QVariant QWindowsMimeHtml::convertToMime(const QString &mime, IDataObject *pDataObj, QVariant::Type preferredType) const { Q_UNUSED(preferredType); QVariant result; if (canConvertToMime(mime, pDataObj)) { QByteArray html = getData(CF_HTML, pDataObj); #ifdef QMIME_DEBUG qDebug("QWindowsMimeHtml::convertToMime"); qDebug("raw :"); qDebug(html); #endif int start = html.indexOf("StartFragment:"); int end = html.indexOf("EndFragment:"); if (start != -1) { int startOffset = start + 14; int i = startOffset; while (html.at(i) != '\r' && html.at(i) != '\n') ++i; QByteArray bytecount = html.mid(startOffset, i - startOffset); start = bytecount.toInt(); } if (end != -1) { int endOffset = end + 12; int i = endOffset ; while (html.at(i) != '\r' && html.at(i) != '\n') ++i; QByteArray bytecount = html.mid(endOffset , i - endOffset); end = bytecount.toInt(); } if (end > start && start > 0) { html = "" + html.mid(start, end - start); html += ""; html.replace('\r', ""); result = QString::fromUtf8(html); } } return result; } bool QWindowsMimeHtml::convertFromMime(const FORMATETC &formatetc, const QMimeData *mimeData, STGMEDIUM * pmedium) const { if (canConvertFromMime(formatetc, mimeData)) { QByteArray data = mimeData->html().toUtf8(); QByteArray result = "Version:1.0\r\n" // 0-12 "StartHTML:0000000105\r\n" // 13-35 "EndHTML:0000000000\r\n" // 36-55 "StartFragment:0000000000\r\n" // 58-86 "EndFragment:0000000000\r\n\r\n"; // 87-105 if (data.indexOf("") == -1) result += ""; result += data; if (data.indexOf("") == -1) result += ""; // set the correct number for EndHTML QByteArray pos = QString::number(result.size()).toLatin1(); memcpy((char *)(result.data() + 53 - pos.length()), pos.constData(), pos.length()); // set correct numbers for StartFragment and EndFragment pos = QString::number(result.indexOf("") + 20).toLatin1(); memcpy((char *)(result.data() + 79 - pos.length()), pos.constData(), pos.length()); pos = QString::number(result.indexOf("")).toLatin1(); memcpy((char *)(result.data() + 103 - pos.length()), pos.constData(), pos.length()); return setData(result, pmedium); } return false; } #ifndef QT_NO_IMAGEFORMAT_BMP class QWindowsMimeImage : public QWindowsMime { public: QWindowsMimeImage(); // for converting from Qt bool canConvertFromMime(const FORMATETC &formatetc, const QMimeData *mimeData) const; bool convertFromMime(const FORMATETC &formatetc, const QMimeData *mimeData, STGMEDIUM * pmedium) const; QVector formatsForMime(const QString &mimeType, const QMimeData *mimeData) const; // for converting to Qt bool canConvertToMime(const QString &mimeType, IDataObject *pDataObj) const; QVariant convertToMime(const QString &mime, IDataObject *pDataObj, QVariant::Type preferredType) const; QString mimeForFormat(const FORMATETC &formatetc) const; private: bool hasOriginalDIBV5(IDataObject *pDataObj) const; UINT CF_PNG; }; QWindowsMimeImage::QWindowsMimeImage() { #ifdef Q_OS_WINCE CF_PNG = RegisterClipboardFormat(reinterpret_cast (QString::fromLatin1("PNG").utf16())); #else CF_PNG = RegisterClipboardFormatA("PNG"); #endif } QVector QWindowsMimeImage::formatsForMime(const QString &mimeType, const QMimeData *mimeData) const { QVector formatetcs; if (mimeData->hasImage() && mimeType == QLatin1String("application/x-qt-image")) { //add DIBV5 if image has alpha channel QImage image = qvariant_cast(mimeData->imageData()); if (!image.isNull() && image.hasAlphaChannel()) formatetcs += setCf(CF_DIBV5); formatetcs += setCf(CF_DIB); } return formatetcs; } QString QWindowsMimeImage::mimeForFormat(const FORMATETC &formatetc) const { int cf = getCf(formatetc); if (cf == CF_DIB || cf == CF_DIBV5 || cf == int(CF_PNG)) return QLatin1String("application/x-qt-image"); return QString(); } bool QWindowsMimeImage::canConvertToMime(const QString &mimeType, IDataObject *pDataObj) const { if ((mimeType == QLatin1String("application/x-qt-image")) && (canGetData(CF_DIB, pDataObj) || canGetData(CF_PNG, pDataObj))) return true; return false; } bool QWindowsMimeImage::canConvertFromMime(const FORMATETC &formatetc, const QMimeData *mimeData) const { int cf = getCf(formatetc); if (mimeData->hasImage()) { if (cf == CF_DIB) return true; else if (cf == CF_DIBV5) { //support DIBV5 conversion only if the image has alpha channel QImage image = qvariant_cast(mimeData->imageData()); if (!image.isNull() && image.hasAlphaChannel()) return true; } } return false; } bool QWindowsMimeImage::convertFromMime(const FORMATETC &formatetc, const QMimeData *mimeData, STGMEDIUM * pmedium) const { int cf = getCf(formatetc); if ((cf == CF_DIB || cf == CF_DIBV5) && mimeData->hasImage()) { QImage img = qvariant_cast(mimeData->imageData()); if (img.isNull()) return false; QByteArray ba; QDataStream s(&ba, QIODevice::WriteOnly); s.setByteOrder(QDataStream::LittleEndian);// Intel byte order #### if (cf == CF_DIB) { if (qt_write_dib(s, img)) return setData(ba, pmedium); } else { if (qt_write_dibv5(s, img)) return setData(ba, pmedium); } } return false; } bool QWindowsMimeImage::hasOriginalDIBV5(IDataObject *pDataObj) const { bool isSynthesized = true; IEnumFORMATETC *pEnum =NULL; HRESULT res = pDataObj->EnumFormatEtc(1, &pEnum); if (res == S_OK && pEnum) { FORMATETC fc; while ((res = pEnum->Next(1, &fc, 0)) == S_OK) { if (fc.ptd) CoTaskMemFree(fc.ptd); if (fc.cfFormat == CF_DIB) break; else if (fc.cfFormat == CF_DIBV5) { isSynthesized = false; break; } } pEnum->Release(); } return !isSynthesized; } QVariant QWindowsMimeImage::convertToMime(const QString &mimeType, IDataObject *pDataObj, QVariant::Type preferredType) const { Q_UNUSED(preferredType); QVariant result; if (mimeType != QLatin1String("application/x-qt-image")) return result; //Try to convert from a format which has more data //DIBV5, use only if its is not synthesized if (canGetData(CF_DIBV5, pDataObj) && hasOriginalDIBV5(pDataObj)) { QImage img; QByteArray data = getData(CF_DIBV5, pDataObj); QDataStream s(&data, QIODevice::ReadOnly); s.setByteOrder(QDataStream::LittleEndian); if (qt_read_dibv5(s, img)) { // #### supports only 32bit DIBV5 return img; } } //PNG, MS Office place this (undocumented) if (canGetData(CF_PNG, pDataObj)) { QImage img; QByteArray data = getData(CF_PNG, pDataObj); if (img.loadFromData(data, "PNG")) { return img; } } //Fallback to DIB if (canGetData(CF_DIB, pDataObj)) { QImage img; QByteArray data = getData(CF_DIB, pDataObj); QDataStream s(&data, QIODevice::ReadOnly); s.setByteOrder(QDataStream::LittleEndian);// Intel byte order #### if (qt_read_dib(s, img)) { // ##### encaps "-14" return img; } } // Failed return result; } #endif class QBuiltInMimes : public QWindowsMime { public: QBuiltInMimes(); // for converting from Qt bool canConvertFromMime(const FORMATETC &formatetc, const QMimeData *mimeData) const; bool convertFromMime(const FORMATETC &formatetc, const QMimeData *mimeData, STGMEDIUM * pmedium) const; QVector formatsForMime(const QString &mimeType, const QMimeData *mimeData) const; // for converting to Qt bool canConvertToMime(const QString &mimeType, IDataObject *pDataObj) const; QVariant convertToMime(const QString &mime, IDataObject *pDataObj, QVariant::Type preferredType) const; QString mimeForFormat(const FORMATETC &formatetc) const; private: QMap outFormats; QMap inFormats; }; QBuiltInMimes::QBuiltInMimes() : QWindowsMime() { outFormats.insert(QWindowsMime::registerMimeType(QLatin1String("application/x-color")), QLatin1String("application/x-color")); inFormats.insert(QWindowsMime::registerMimeType(QLatin1String("application/x-color")), QLatin1String("application/x-color")); } bool QBuiltInMimes::canConvertFromMime(const FORMATETC &formatetc, const QMimeData *mimeData) const { // really check return formatetc.tymed & TYMED_HGLOBAL && outFormats.contains(formatetc.cfFormat) && mimeData->formats().contains(outFormats.value(formatetc.cfFormat)); } bool QBuiltInMimes::convertFromMime(const FORMATETC &formatetc, const QMimeData *mimeData, STGMEDIUM * pmedium) const { if (canConvertFromMime(formatetc, mimeData)) { QByteArray data; if (outFormats.value(getCf(formatetc)) == QLatin1String("text/html")) { // text/html is in wide chars on windows (compatible with mozillia) QString html = mimeData->html(); // same code as in the text converter up above const QChar *u = html.unicode(); QString res; const int s = html.length(); int maxsize = s + s/40 + 3; res.resize(maxsize); int ri = 0; bool cr = false; for (int i=0; i < s; ++i) { if (*u == QLatin1Char('\r')) cr = true; else { if (*u == QLatin1Char('\n') && !cr) res[ri++] = QLatin1Char('\r'); cr = false; } res[ri++] = *u; if (ri+3 >= maxsize) { maxsize += maxsize/4; res.resize(maxsize); } ++u; } res.truncate(ri); const int byteLength = res.length()*2; QByteArray r(byteLength + 2, '\0'); memcpy(r.data(), res.unicode(), byteLength); r[byteLength] = 0; r[byteLength+1] = 0; data = r; } else { #ifndef QT_NO_DRAGANDDROP data = QInternalMimeData::renderDataHelper(outFormats.value(getCf(formatetc)), mimeData); #endif //QT_NO_DRAGANDDROP } return setData(data, pmedium); } return false; } QVector QBuiltInMimes::formatsForMime(const QString &mimeType, const QMimeData *mimeData) const { QVector formatetcs; if (!outFormats.keys(mimeType).isEmpty() && mimeData->formats().contains(mimeType)) formatetcs += setCf(outFormats.key(mimeType)); return formatetcs; } bool QBuiltInMimes::canConvertToMime(const QString &mimeType, IDataObject *pDataObj) const { return (!inFormats.keys(mimeType).isEmpty()) && canGetData(inFormats.key(mimeType), pDataObj); } QVariant QBuiltInMimes::convertToMime(const QString &mimeType, IDataObject *pDataObj, QVariant::Type preferredType) const { QVariant val; if (canConvertToMime(mimeType, pDataObj)) { QByteArray data = getData(inFormats.key(mimeType), pDataObj); if (!data.isEmpty()) { #ifdef QMIME_DEBUG qDebug("QBuiltInMimes::convertToMime()"); #endif if (mimeType == QLatin1String("text/html") && preferredType == QVariant::String) { // text/html is in wide chars on windows (compatible with mozillia) val = QString::fromUtf16((const unsigned short *)data.data()); } else { val = data; // it should be enough to return the data and let QMimeData do the rest. } } } return val; } QString QBuiltInMimes::mimeForFormat(const FORMATETC &formatetc) const { return inFormats.value(getCf(formatetc)); } class QLastResortMimes : public QWindowsMime { public: QLastResortMimes(); // for converting from Qt bool canConvertFromMime(const FORMATETC &formatetc, const QMimeData *mimeData) const; bool convertFromMime(const FORMATETC &formatetc, const QMimeData *mimeData, STGMEDIUM * pmedium) const; QVector formatsForMime(const QString &mimeType, const QMimeData *mimeData) const; // for converting to Qt bool canConvertToMime(const QString &mimeType, IDataObject *pDataObj) const; QVariant convertToMime(const QString &mime, IDataObject *pDataObj, QVariant::Type preferredType) const; QString mimeForFormat(const FORMATETC &formatetc) const; private: QMap formats; static QStringList ianaTypes; static QStringList excludeList; }; QStringList QLastResortMimes::ianaTypes; QStringList QLastResortMimes::excludeList; QLastResortMimes::QLastResortMimes() { //MIME Media-Types if (!ianaTypes.size()) { ianaTypes.append(QLatin1String("application/")); ianaTypes.append(QLatin1String("audio/")); ianaTypes.append(QLatin1String("example/")); ianaTypes.append(QLatin1String("image/")); ianaTypes.append(QLatin1String("message/")); ianaTypes.append(QLatin1String("model/")); ianaTypes.append(QLatin1String("multipart/")); ianaTypes.append(QLatin1String("text/")); ianaTypes.append(QLatin1String("video/")); } //Types handled by other classes if (!excludeList.size()) { excludeList.append(QLatin1String("HTML Format")); excludeList.append(QLatin1String("UniformResourceLocator")); excludeList.append(QLatin1String("text/html")); excludeList.append(QLatin1String("text/plain")); excludeList.append(QLatin1String("text/uri-list")); excludeList.append(QLatin1String("application/x-qt-image")); excludeList.append(QLatin1String("application/x-color")); } } bool QLastResortMimes::canConvertFromMime(const FORMATETC &formatetc, const QMimeData *mimeData) const { // really check #ifndef QT_NO_DRAGANDDROP return formatetc.tymed & TYMED_HGLOBAL && (formats.contains(formatetc.cfFormat) && QInternalMimeData::hasFormatHelper(formats.value(formatetc.cfFormat), mimeData)); #else Q_UNUSED(mimeData); Q_UNUSED(formatetc); return formatetc.tymed & TYMED_HGLOBAL && formats.contains(formatetc.cfFormat); #endif //QT_NO_DRAGANDDROP } bool QLastResortMimes::convertFromMime(const FORMATETC &formatetc, const QMimeData *mimeData, STGMEDIUM * pmedium) const { #ifndef QT_NO_DRAGANDDROP return canConvertFromMime(formatetc, mimeData) && setData(QInternalMimeData::renderDataHelper(formats.value(getCf(formatetc)), mimeData), pmedium); #else Q_UNUSED(mimeData); Q_UNUSED(formatetc); Q_UNUSED(pmedium); return false; #endif //QT_NO_DRAGANDDROP } QVector QLastResortMimes::formatsForMime(const QString &mimeType, const QMimeData * /*mimeData*/) const { QVector formatetcs; if (!formats.keys(mimeType).isEmpty()) { formatetcs += setCf(formats.key(mimeType)); } else if (!excludeList.contains(mimeType, Qt::CaseInsensitive)){ // register any other available formats int cf = QWindowsMime::registerMimeType(mimeType); QLastResortMimes *that = const_cast(this); that->formats.insert(cf, mimeType); formatetcs += setCf(cf); } return formatetcs; } static const char x_qt_windows_mime[] = "application/x-qt-windows-mime;value=\""; static bool isCustomMimeType(const QString &mimeType) { return mimeType.startsWith(QLatin1String(x_qt_windows_mime), Qt::CaseInsensitive); } static QString customMimeType(const QString &mimeType) { int len = sizeof(x_qt_windows_mime) - 1; int n = mimeType.lastIndexOf(QLatin1Char('\"'))-len; return mimeType.mid(len, n); } bool QLastResortMimes::canConvertToMime(const QString &mimeType, IDataObject *pDataObj) const { if (isCustomMimeType(mimeType)) { QString clipFormat = customMimeType(mimeType); #ifdef Q_OS_WINCE int cf = RegisterClipboardFormat(reinterpret_cast (clipFormat.utf16())); #else int cf = RegisterClipboardFormatA(clipFormat.toLocal8Bit()); #endif return canGetData(cf, pDataObj); } else if (formats.keys(mimeType).isEmpty()) { // if it is not in there then register it an see if we can get it int cf = QWindowsMime::registerMimeType(mimeType); return canGetData(cf, pDataObj); } else { return canGetData(formats.key(mimeType), pDataObj); } return false; } QVariant QLastResortMimes::convertToMime(const QString &mimeType, IDataObject *pDataObj, QVariant::Type preferredType) const { Q_UNUSED(preferredType); QVariant val; if (canConvertToMime(mimeType, pDataObj)) { QByteArray data; if (isCustomMimeType(mimeType)) { QString clipFormat = customMimeType(mimeType); #ifdef Q_OS_WINCE int cf = RegisterClipboardFormat(reinterpret_cast (clipFormat.utf16())); #else int cf = RegisterClipboardFormatA(clipFormat.toLocal8Bit()); #endif data = getData(cf, pDataObj); } else if (formats.keys(mimeType).isEmpty()) { int cf = QWindowsMime::registerMimeType(mimeType); data = getData(cf, pDataObj); } else { data = getData(formats.key(mimeType), pDataObj); } if (!data.isEmpty()) val = data; // it should be enough to return the data and let QMimeData do the rest. } return val; } QString QLastResortMimes::mimeForFormat(const FORMATETC &formatetc) const { QString format = formats.value(getCf(formatetc)); if (format.isEmpty()) { QByteArray ba; QString clipFormat; int len; QT_WA({ ba.resize(256*2); len = GetClipboardFormatNameW(getCf(formatetc), (TCHAR*)ba.data(), 255); if (len) clipFormat = QString::fromUtf16((ushort *)ba.data(), len); } , { ba.resize(256); len = GetClipboardFormatNameA(getCf(formatetc), ba.data(), 255); if (len) clipFormat = QString::fromLocal8Bit(ba.data(), len); }); if (len) { #ifndef QT_NO_DRAGANDDROP if (QInternalMimeData::canReadData(clipFormat)) format = clipFormat; else if((formatetc.cfFormat >= 0xC000)){ //create the mime as custom. not registered. if (!excludeList.contains(clipFormat, Qt::CaseInsensitive)) { //check if this is a mime type bool ianaType = false; int sz = ianaTypes.size(); for (int i = 0; i < sz; i++) { if (clipFormat.startsWith(ianaTypes[i], Qt::CaseInsensitive)) { ianaType = true; break; } } if (!ianaType) format = QLatin1String(x_qt_windows_mime) + clipFormat + QLatin1Char('\"'); else format = clipFormat; } } #endif //QT_NO_DRAGANDDROP } } return format; } QWindowsMimeList::QWindowsMimeList() : initialized(false) { } QWindowsMimeList::~QWindowsMimeList() { while (mimes.size()) delete mimes.first(); } void QWindowsMimeList::init() { if (!initialized) { initialized = true; #ifndef QT_NO_IMAGEFORMAT_BMP new QWindowsMimeImage; #endif new QLastResortMimes; new QWindowsMimeText; new QWindowsMimeURI; new QWindowsMimeHtml; new QBuiltInMimes; } } void QWindowsMimeList::addWindowsMime(QWindowsMime * mime) { init(); mimes.append(mime); } void QWindowsMimeList::removeWindowsMime(QWindowsMime * mime) { init(); mimes.removeAll(mime); } QList QWindowsMimeList::windowsMimes() { init(); return mimes; } #ifndef QT_NO_IMAGEFORMAT_BMP static bool qt_write_dibv5(QDataStream &s, QImage image) { QIODevice* d = s.device(); if (!d->isWritable()) return false; //depth will be always 32 int bpl_bmp = image.width()*4; BMP_BITMAPV5HEADER bi ={0}; bi.bV5Size = sizeof(BMP_BITMAPV5HEADER); bi.bV5Width = image.width(); bi.bV5Height = image.height(); bi.bV5Planes = 1; bi.bV5BitCount = 32; bi.bV5Compression = BI_BITFIELDS; bi.bV5SizeImage = bpl_bmp*image.height(); bi.bV5XPelsPerMeter = 0; bi.bV5YPelsPerMeter = 0; bi.bV5ClrUsed = 0; bi.bV5ClrImportant = 0; bi.bV5BlueMask = 0x000000ff; bi.bV5GreenMask = 0x0000ff00; bi.bV5RedMask = 0x00ff0000; bi.bV5AlphaMask = 0xff000000; bi.bV5CSType = BMP_LCS_sRGB; //LCS_sRGB bi.bV5Intent = BMP_LCS_GM_IMAGES; //LCS_GM_IMAGES d->write(reinterpret_cast(&bi), bi.bV5Size); if (s.status() != QDataStream::Ok) return false; DWORD colorSpace[3] = {0x00ff0000,0x0000ff00,0x000000ff}; d->write(reinterpret_cast(colorSpace), sizeof(colorSpace)); if (s.status() != QDataStream::Ok) return false; if (image.format() != QImage::Format_ARGB32) image = image.convertToFormat(QImage::Format_ARGB32); uchar *buf = new uchar[bpl_bmp]; uchar *b; memset(buf, 0, bpl_bmp); for (int y=image.height()-1; y>=0; y--) { // write the image bits QRgb *p = (QRgb *)image.scanLine(y); QRgb *end = p + image.width(); b = buf; while (p < end) { int alpha = qAlpha(*p); if (alpha) { *b++ = qBlue(*p); *b++ = qGreen(*p); *b++ = qRed(*p); } else { //white for fully transparent pixels. *b++ = 0xff; *b++ = 0xff; *b++ = 0xff; } *b++ = alpha; p++; } d->write((char*)buf, bpl_bmp); if (s.status() != QDataStream::Ok) { delete[] buf; return false; } } delete[] buf; return true; } static int calc_shift(int mask) { int result = 0; while (!(mask & 1)) { result++; mask >>= 1; } return result; } //Supports only 32 bit DIBV5 static bool qt_read_dibv5(QDataStream &s, QImage &image) { BMP_BITMAPV5HEADER bi; QIODevice* d = s.device(); if (d->atEnd()) return false; d->read((char *)&bi, sizeof(bi)); // read BITMAPV5HEADER header if (s.status() != QDataStream::Ok) return false; int nbits = bi.bV5BitCount; int comp = bi.bV5Compression; if (nbits != 32 || bi.bV5Planes != 1 || comp != BMP_BITFIELDS) return false; //Unsupported DIBV5 format int w = bi.bV5Width, h = bi.bV5Height; int red_mask = bi.bV5RedMask; int green_mask = bi.bV5GreenMask; int blue_mask = bi.bV5BlueMask; int alpha_mask = bi.bV5AlphaMask; int red_shift = 0; int green_shift = 0; int blue_shift = 0; int alpha_shift = 0; QImage::Format format = QImage::Format_ARGB32; if (bi.bV5Height < 0) h = -h; // support images with negative height if (image.size() != QSize(w, h) || image.format() != format) { image = QImage(w, h, format); if (image.isNull()) // could not create image return false; } image.setDotsPerMeterX(bi.bV5XPelsPerMeter); image.setDotsPerMeterY(bi.bV5YPelsPerMeter); // read color table DWORD colorSpace[3]; if (d->read((char *)colorSpace, sizeof(colorSpace)) != sizeof(colorSpace)) return false; red_shift = calc_shift(red_mask); green_shift = calc_shift(green_mask); blue_shift = calc_shift(blue_mask); if (alpha_mask) { alpha_shift = calc_shift(alpha_mask); } int bpl = image.bytesPerLine(); uchar *data = image.bits(); register QRgb *p; QRgb *end; uchar *buf24 = new uchar[bpl]; int bpl24 = ((w*nbits+31)/32)*4; uchar *b; unsigned int c; while (--h >= 0) { p = (QRgb *)(data + h*bpl); end = p + w; if (d->read((char *)buf24,bpl24) != bpl24) break; b = buf24; while (p < end) { c = *b | (*(b+1))<<8 | (*(b+2))<<16 | (*(b+3))<<24; *p++ = qRgba(((c & red_mask) >> red_shift) , ((c & green_mask) >> green_shift), ((c & blue_mask) >> blue_shift), ((c & alpha_mask) >> alpha_shift)); b += 4; } } delete[] buf24; if (bi.bV5Height < 0) { // Flip the image uchar *buf = new uchar[bpl]; h = -bi.bV5Height; for (int y = 0; y < h/2; ++y) { memcpy(buf, data + y*bpl, bpl); memcpy(data + y*bpl, data + (h-y-1)*bpl, bpl); memcpy(data + (h-y-1)*bpl, buf, bpl); } delete [] buf; } return true; } #endif QT_END_NAMESPACE