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author | Lars Knoll <lars.knoll@nokia.com> | 2009-03-23 09:18:55 (GMT) |
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committer | Simon Hausmann <simon.hausmann@nokia.com> | 2009-03-23 09:18:55 (GMT) |
commit | e5fcad302d86d316390c6b0f62759a067313e8a9 (patch) | |
tree | c2afbf6f1066b6ce261f14341cf6d310e5595bc1 /src/gui/kernel/qmime_win.cpp | |
download | Qt-e5fcad302d86d316390c6b0f62759a067313e8a9.zip Qt-e5fcad302d86d316390c6b0f62759a067313e8a9.tar.gz Qt-e5fcad302d86d316390c6b0f62759a067313e8a9.tar.bz2 |
Long live Qt 4.5!
Diffstat (limited to 'src/gui/kernel/qmime_win.cpp')
-rw-r--r-- | src/gui/kernel/qmime_win.cpp | 1594 |
1 files changed, 1594 insertions, 0 deletions
diff --git a/src/gui/kernel/qmime_win.cpp b/src/gui/kernel/qmime_win.cpp new file mode 100644 index 0000000..cd0aae6 --- /dev/null +++ b/src/gui/kernel/qmime_win.cpp @@ -0,0 +1,1594 @@ +/**************************************************************************** +** +** 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 <shlobj.h> +#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<QWindowsMime*> windowsMimes(); + +private: + void init(); + bool initialized; + QList<QWindowsMime*> 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<const wchar_t *> (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<FORMATETC> 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<QWindowsMime*> 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<QWindowsMime*> 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<FORMATETC> QWindowsMime::allFormatsForMime(const QMimeData *mimeData) +{ + QList<QWindowsMime*> mimes = theMimeList()->windowsMimes(); + QVector<FORMATETC> formatics; + formatics.reserve(20); +#ifndef QT_NO_DRAGANDDROP + QStringList formats = QInternalMimeData::formatsHelper(mimeData); + for (int f=0; f<formats.size(); ++f) { + for (int i=mimes.size()-1; i>=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<QWindowsMime*> 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<FORMATETC> 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<s; i++) { + char c = d[i]; + if (c=='\r') + cr=true; + else { + if (c=='\n') { + if (!cr) + o[j++]='\r'; + } + cr=false; + } + o[j++]=c; + if (j+3 >= 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<FORMATETC> QWindowsMimeText::formatsForMime(const QString &mimeType, const QMimeData *mimeData) const +{ + QVector<FORMATETC> 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<s; i++) { + char c = d[i]; + if (c!='\r') + o[j++]=c; + } + o[j]=0; + str = QString::fromLocal8Bit(r); + } + } + if (preferredType == QVariant::String) + ret = str; + else + ret = str.toUtf8(); + } + + return ret; +} + +class QWindowsMimeURI : public QWindowsMime +{ +public: + QWindowsMimeURI(); + 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<FORMATETC> 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<QUrl> urls = mimeData->urls(); + for (int i=0; i<urls.size(); i++) { + if (!urls.at(i).toLocalFile().isEmpty()) + return true; + } + } + return (getCf(formatetc) == CF_INETURL_W || getCf(formatetc) == CF_INETURL) && mimeData->hasFormat(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<QUrl> urls = mimeData->urls(); + QStringList fileNames; + int size = sizeof(DROPFILES)+2; + for (int i=0; i<urls.size(); i++) { + QString fn = QDir::toNativeSeparators(urls.at(i).toLocalFile()); + if (!fn.isEmpty()) { + QT_WA({ + size += sizeof(TCHAR)*(fn.length()+1); + } , { + size += fn.toLocal8Bit().length()+1; + }); + fileNames.append(fn); + } + } + + QByteArray result(size, '\0'); + DROPFILES* d = (DROPFILES*)result.data(); + d->pFiles = 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; i<fileNames.size(); i++) { + int l = fileNames.at(i).length(); + memcpy(f, fileNames.at(i).utf16(), l*sizeof(TCHAR)); + f += l; + *f++ = 0; + } + *f = 0; + } , { + d->fWide = false; + char* f = files; + for (int i=0; i<fileNames.size(); i++) { + QByteArray c = fileNames.at(i).toLocal8Bit(); + if (!c.isEmpty()) { + int l = c.length(); + memcpy(f, c.constData(), l); + f += l; + *f++ = 0; + } + } + *f = 0; + }); + return setData(result, pmedium); + } else if (getCf(formatetc) == CF_INETURL_W) { + QList<QUrl> 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<QUrl> 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<FORMATETC> QWindowsMimeURI::formatsForMime(const QString &mimeType, const QMimeData *mimeData) const +{ + QVector<FORMATETC> 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<QVariant> 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<FORMATETC> 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<FORMATETC> QWindowsMimeHtml::formatsForMime(const QString &mimeType, const QMimeData *mimeData) const +{ + QVector<FORMATETC> 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 <meta> 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 = "<!--StartFragment-->" + html.mid(start, end - start); + html += "<!--EndFragment-->"; + 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("<!--StartFragment-->") == -1) + result += "<!--StartFragment-->"; + result += data; + if (data.indexOf("<!--EndFragment-->") == -1) + result += "<!--EndFragment-->"; + + // 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("<!--StartFragment-->") + 20).toLatin1(); + memcpy((char *)(result.data() + 79 - pos.length()), pos.constData(), pos.length()); + pos = QString::number(result.indexOf("<!--EndFragment-->")).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<FORMATETC> 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<const wchar_t *> (QString::fromLatin1("PNG").utf16())); +#else + CF_PNG = RegisterClipboardFormatA("PNG"); +#endif +} + +QVector<FORMATETC> QWindowsMimeImage::formatsForMime(const QString &mimeType, const QMimeData *mimeData) const +{ + QVector<FORMATETC> formatetcs; + if (mimeData->hasImage() && mimeType == QLatin1String("application/x-qt-image")) { + //add DIBV5 if image has alpha channel + QImage image = qvariant_cast<QImage>(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<QImage>(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<QImage>(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<FORMATETC> 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<int, QString> outFormats; + QMap<int, QString> 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<FORMATETC> QBuiltInMimes::formatsForMime(const QString &mimeType, const QMimeData *mimeData) const +{ + QVector<FORMATETC> 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<FORMATETC> 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<int, QString> 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<FORMATETC> QLastResortMimes::formatsForMime(const QString &mimeType, const QMimeData * /*mimeData*/) const +{ + QVector<FORMATETC> 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<QLastResortMimes *>(this); + that->formats.insert(cf, mimeType); + formatetcs += setCf(cf); + } + return formatetcs; +} +static const char *x_qt_windows_mime = "application/x-qt-windows-mime;value=\""; + +bool isCustomMimeType(const QString &mimeType) +{ + return mimeType.startsWith(QLatin1String(x_qt_windows_mime), Qt::CaseInsensitive); +} + +QString customMimeType(const QString &mimeType) +{ + int len = QString(QLatin1String(x_qt_windows_mime)).length(); + 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<const wchar_t *> (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<const wchar_t *> (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<QWindowsMime*> 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<const char*>(&bi), bi.bV5Size); + if (s.status() != QDataStream::Ok) + return false; + + DWORD colorSpace[3] = {0x00ff0000,0x0000ff00,0x000000ff}; + d->write(reinterpret_cast<const char*>(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 |