/**************************************************************************** ** ** Copyright (C) 2010 Nokia Corporation and/or its subsidiary(-ies). ** All rights reserved. ** Contact: Nokia Corporation (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 Technology Preview License Agreement accompanying ** this package. ** ** 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 1.1, included in the file LGPL_EXCEPTION.txt in this package. ** ** If you have questions regarding the use of this file, please contact ** Nokia at qt-info@nokia.com. ** ** ** ** ** ** ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "qtextobject.h" #include "qtextobject_p.h" #include "qtextdocument.h" #include "qtextformat_p.h" #include "qtextdocument_p.h" #include "qtextcursor.h" #include "qtextlist.h" #include "qabstracttextdocumentlayout.h" #include "qtextengine_p.h" #include "qdebug.h" QT_BEGIN_NAMESPACE // ### DOC: We ought to explain the CONCEPT of objectIndexes if // relevant to the public API /*! \class QTextObject \reentrant \brief The QTextObject class is a base class for different kinds of objects that can group parts of a QTextDocument together. \ingroup richtext-processing The common grouping text objects are lists (QTextList), frames (QTextFrame), and tables (QTextTable). A text object has an associated format() and document(). There are essentially two kinds of text objects: those that are used with blocks (block formats), and those that are used with characters (character formats). The first kind are derived from QTextBlockGroup, and the second kind from QTextFrame. You rarely need to use this class directly. When creating custom text objects, you will also need to reimplement QTextDocument::createObject() which acts as a factory method for creating text objects. \sa QTextDocument, {Text Object Example} */ /*! \fn QTextObject::QTextObject(QTextDocument *document) Creates a new QTextObject for the given \a document. \warning This function should never be called directly, but only from QTextDocument::createObject(). */ QTextObject::QTextObject(QTextDocument *doc) : QObject(*new QTextObjectPrivate(doc), doc) { } /*! \fn QTextObject::QTextObject(QTextObjectPrivate &p, QTextDocument *document) \internal */ QTextObject::QTextObject(QTextObjectPrivate &p, QTextDocument *doc) : QObject(p, doc) { } /*! Destroys the text object. \warning Text objects are owned by the document, so you should never destroy them yourself. */ QTextObject::~QTextObject() { } /*! Returns the text object's format. \sa setFormat() document() */ QTextFormat QTextObject::format() const { Q_D(const QTextObject); return d->pieceTable->formatCollection()->objectFormat(d->objectIndex); } /*! Returns the index of the object's format in the document's internal list of formats. \sa QTextDocument::allFormats() */ int QTextObject::formatIndex() const { Q_D(const QTextObject); return d->pieceTable->formatCollection()->objectFormatIndex(d->objectIndex); } /*! Sets the text object's \a format. \sa format() */ void QTextObject::setFormat(const QTextFormat &format) { Q_D(QTextObject); int idx = d->pieceTable->formatCollection()->indexForFormat(format); d->pieceTable->changeObjectFormat(this, idx); } /*! Returns the object index of this object. This can be used together with QTextFormat::setObjectIndex(). */ int QTextObject::objectIndex() const { Q_D(const QTextObject); return d->objectIndex; } /*! Returns the document this object belongs to. \sa format() */ QTextDocument *QTextObject::document() const { return static_cast(parent()); } /*! \internal */ QTextDocumentPrivate *QTextObject::docHandle() const { return static_cast(parent())->docHandle(); } /*! \class QTextBlockGroup \reentrant \brief The QTextBlockGroup class provides a container for text blocks within a QTextDocument. \ingroup richtext-processing Block groups can be used to organize blocks of text within a document. They maintain an up-to-date list of the text blocks that belong to them, even when text blocks are being edited. Each group has a parent document which is specified when the group is constructed. Text blocks can be inserted into a group with blockInserted(), and removed with blockRemoved(). If a block's format is changed, blockFormatChanged() is called. The list of blocks in the group is returned by blockList(). Note that the blocks in the list are not necessarily adjacent elements in the document; for example, the top-level items in a multi-level list will be separated by the items in lower levels of the list. \sa QTextBlock QTextDocument */ void QTextBlockGroupPrivate::markBlocksDirty() { for (int i = 0; i < blocks.count(); ++i) { const QTextBlock &block = blocks.at(i); pieceTable->documentChange(block.position(), block.length()); } } /*! \fn QTextBlockGroup::QTextBlockGroup(QTextDocument *document) Creates a new new block group for the given \a document. \warning This function should only be called from QTextDocument::createObject(). */ QTextBlockGroup::QTextBlockGroup(QTextDocument *doc) : QTextObject(*new QTextBlockGroupPrivate(doc), doc) { } /*! \internal */ QTextBlockGroup::QTextBlockGroup(QTextBlockGroupPrivate &p, QTextDocument *doc) : QTextObject(p, doc) { } /*! Destroys this block group; the blocks are not deleted, they simply don't belong to this block anymore. */ QTextBlockGroup::~QTextBlockGroup() { } // ### DOC: Shouldn't this be insertBlock()? /*! Appends the given \a block to the end of the group. \warning If you reimplement this function you must call the base class implementation. */ void QTextBlockGroup::blockInserted(const QTextBlock &block) { Q_D(QTextBlockGroup); QTextBlockGroupPrivate::BlockList::Iterator it = qLowerBound(d->blocks.begin(), d->blocks.end(), block); d->blocks.insert(it, block); d->markBlocksDirty(); } // ### DOC: Shouldn't this be removeBlock()? /*! Removes the given \a block from the group; the block itself is not deleted, it simply isn't a member of this group anymore. */ void QTextBlockGroup::blockRemoved(const QTextBlock &block) { Q_D(QTextBlockGroup); d->blocks.removeAll(block); d->markBlocksDirty(); if (d->blocks.isEmpty()) { document()->docHandle()->deleteObject(this); return; } } /*! This function is called whenever the specified \a block of text is changed. The text block is a member of this group. The base class implementation does nothing. */ void QTextBlockGroup::blockFormatChanged(const QTextBlock &) { } /*! Returns a (possibly empty) list of all the blocks that are part of the block group. */ QList QTextBlockGroup::blockList() const { Q_D(const QTextBlockGroup); return d->blocks; } QTextFrameLayoutData::~QTextFrameLayoutData() { } /*! \class QTextFrame \reentrant \brief The QTextFrame class represents a frame in a QTextDocument. \ingroup richtext-processing Text frames provide structure for the text in a document. They are used as generic containers for other document elements. Frames are usually created by using QTextCursor::insertFrame(). \omit Each frame in a document consists of a frame start character, QChar(0xFDD0), followed by the frame's contents, followed by a frame end character, QChar(0xFDD1). The character formats of the start and end character contain a reference to the frame object's objectIndex. \endomit Frames can be used to create hierarchical structures in rich text documents. Each document has a root frame (QTextDocument::rootFrame()), and each frame beneath the root frame has a parent frame and a (possibly empty) list of child frames. The parent frame can be found with parentFrame(), and the childFrames() function provides a list of child frames. Each frame contains at least one text block to enable text cursors to insert new document elements within. As a result, the QTextFrame::iterator class is used to traverse both the blocks and child frames within a given frame. The first and last child elements in the frame can be found with begin() and end(). A frame also has a format (specified using QTextFrameFormat) which can be set with setFormat() and read with format(). Text cursors can be obtained that point to the first and last valid cursor positions within a frame; use the firstCursorPosition() and lastCursorPosition() functions for this. The frame's extent in the document can be found with firstPosition() and lastPosition(). You can iterate over a frame's contents using the QTextFrame::iterator class: this provides read-only access to its internal list of text blocks and child frames. \sa QTextCursor QTextDocument */ /*! \typedef QTextFrame::Iterator Qt-style synonym for QTextFrame::iterator. */ /*! \fn QTextFrame *QTextFrame::iterator::parentFrame() const Returns the parent frame of the current frame. \sa currentFrame() QTextFrame::parentFrame() */ /*! \fn bool QTextFrame::iterator::operator==(const iterator &other) const Retuns true if the iterator is the same as the \a other iterator; otherwise returns false. */ /*! \fn bool QTextFrame::iterator::operator!=(const iterator &other) const Retuns true if the iterator is different from the \a other iterator; otherwise returns false. */ /*! \fn QTextFrame::iterator QTextFrame::iterator::operator++(int) The postfix ++ operator (\c{i++}) advances the iterator to the next item in the text frame, and returns an iterator to the old item. */ /*! \fn QTextFrame::iterator QTextFrame::iterator::operator--(int) The postfix -- operator (\c{i--}) makes the preceding item in the current frame, and returns an iterator to the old item. */ /*! \fn void QTextFrame::setFrameFormat(const QTextFrameFormat &format) Sets the frame's \a format. \sa frameFormat() */ /*! \fn QTextFrameFormat QTextFrame::frameFormat() const Returns the frame's format. \sa setFrameFormat() */ /*! \fn QTextFrame::QTextFrame(QTextDocument *document) Creates a new empty frame for the text \a document. */ QTextFrame::QTextFrame(QTextDocument *doc) : QTextObject(*new QTextFramePrivate(doc), doc) { } // ### DOC: What does this do to child frames? /*! Destroys the frame, and removes it from the document's layout. */ QTextFrame::~QTextFrame() { Q_D(QTextFrame); delete d->layoutData; } /*! \internal */ QTextFrame::QTextFrame(QTextFramePrivate &p, QTextDocument *doc) : QTextObject(p, doc) { } /*! Returns a (possibly empty) list of the frame's child frames. \sa parentFrame() */ QList QTextFrame::childFrames() const { Q_D(const QTextFrame); return d->childFrames; } /*! Returns the frame's parent frame. If the frame is the root frame of a document, this will return 0. \sa childFrames() QTextDocument::rootFrame() */ QTextFrame *QTextFrame::parentFrame() const { Q_D(const QTextFrame); return d->parentFrame; } /*! Returns the first cursor position inside the frame. \sa lastCursorPosition() firstPosition() lastPosition() */ QTextCursor QTextFrame::firstCursorPosition() const { Q_D(const QTextFrame); return QTextCursor(d->pieceTable, firstPosition()); } /*! Returns the last cursor position inside the frame. \sa firstCursorPosition() firstPosition() lastPosition() */ QTextCursor QTextFrame::lastCursorPosition() const { Q_D(const QTextFrame); return QTextCursor(d->pieceTable, lastPosition()); } /*! Returns the first document position inside the frame. \sa lastPosition() firstCursorPosition() lastCursorPosition() */ int QTextFrame::firstPosition() const { Q_D(const QTextFrame); if (!d->fragment_start) return 0; return d->pieceTable->fragmentMap().position(d->fragment_start) + 1; } /*! Returns the last document position inside the frame. \sa firstPosition() firstCursorPosition() lastCursorPosition() */ int QTextFrame::lastPosition() const { Q_D(const QTextFrame); if (!d->fragment_end) return d->pieceTable->length() - 1; return d->pieceTable->fragmentMap().position(d->fragment_end); } /*! \internal */ QTextFrameLayoutData *QTextFrame::layoutData() const { Q_D(const QTextFrame); return d->layoutData; } /*! \internal */ void QTextFrame::setLayoutData(QTextFrameLayoutData *data) { Q_D(QTextFrame); delete d->layoutData; d->layoutData = data; } void QTextFramePrivate::fragmentAdded(const QChar &type, uint fragment) { if (type == QTextBeginningOfFrame) { Q_ASSERT(!fragment_start); fragment_start = fragment; } else if (type == QTextEndOfFrame) { Q_ASSERT(!fragment_end); fragment_end = fragment; } else if (type == QChar::ObjectReplacementCharacter) { Q_ASSERT(!fragment_start); Q_ASSERT(!fragment_end); fragment_start = fragment; fragment_end = fragment; } else { Q_ASSERT(false); } } void QTextFramePrivate::fragmentRemoved(const QChar &type, uint fragment) { Q_UNUSED(fragment); // --release warning if (type == QTextBeginningOfFrame) { Q_ASSERT(fragment_start == fragment); fragment_start = 0; } else if (type == QTextEndOfFrame) { Q_ASSERT(fragment_end == fragment); fragment_end = 0; } else if (type == QChar::ObjectReplacementCharacter) { Q_ASSERT(fragment_start == fragment); Q_ASSERT(fragment_end == fragment); fragment_start = 0; fragment_end = 0; } else { Q_ASSERT(false); } remove_me(); } void QTextFramePrivate::remove_me() { Q_Q(QTextFrame); if (fragment_start == 0 && fragment_end == 0 && !parentFrame) { q->document()->docHandle()->deleteObject(q); return; } if (!parentFrame) return; int index = parentFrame->d_func()->childFrames.indexOf(q); // iterator over all children and move them to the parent for (int i = 0; i < childFrames.size(); ++i) { QTextFrame *c = childFrames.at(i); parentFrame->d_func()->childFrames.insert(index, c); c->d_func()->parentFrame = parentFrame; ++index; } Q_ASSERT(parentFrame->d_func()->childFrames.at(index) == q); parentFrame->d_func()->childFrames.removeAt(index); childFrames.clear(); parentFrame = 0; } /*! \class QTextFrame::iterator \reentrant \brief The iterator class provides an iterator for reading the contents of a QTextFrame. \ingroup richtext-processing A frame consists of an arbitrary sequence of \l{QTextBlock}s and child \l{QTextFrame}s. This class provides a way to iterate over the child objects of a frame, and read their contents. It does not provide a way to modify the contents of the frame. */ /*! \fn bool QTextFrame::iterator::atEnd() const Returns true if the current item is the last item in the text frame. */ /*! Returns an iterator pointing to the first document element inside the frame. \sa end() */ QTextFrame::iterator QTextFrame::begin() const { const QTextDocumentPrivate *priv = docHandle(); int b = priv->blockMap().findNode(firstPosition()); int e = priv->blockMap().findNode(lastPosition()+1); return iterator(const_cast(this), b, b, e); } /*! Returns an iterator pointing to the last document element inside the frame. \sa begin() */ QTextFrame::iterator QTextFrame::end() const { const QTextDocumentPrivate *priv = docHandle(); int b = priv->blockMap().findNode(firstPosition()); int e = priv->blockMap().findNode(lastPosition()+1); return iterator(const_cast(this), e, b, e); } /*! Constructs an invalid iterator. */ QTextFrame::iterator::iterator() { f = 0; b = 0; e = 0; cf = 0; cb = 0; } /*! \internal */ QTextFrame::iterator::iterator(QTextFrame *frame, int block, int begin, int end) { f = frame; b = begin; e = end; cf = 0; cb = block; } /*! Copy constructor. Constructs a copy of the \a other iterator. */ QTextFrame::iterator::iterator(const iterator &other) { f = other.f; b = other.b; e = other.e; cf = other.cf; cb = other.cb; } /*! Assigns \a other to this iterator and returns a reference to this iterator. */ QTextFrame::iterator &QTextFrame::iterator::operator=(const iterator &other) { f = other.f; b = other.b; e = other.e; cf = other.cf; cb = other.cb; return *this; } /*! Returns the current frame pointed to by the iterator, or 0 if the iterator currently points to a block. \sa currentBlock() */ QTextFrame *QTextFrame::iterator::currentFrame() const { return cf; } /*! Returns the current block the iterator points to. If the iterator points to a child frame, the returned block is invalid. \sa currentFrame() */ QTextBlock QTextFrame::iterator::currentBlock() const { if (!f) return QTextBlock(); return QTextBlock(f->docHandle(), cb); } /*! Moves the iterator to the next frame or block. \sa currentBlock() currentFrame() */ QTextFrame::iterator &QTextFrame::iterator::operator++() { const QTextDocumentPrivate *priv = f->docHandle(); const QTextDocumentPrivate::BlockMap &map = priv->blockMap(); if (cf) { int end = cf->lastPosition() + 1; cb = map.findNode(end); cf = 0; } else if (cb) { cb = map.next(cb); if (cb == e) return *this; if (!f->d_func()->childFrames.isEmpty()) { int pos = map.position(cb); // check if we entered a frame QTextDocumentPrivate::FragmentIterator frag = priv->find(pos-1); if (priv->buffer().at(frag->stringPosition) != QChar::ParagraphSeparator) { QTextFrame *nf = qobject_cast(priv->objectForFormat(frag->format)); if (nf) { if (priv->buffer().at(frag->stringPosition) == QTextBeginningOfFrame && nf != f) { cf = nf; cb = 0; } else { Q_ASSERT(priv->buffer().at(frag->stringPosition) != QTextEndOfFrame); } } } } } return *this; } /*! Moves the iterator to the previous frame or block. \sa currentBlock() currentFrame() */ QTextFrame::iterator &QTextFrame::iterator::operator--() { const QTextDocumentPrivate *priv = f->docHandle(); const QTextDocumentPrivate::BlockMap &map = priv->blockMap(); if (cf) { int start = cf->firstPosition() - 1; cb = map.findNode(start); cf = 0; } else { if (cb == b) goto end; if (cb != e) { int pos = map.position(cb); // check if we have to enter a frame QTextDocumentPrivate::FragmentIterator frag = priv->find(pos-1); if (priv->buffer().at(frag->stringPosition) != QChar::ParagraphSeparator) { QTextFrame *pf = qobject_cast(priv->objectForFormat(frag->format)); if (pf) { if (priv->buffer().at(frag->stringPosition) == QTextBeginningOfFrame) { Q_ASSERT(pf == f); } else if (priv->buffer().at(frag->stringPosition) == QTextEndOfFrame) { Q_ASSERT(pf != f); cf = pf; cb = 0; goto end; } } } } cb = map.previous(cb); } end: return *this; } /*! \class QTextBlockUserData \reentrant \brief The QTextBlockUserData class is used to associate custom data with blocks of text. \since 4.1 \ingroup richtext-processing QTextBlockUserData provides an abstract interface for container classes that are used to associate application-specific user data with text blocks in a QTextDocument. Generally, subclasses of this class provide functions to allow data to be stored and retrieved, and instances are attached to blocks of text using QTextBlock::setUserData(). This makes it possible to store additional data per text block in a way that can be retrieved safely by the application. Each subclass should provide a reimplementation of the destructor to ensure that any private data is automatically cleaned up when user data objects are deleted. \sa QTextBlock */ /*! Destroys the user data. */ QTextBlockUserData::~QTextBlockUserData() { } /*! \class QTextBlock \reentrant \brief The QTextBlock class provides a container for text fragments in a QTextDocument. \ingroup richtext-processing A text block encapsulates a block or paragraph of text in a QTextDocument. QTextBlock provides read-only access to the block/paragraph structure of QTextDocuments. It is mainly of use if you want to implement your own layouts for the visual representation of a QTextDocument, or if you want to iterate over a document and write out the contents in your own custom format. Text blocks are created by their parent documents. If you need to create a new text block, or modify the contents of a document while examining its contents, use the cursor-based interface provided by QTextCursor instead. Each text block is located at a specific position() in a document(). The contents of the block can be obtained by using the text() function. The length() function determines the block's size within the document (including formatting characters). The visual properties of the block are determined by its text layout(), its charFormat(), and its blockFormat(). The next() and previous() functions enable iteration over consecutive valid blocks in a document under the condition that the document is not modified by other means during the iteration process. Note that, although blocks are returned in sequence, adjacent blocks may come from different places in the document structure. The validity of a block can be determined by calling isValid(). QTextBlock provides comparison operators to make it easier to work with blocks: \l operator==() compares two block for equality, \l operator!=() compares two blocks for inequality, and \l operator<() determines whether a block precedes another in the same document. \img qtextblock-sequence.png \sa QTextBlockFormat QTextCharFormat QTextFragment */ /*! \fn QTextBlock::QTextBlock(QTextDocumentPrivate *priv, int b) \internal */ /*! \fn QTextBlock::QTextBlock() \internal */ /*! \fn QTextBlock::QTextBlock(const QTextBlock &other) Copies the \a other text block's attributes to this text block. */ /*! \fn bool QTextBlock::isValid() const Returns true if this text block is valid; otherwise returns false. */ /*! \fn QTextBlock &QTextBlock::operator=(const QTextBlock &other) Assigns the \a other text block to this text block. */ /*! \fn bool QTextBlock::operator==(const QTextBlock &other) const Returns true if this text block is the same as the \a other text block. */ /*! \fn bool QTextBlock::operator!=(const QTextBlock &other) const Returns true if this text block is different from the \a other text block. */ /*! \fn bool QTextBlock::operator<(const QTextBlock &other) const Returns true if this text block occurs before the \a other text block in the document. */ /*! \class QTextBlock::iterator \reentrant \brief The QTextBlock::iterator class provides an iterator for reading the contents of a QTextBlock. \ingroup richtext-processing A block consists of a sequence of text fragments. This class provides a way to iterate over these, and read their contents. It does not provide a way to modify the internal structure or contents of the block. An iterator can be constructed and used to access the fragments within a text block in the following way: \snippet doc/src/snippets/textblock-fragments/xmlwriter.cpp 4 \snippet doc/src/snippets/textblock-fragments/xmlwriter.cpp 7 \sa QTextFragment */ /*! \typedef QTextBlock::Iterator Qt-style synonym for QTextBlock::iterator. */ /*! \fn QTextBlock::iterator::iterator() Constructs an iterator for this text block. */ /*! \fn QTextBlock::iterator::iterator(const iterator &other) Copy constructor. Constructs a copy of the \a other iterator. */ /*! \fn bool QTextBlock::iterator::atEnd() const Returns true if the current item is the last item in the text block. */ /*! \fn bool QTextBlock::iterator::operator==(const iterator &other) const Retuns true if this iterator is the same as the \a other iterator; otherwise returns false. */ /*! \fn bool QTextBlock::iterator::operator!=(const iterator &other) const Retuns true if this iterator is different from the \a other iterator; otherwise returns false. */ /*! \fn QTextBlock::iterator QTextBlock::iterator::operator++(int) The postfix ++ operator (\c{i++}) advances the iterator to the next item in the text block and returns an iterator to the old current item. */ /*! \fn QTextBlock::iterator QTextBlock::iterator::operator--(int) The postfix -- operator (\c{i--}) makes the preceding item current and returns an iterator to the old current item. */ /*! \fn QTextDocumentPrivate *QTextBlock::docHandle() const \internal */ /*! \fn int QTextBlock::fragmentIndex() const \internal */ /*! Returns the index of the block's first character within the document. */ int QTextBlock::position() const { if (!p || !n) return 0; return p->blockMap().position(n); } /*! Returns the length of the block in characters. \note The length returned includes all formatting characters, for example, newline. \sa text() charFormat() blockFormat() */ int QTextBlock::length() const { if (!p || !n) return 0; return p->blockMap().size(n); } /*! Returns true if the given \a position is located within the text block; otherwise returns false. */ bool QTextBlock::contains(int position) const { if (!p || !n) return false; int pos = p->blockMap().position(n); int len = p->blockMap().size(n); return position >= pos && position < pos + len; } /*! Returns the QTextLayout that is used to lay out and display the block's contents. Note that the returned QTextLayout object can only be modified from the documentChanged implementation of a QAbstractTextDocumentLayout subclass. Any changes applied from the outside cause undefined behavior. \sa clearLayout() */ QTextLayout *QTextBlock::layout() const { if (!p || !n) return 0; const QTextBlockData *b = p->blockMap().fragment(n); if (!b->layout) b->layout = new QTextLayout(*this); return b->layout; } /*! \since 4.4 Clears the QTextLayout that is used to lay out and display the block's contents. \sa layout() */ void QTextBlock::clearLayout() { if (!p || !n) return; const QTextBlockData *b = p->blockMap().fragment(n); if (b->layout) b->layout->clearLayout(); } /*! Returns the QTextBlockFormat that describes block-specific properties. \sa charFormat() */ QTextBlockFormat QTextBlock::blockFormat() const { if (!p || !n) return QTextFormat().toBlockFormat(); return p->formatCollection()->blockFormat(p->blockMap().fragment(n)->format); } /*! Returns an index into the document's internal list of block formats for the text block's format. \sa QTextDocument::allFormats() */ int QTextBlock::blockFormatIndex() const { if (!p || !n) return -1; return p->blockMap().fragment(n)->format; } /*! Returns the QTextCharFormat that describes the block's character format. The block's character format is used when inserting text into an empty block. \sa blockFormat() */ QTextCharFormat QTextBlock::charFormat() const { if (!p || !n) return QTextFormat().toCharFormat(); return p->formatCollection()->charFormat(charFormatIndex()); } /*! Returns an index into the document's internal list of character formats for the text block's character format. \sa QTextDocument::allFormats() */ int QTextBlock::charFormatIndex() const { if (!p || !n) return -1; return p->blockCharFormatIndex(n); } /*! \since 4.7 Returns the resolved text direction. If the block has no explicit direction set, it will resolve the direction from the blocks content. Returns either Qt::LeftToRight or Qt::RightToLeft. \sa QTextFormat::layoutDirection(), QString::isRightToLeft(), Qt::LayoutDirection */ Qt::LayoutDirection QTextBlock::textDirection() const { Qt::LayoutDirection dir = blockFormat().layoutDirection(); if (dir != Qt::LayoutDirectionAuto) return dir; const QString buffer = p->buffer(); const int pos = position(); QTextDocumentPrivate::FragmentIterator it = p->find(pos); QTextDocumentPrivate::FragmentIterator end = p->find(pos + length() - 1); // -1 to omit the block separator char for (; it != end; ++it) { const QTextFragmentData * const frag = it.value(); const QChar *p = buffer.constData() + frag->stringPosition; const QChar * const end = p + frag->size_array[0]; while (p < end) { switch(QChar::direction(p->unicode())) { case QChar::DirL: return Qt::LeftToRight; case QChar::DirR: case QChar::DirAL: return Qt::RightToLeft; default: break; } ++p; } } return Qt::LeftToRight; } /*! Returns the block's contents as plain text. \sa length() charFormat() blockFormat() */ QString QTextBlock::text() const { if (!p || !n) return QString(); const QString buffer = p->buffer(); QString text; text.reserve(length()); const int pos = position(); QTextDocumentPrivate::FragmentIterator it = p->find(pos); QTextDocumentPrivate::FragmentIterator end = p->find(pos + length() - 1); // -1 to omit the block separator char for (; it != end; ++it) { const QTextFragmentData * const frag = it.value(); text += QString::fromRawData(buffer.constData() + frag->stringPosition, frag->size_array[0]); } return text; } /*! Returns the text document this text block belongs to, or 0 if the text block does not belong to any document. */ const QTextDocument *QTextBlock::document() const { return p ? p->document() : 0; } /*! If the block represents a list item, returns the list that the item belongs to; otherwise returns 0. */ QTextList *QTextBlock::textList() const { if (!isValid()) return 0; const QTextBlockFormat fmt = blockFormat(); QTextObject *obj = p->document()->objectForFormat(fmt); return qobject_cast(obj); } /*! \since 4.1 Returns a pointer to a QTextBlockUserData object if previously set with setUserData() or a null pointer. */ QTextBlockUserData *QTextBlock::userData() const { if (!p || !n) return 0; const QTextBlockData *b = p->blockMap().fragment(n); return b->userData; } /*! \since 4.1 Attaches the given \a data object to the text block. QTextBlockUserData can be used to store custom settings. The ownership is passed to the underlying text document, i.e. the provided QTextBlockUserData object will be deleted if the corresponding text block gets deleted. The user data object is not stored in the undo history, so it will not be available after undoing the deletion of a text block. For example, if you write a programming editor in an IDE, you may want to let your user set breakpoints visually in your code for an integrated debugger. In a programming editor a line of text usually corresponds to one QTextBlock. The QTextBlockUserData interface allows the developer to store data for each QTextBlock, like for example in which lines of the source code the user has a breakpoint set. Of course this could also be stored externally, but by storing it inside the QTextDocument, it will for example be automatically deleted when the user deletes the associated line. It's really just a way to store custom information in the QTextDocument without using custom properties in QTextFormat which would affect the undo/redo stack. */ void QTextBlock::setUserData(QTextBlockUserData *data) { if (!p || !n) return; const QTextBlockData *b = p->blockMap().fragment(n); if (data != b->userData) delete b->userData; b->userData = data; } /*! \since 4.1 Returns the integer value previously set with setUserState() or -1. */ int QTextBlock::userState() const { if (!p || !n) return -1; const QTextBlockData *b = p->blockMap().fragment(n); return b->userState; } /*! \since 4.1 Stores the specified \a state integer value in the text block. This may be useful for example in a syntax highlighter to store a text parsing state. */ void QTextBlock::setUserState(int state) { if (!p || !n) return; const QTextBlockData *b = p->blockMap().fragment(n); b->userState = state; } /*! \since 4.4 Returns the blocks revision. \sa setRevision(), QTextDocument::revision() */ int QTextBlock::revision() const { if (!p || !n) return -1; const QTextBlockData *b = p->blockMap().fragment(n); return b->revision; } /*! \since 4.4 Sets a blocks revision to \a rev. \sa revision(), QTextDocument::revision() */ void QTextBlock::setRevision(int rev) { if (!p || !n) return; const QTextBlockData *b = p->blockMap().fragment(n); b->revision = rev; } /*! \since 4.4 Returns true if the block is visible; otherwise returns false. \sa setVisible() */ bool QTextBlock::isVisible() const { if (!p || !n) return true; const QTextBlockData *b = p->blockMap().fragment(n); return !b->hidden; } /*! \since 4.4 Sets the block's visibility to \a visible. \sa isVisible() */ void QTextBlock::setVisible(bool visible) { if (!p || !n) return; const QTextBlockData *b = p->blockMap().fragment(n); b->hidden = !visible; } /*! \since 4.4 Returns the number of this block, or -1 if the block is invalid. \sa QTextCursor::blockNumber() */ int QTextBlock::blockNumber() const { if (!p || !n) return -1; return p->blockMap().position(n, 1); } /*! \since 4.5 Returns the first line number of this block, or -1 if the block is invalid. Unless the layout supports it, the line number is identical to the block number. \sa QTextBlock::blockNumber() */ int QTextBlock::firstLineNumber() const { if (!p || !n) return -1; return p->blockMap().position(n, 2); } /*! \since 4.5 Sets the line count to \a count. \sa lineCount() */ void QTextBlock::setLineCount(int count) { if (!p || !n) return; p->blockMap().setSize(n, count, 2); } /*! \since 4.5 Returns the line count. Not all document layouts support this feature. \sa setLineCount() */ int QTextBlock::lineCount() const { if (!p || !n) return -1; return p->blockMap().size(n, 2); } /*! Returns a text block iterator pointing to the beginning of the text block. \sa end() */ QTextBlock::iterator QTextBlock::begin() const { if (!p || !n) return iterator(); int pos = position(); int len = length() - 1; // exclude the fragment that holds the paragraph separator int b = p->fragmentMap().findNode(pos); int e = p->fragmentMap().findNode(pos+len); return iterator(p, b, e, b); } /*! Returns a text block iterator pointing to the end of the text block. \sa begin() next() previous() */ QTextBlock::iterator QTextBlock::end() const { if (!p || !n) return iterator(); int pos = position(); int len = length() - 1; // exclude the fragment that holds the paragraph separator int b = p->fragmentMap().findNode(pos); int e = p->fragmentMap().findNode(pos+len); return iterator(p, b, e, e); } /*! Returns the text block in the document after this block, or an empty text block if this is the last one. Note that the next block may be in a different frame or table to this block. \sa previous() begin() end() */ QTextBlock QTextBlock::next() const { if (!p) return QTextBlock(); return QTextBlock(p, p->blockMap().next(n)); } /*! Returns the text block in the document before this block, or an empty text block if this is the first one. Note that the next block may be in a different frame or table to this block. \sa next() begin() end() */ QTextBlock QTextBlock::previous() const { if (!p) return QTextBlock(); return QTextBlock(p, p->blockMap().previous(n)); } /*! Returns the text fragment the iterator currently points to. */ QTextFragment QTextBlock::iterator::fragment() const { int ne = n; int formatIndex = p->fragmentMap().fragment(n)->format; do { ne = p->fragmentMap().next(ne); } while (ne != e && p->fragmentMap().fragment(ne)->format == formatIndex); return QTextFragment(p, n, ne); } /*! The prefix ++ operator (\c{++i}) advances the iterator to the next item in the hash and returns an iterator to the new current item. */ QTextBlock::iterator &QTextBlock::iterator::operator++() { int ne = n; int formatIndex = p->fragmentMap().fragment(n)->format; do { ne = p->fragmentMap().next(ne); } while (ne != e && p->fragmentMap().fragment(ne)->format == formatIndex); n = ne; return *this; } /*! The prefix -- operator (\c{--i}) makes the preceding item current and returns an iterator pointing to the new current item. */ QTextBlock::iterator &QTextBlock::iterator::operator--() { n = p->fragmentMap().previous(n); if (n == b) return *this; int formatIndex = p->fragmentMap().fragment(n)->format; int last = n; while (n != b && p->fragmentMap().fragment(n)->format != formatIndex) { last = n; n = p->fragmentMap().previous(n); } n = last; return *this; } /*! \class QTextFragment \reentrant \brief The QTextFragment class holds a piece of text in a QTextDocument with a single QTextCharFormat. \ingroup richtext-processing A text fragment describes a piece of text that is stored with a single character format. Text in which the character format changes can be represented by sequences of text fragments with different formats. If the user edits the text in a fragment and introduces a different character format, the fragment's text will be split at each point where the format changes, and new fragments will be created. For example, changing the style of some text in the middle of a sentence will cause the fragment to be broken into three separate fragments: the first and third with the same format as before, and the second with the new style. The first fragment will contain the text from the beginning of the sentence, the second will contain the text from the middle, and the third takes the text from the end of the sentence. \img qtextfragment-split.png A fragment's text and character format can be obtained with the text() and charFormat() functions. The length() function gives the length of the text in the fragment. position() gives the position in the document of the start of the fragment. To determine whether the fragment contains a particular position within the document, use the contains() function. \sa QTextDocument, {Rich Text Document Structure} */ /*! \fn QTextFragment::QTextFragment(const QTextDocumentPrivate *priv, int f, int fe) \internal */ /*! \fn QTextFragment::QTextFragment() Creates a new empty text fragment. */ /*! \fn QTextFragment::QTextFragment(const QTextFragment &other) Copies the content (text and format) of the \a other text fragment to this text fragment. */ /*! \fn QTextFragment &QTextFragment::operator=(const QTextFragment &other) Assigns the content (text and format) of the \a other text fragment to this text fragment. */ /*! \fn bool QTextFragment::isValid() const Returns true if this is a valid text fragment (i.e. has a valid position in a document); otherwise returns false. */ /*! \fn bool QTextFragment::operator==(const QTextFragment &other) const Returns true if this text fragment is the same (at the same position) as the \a other text fragment; otherwise returns false. */ /*! \fn bool QTextFragment::operator!=(const QTextFragment &other) const Returns true if this text fragment is different (at a different position) from the \a other text fragment; otherwise returns false. */ /*! \fn bool QTextFragment::operator<(const QTextFragment &other) const Returns true if this text fragment appears earlier in the document than the \a other text fragment; otherwise returns false. */ /*! Returns the glyphs of this text fragment. The positions of the glyphs are relative to the position of the QTextBlock's layout. \sa QGlyphs, QTextBlock::layout(), QTextLayout::position(), QPainter::drawGlyphs() */ QList QTextFragment::glyphs() const { if (!p || !n) return QList(); int pos = position(); int len = length(); if (len == 0) return QList(); int blockNode = p->blockMap().findNode(pos); const QTextBlockData *blockData = p->blockMap().fragment(blockNode); QTextLayout *layout = blockData->layout; QList ret; for (int i=0; ilineCount(); ++i) { QTextLine textLine = layout->lineAt(i); ret += textLine.glyphs(pos, len); } return ret; } /*! Returns the position of this text fragment in the document. */ int QTextFragment::position() const { if (!p || !n) return 0; // ### -1 instead? return p->fragmentMap().position(n); } /*! Returns the number of characters in the text fragment. \sa text() */ int QTextFragment::length() const { if (!p || !n) return 0; int len = 0; int f = n; while (f != ne) { len += p->fragmentMap().size(f); f = p->fragmentMap().next(f); } return len; } /*! Returns true if the text fragment contains the text at the given \a position in the document; otherwise returns false. */ bool QTextFragment::contains(int position) const { if (!p || !n) return false; int pos = this->position(); return position >= pos && position < pos + length(); } /*! Returns the text fragment's character format. \sa text() */ QTextCharFormat QTextFragment::charFormat() const { if (!p || !n) return QTextCharFormat(); const QTextFragmentData *data = p->fragmentMap().fragment(n); return p->formatCollection()->charFormat(data->format); } /*! Returns an index into the document's internal list of character formats for the text fragment's character format. \sa QTextDocument::allFormats() */ int QTextFragment::charFormatIndex() const { if (!p || !n) return -1; const QTextFragmentData *data = p->fragmentMap().fragment(n); return data->format; } /*! Returns the text fragment's as plain text. \sa length(), charFormat() */ QString QTextFragment::text() const { if (!p || !n) return QString(); QString result; QString buffer = p->buffer(); int f = n; while (f != ne) { const QTextFragmentData * const frag = p->fragmentMap().fragment(f); result += QString(buffer.constData() + frag->stringPosition, frag->size_array[0]); f = p->fragmentMap().next(f); } return result; } QT_END_NAMESPACE