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#include "qtextdocument.h"
#include
#include "qtextdocumentlayout_p.h"
#include "qtextdocumentfragment.h"
#include "qtextdocumentfragment_p.h"
#include "qtexttable.h"
#include "qtextlist.h"
#include
#include
#include
#include
#include
#include "qtexthtmlparser_p.h"
#include "qpainter.h"
#include "qprinter.h"
#include "qtextedit.h"
#include
#include
#include
#include
#include "qtextcontrol_p.h"
#include "private/qtextedit_p.h"
#include "qtextdocument_p.h"
#include
#include
QT_BEGIN_NAMESPACE
Q_CORE_EXPORT unsigned int qt_int_sqrt(unsigned int n);
/*!
Returns true if the string \a text is likely to be rich text;
otherwise returns false.
This function uses a fast and therefore simple heuristic. It
mainly checks whether there is something that looks like a tag
before the first line break. Although the result may be correct
for common cases, there is no guarantee.
This function is defined in the \c header file.
*/
bool Qt::mightBeRichText(const QString& text)
{
if (text.isEmpty())
return false;
int start = 0;
while (start < text.length() && text.at(start).isSpace())
++start;
// skip a leading as for example with xhtml
if (text.mid(start, 5) == QLatin1String("')) {
start += 2;
break;
}
++start;
}
while (start < text.length() && text.at(start).isSpace())
++start;
}
if (text.mid(start, 5).toLower() == QLatin1String("
++open;
}
if (open < text.length() && text.at(open) == QLatin1Char('<')) {
const int close = text.indexOf(QLatin1Char('>'), open);
if (close > -1) {
QString tag;
for (int i = open+1; i < close; ++i) {
if (text[i].isDigit() || text[i].isLetter())
tag += text[i];
else if (!tag.isEmpty() && text[i].isSpace())
break;
else if (!text[i].isSpace() && (!tag.isEmpty() || text[i] != QLatin1Char('!')))
return false; // that's not a tag
}
#ifndef QT_NO_TEXTHTMLPARSER
return QTextHtmlParser::lookupElement(tag.toLower()) != -1;
#else
return false;
#endif // QT_NO_TEXTHTMLPARSER
}
}
return false;
}
/*!
Converts the plain text string \a plain to a HTML string with
HTML metacharacters \c{<}, \c{>}, \c{&}, and \c{"} replaced by HTML
entities.
Example:
\snippet doc/src/snippets/code/src_gui_text_qtextdocument.cpp 0
This function is defined in the \c header file.
\sa convertFromPlainText(), mightBeRichText()
*/
QString Qt::escape(const QString& plain)
{
QString rich;
rich.reserve(int(plain.length() * 1.1));
for (int i = 0; i < plain.length(); ++i) {
if (plain.at(i) == QLatin1Char('<'))
rich += QLatin1String("<");
else if (plain.at(i) == QLatin1Char('>'))
rich += QLatin1String(">");
else if (plain.at(i) == QLatin1Char('&'))
rich += QLatin1String("&");
else if (plain.at(i) == QLatin1Char('"'))
rich += QLatin1String(""");
else
rich += plain.at(i);
}
return rich;
}
/*!
\fn QString Qt::convertFromPlainText(const QString &plain, WhiteSpaceMode mode)
Converts the plain text string \a plain to an HTML-formatted
paragraph while preserving most of its look.
\a mode defines how whitespace is handled.
This function is defined in the \c header file.
\sa escape(), mightBeRichText()
*/
QString Qt::convertFromPlainText(const QString &plain, Qt::WhiteSpaceMode mode)
{
int col = 0;
QString rich;
rich += QLatin1String("");
for (int i = 0; i < plain.length(); ++i) {
if (plain[i] == QLatin1Char('\n')){
int c = 1;
while (i+1 < plain.length() && plain[i+1] == QLatin1Char('\n')) {
i++;
c++;
}
if (c == 1)
rich += QLatin1String("
\n");
else {
rich += QLatin1String("
\n");
while (--c > 1)
rich += QLatin1String("
\n");
rich += QLatin1String("");
}
col = 0;
} else {
if (mode == Qt::WhiteSpacePre && plain[i] == QLatin1Char('\t')){
rich += QChar(0x00a0U);
++col;
while (col % 8) {
rich += QChar(0x00a0U);
++col;
}
}
else if (mode == Qt::WhiteSpacePre && plain[i].isSpace())
rich += QChar(0x00a0U);
else if (plain[i] == QLatin1Char('<'))
rich += QLatin1String("<");
else if (plain[i] == QLatin1Char('>'))
rich += QLatin1String(">");
else if (plain[i] == QLatin1Char('&'))
rich += QLatin1String("&");
else
rich += plain[i];
++col;
}
}
if (col != 0)
rich += QLatin1String("
");
return rich;
}
#ifndef QT_NO_TEXTCODEC
/*!
\internal
This function is defined in the \c header file.
*/
QTextCodec *Qt::codecForHtml(const QByteArray &ba)
{
return QTextCodec::codecForHtml(ba);
}
#endif
/*!
\class QTextDocument
\reentrant
\brief The QTextDocument class holds formatted text that can be
viewed and edited using a QTextEdit.
\ingroup richtext-processing
QTextDocument is a container for structured rich text documents, providing
support for styled text and various types of document elements, such as
lists, tables, frames, and images.
They can be created for use in a QTextEdit, or used independently.
Each document element is described by an associated format object. Each
format object is treated as a unique object by QTextDocuments, and can be
passed to objectForFormat() to obtain the document element that it is
applied to.
A QTextDocument can be edited programmatically using a QTextCursor, and
its contents can be examined by traversing the document structure. The
entire document structure is stored as a hierarchy of document elements
beneath the root frame, found with the rootFrame() function. Alternatively,
if you just want to iterate over the textual contents of the document you
can use begin(), end(), and findBlock() to retrieve text blocks that you
can examine and iterate over.
The layout of a document is determined by the documentLayout();
you can create your own QAbstractTextDocumentLayout subclass and
set it using setDocumentLayout() if you want to use your own
layout logic. The document's title and other meta-information can be
obtained by calling the metaInformation() function. For documents that
are exposed to users through the QTextEdit class, the document title
is also available via the QTextEdit::documentTitle() function.
The toPlainText() and toHtml() convenience functions allow you to retrieve the
contents of the document as plain text and HTML.
The document's text can be searched using the find() functions.
Undo/redo of operations performed on the document can be controlled using
the setUndoRedoEnabled() function. The undo/redo system can be controlled
by an editor widget through the undo() and redo() slots; the document also
provides contentsChanged(), undoAvailable(), and redoAvailable() signals
that inform connected editor widgets about the state of the undo/redo
system.
\sa QTextCursor, QTextEdit, \link richtext.html Rich Text Processing\endlink , {Text Object Example}
*/
/*!
\property QTextDocument::defaultFont
\brief the default font used to display the document's text
*/
/*!
\property QTextDocument::defaultTextOption
\brief the default text option will be set on all \l{QTextLayout}s in the document.
When \l{QTextBlock}s are created, the defaultTextOption is set on their
QTextLayout. This allows setting global properties for the document such as the
default word wrap mode.
*/
/*!
Constructs an empty QTextDocument with the given \a parent.
*/
QTextDocument::QTextDocument(QObject *parent)
: QObject(*new QTextDocumentPrivate, parent)
{
Q_D(QTextDocument);
d->init();
}
/*!
Constructs a QTextDocument containing the plain (unformatted) \a text
specified, and with the given \a parent.
*/
QTextDocument::QTextDocument(const QString &text, QObject *parent)
: QObject(*new QTextDocumentPrivate, parent)
{
Q_D(QTextDocument);
d->init();
QTextCursor(this).insertText(text);
}
/*!
\internal
*/
QTextDocument::QTextDocument(QTextDocumentPrivate &dd, QObject *parent)
: QObject(dd, parent)
{
Q_D(QTextDocument);
d->init();
}
/*!
Destroys the document.
*/
QTextDocument::~QTextDocument()
{
}
/*!
Creates a new QTextDocument that is a copy of this text document. \a
parent is the parent of the returned text document.
*/
QTextDocument *QTextDocument::clone(QObject *parent) const
{
Q_D(const QTextDocument);
QTextDocument *doc = new QTextDocument(parent);
QTextCursor(doc).insertFragment(QTextDocumentFragment(this));
doc->rootFrame()->setFrameFormat(rootFrame()->frameFormat());
QTextDocumentPrivate *priv = doc->d_func();
priv->title = d->title;
priv->url = d->url;
priv->pageSize = d->pageSize;
priv->indentWidth = d->indentWidth;
priv->defaultTextOption = d->defaultTextOption;
priv->setDefaultFont(d->defaultFont());
priv->resources = d->resources;
priv->cachedResources.clear();
#ifndef QT_NO_CSSPARSER
priv->defaultStyleSheet = d->defaultStyleSheet;
priv->parsedDefaultStyleSheet = d->parsedDefaultStyleSheet;
#endif
return doc;
}
/*!
Returns true if the document is empty; otherwise returns false.
*/
bool QTextDocument::isEmpty() const
{
Q_D(const QTextDocument);
/* because if we're empty we still have one single paragraph as
* one single fragment */
return d->length() <= 1;
}
/*!
Clears the document.
*/
void QTextDocument::clear()
{
Q_D(QTextDocument);
d->clear();
d->resources.clear();
}
/*!
\since 4.2
Undoes the last editing operation on the document if undo is
available. The provided \a cursor is positioned at the end of the
location where the edition operation was undone.
See the \l {Overview of Qt's Undo Framework}{Qt Undo Framework}
documentation for details.
\sa undoAvailable(), isUndoRedoEnabled()
*/
void QTextDocument::undo(QTextCursor *cursor)
{
Q_D(QTextDocument);
const int pos = d->undoRedo(true);
if (cursor && pos >= 0) {
*cursor = QTextCursor(this);
cursor->setPosition(pos);
}
}
/*!
\since 4.2
Redoes the last editing operation on the document if \link
QTextDocument::isRedoAvailable() redo is available\endlink.
The provided \a cursor is positioned at the end of the location where
the edition operation was redone.
*/
void QTextDocument::redo(QTextCursor *cursor)
{
Q_D(QTextDocument);
const int pos = d->undoRedo(false);
if (cursor && pos >= 0) {
*cursor = QTextCursor(this);
cursor->setPosition(pos);
}
}
/*!
\overload
*/
void QTextDocument::undo()
{
Q_D(QTextDocument);
d->undoRedo(true);
}
/*!
\overload
Redoes the last editing operation on the document if \link
QTextDocument::isRedoAvailable() redo is available\endlink.
*/
void QTextDocument::redo()
{
Q_D(QTextDocument);
d->undoRedo(false);
}
/*!
\internal
Appends a custom undo \a item to the undo stack.
*/
void QTextDocument::appendUndoItem(QAbstractUndoItem *item)
{
Q_D(QTextDocument);
d->appendUndoItem(item);
}
/*!
\property QTextDocument::undoRedoEnabled
\brief whether undo/redo are enabled for this document
This defaults to true. If disabled, the undo stack is cleared and
no items will be added to it.
*/
void QTextDocument::setUndoRedoEnabled(bool enable)
{
Q_D(QTextDocument);
d->enableUndoRedo(enable);
}
bool QTextDocument::isUndoRedoEnabled() const
{
Q_D(const QTextDocument);
return d->isUndoRedoEnabled();
}
/*!
\property QTextDocument::maximumBlockCount
\since 4.2
\brief Specifies the limit for blocks in the document.
Specifies the maximum number of blocks the document may have. If there are
more blocks in the document that specified with this property blocks are removed
from the beginning of the document.
A negative or zero value specifies that the document may contain an unlimited
amount of blocks.
The default value is 0.
Note that setting this property will apply the limit immediately to the document
contents.
Setting this property also disables the undo redo history.
This property is undefined in documents with tables or frames.
*/
int QTextDocument::maximumBlockCount() const
{
Q_D(const QTextDocument);
return d->maximumBlockCount;
}
void QTextDocument::setMaximumBlockCount(int maximum)
{
Q_D(QTextDocument);
d->maximumBlockCount = maximum;
d->ensureMaximumBlockCount();
setUndoRedoEnabled(false);
}
/*!
\since 4.3
The default text option is used on all QTextLayout objects in the document.
This allows setting global properties for the document such as the default
word wrap mode.
*/
QTextOption QTextDocument::defaultTextOption() const
{
Q_D(const QTextDocument);
return d->defaultTextOption;
}
/*!
\since 4.3
Sets the default text option.
*/
void QTextDocument::setDefaultTextOption(const QTextOption &option)
{
Q_D(QTextDocument);
d->defaultTextOption = option;
if (d->lout)
d->lout->documentChanged(0, 0, d->length());
}
/*!
\fn void QTextDocument::markContentsDirty(int position, int length)
Marks the contents specified by the given \a position and \a length
as "dirty", informing the document that it needs to be laid out
again.
*/
void QTextDocument::markContentsDirty(int from, int length)
{
Q_D(QTextDocument);
if (!d->inContentsChange)
d->beginEditBlock();
d->documentChange(from, length);
if (!d->inContentsChange)
d->endEditBlock();
}
/*!
\property QTextDocument::useDesignMetrics
\since 4.1
\brief whether the document uses design metrics of fonts to improve the accuracy of text layout
If this property is set to true, the layout will use design metrics.
Otherwise, the metrics of the paint device as set on
QAbstractTextDocumentLayout::setPaintDevice() will be used.
Using design metrics makes a layout have a width that is no longer dependent on hinting
and pixel-rounding. This means that WYSIWYG text layout becomes possible because the width
scales much more linearly based on paintdevice metrics than it would otherwise.
By default, this property is false.
*/
void QTextDocument::setUseDesignMetrics(bool b)
{
Q_D(QTextDocument);
if (b == d->defaultTextOption.useDesignMetrics())
return;
d->defaultTextOption.setUseDesignMetrics(b);
if (d->lout)
d->lout->documentChanged(0, 0, d->length());
}
bool QTextDocument::useDesignMetrics() const
{
Q_D(const QTextDocument);
return d->defaultTextOption.useDesignMetrics();
}
/*!
\since 4.2
Draws the content of the document with painter \a p, clipped to \a rect.
If \a rect is a null rectangle (default) then the document is painted unclipped.
*/
void QTextDocument::drawContents(QPainter *p, const QRectF &rect)
{
p->save();
QAbstractTextDocumentLayout::PaintContext ctx;
if (rect.isValid()) {
p->setClipRect(rect);
ctx.clip = rect;
}
documentLayout()->draw(p, ctx);
p->restore();
}
/*!
\property QTextDocument::textWidth
\since 4.2
The text width specifies the preferred width for text in the document. If
the text (or content in general) is wider than the specified with it is broken
into multiple lines and grows vertically. If the text cannot be broken into multiple
lines to fit into the specified text width it will be larger and the size() and the
idealWidth() property will reflect that.
If the text width is set to -1 then the text will not be broken into multiple lines
unless it is enforced through an explicit line break or a new paragraph.
The default value is -1.
Setting the text width will also set the page height to -1, causing the document to
grow or shrink vertically in a continuous way. If you want the document layout to break
the text into multiple pages then you have to set the pageSize property instead.
\sa size(), idealWidth(), pageSize()
*/
void QTextDocument::setTextWidth(qreal width)
{
Q_D(QTextDocument);
QSizeF sz = d->pageSize;
sz.setWidth(width);
sz.setHeight(-1);
setPageSize(sz);
}
qreal QTextDocument::textWidth() const
{
Q_D(const QTextDocument);
return d->pageSize.width();
}
/*!
\since 4.2
Returns the ideal width of the text document. The ideal width is the actually used width
of the document without optional alignments taken into account. It is always <= size().width().
\sa adjustSize(), textWidth
*/
qreal QTextDocument::idealWidth() const
{
if (QTextDocumentLayout *lout = qobject_cast(documentLayout()))
return lout->idealWidth();
return textWidth();
}
/*!
\property QTextDocument::documentMargin
\since 4.5
The margin around the document. The default is 4.
*/
qreal QTextDocument::documentMargin() const
{
Q_D(const QTextDocument);
return d->documentMargin;
}
void QTextDocument::setDocumentMargin(qreal margin)
{
Q_D(QTextDocument);
if (d->documentMargin != margin) {
d->documentMargin = margin;
QTextFrame* root = rootFrame();
QTextFrameFormat format = root->frameFormat();
format.setMargin(margin);
root->setFrameFormat(format);
if (d->lout)
d->lout->documentChanged(0, 0, d->length());
}
}
/*!
\property QTextDocument::indentWidth
\since 4.4
Returns the width used for text list and text block indenting.
The indent properties of QTextListFormat and QTextBlockFormat specify
multiples of this value. The default indent width is 40.
*/
qreal QTextDocument::indentWidth() const
{
Q_D(const QTextDocument);
return d->indentWidth;
}
/*!
\since 4.4
Sets the \a width used for text list and text block indenting.
The indent properties of QTextListFormat and QTextBlockFormat specify
multiples of this value. The default indent width is 40 .
\sa indentWidth()
*/
void QTextDocument::setIndentWidth(qreal width)
{
Q_D(QTextDocument);
if (d->indentWidth != width) {
d->indentWidth = width;
if (d->lout)
d->lout->documentChanged(0, 0, d->length());
}
}
/*!
\since 4.2
Adjusts the document to a reasonable size.
\sa idealWidth(), textWidth, size
*/
void QTextDocument::adjustSize()
{
// Pull this private function in from qglobal.cpp
QFont f = defaultFont();
QFontMetrics fm(f);
int mw = fm.width(QLatin1Char('x')) * 80;
int w = mw;
setTextWidth(w);
QSizeF size = documentLayout()->documentSize();
if (size.width() != 0) {
w = qt_int_sqrt((uint)(5 * size.height() * size.width() / 3));
setTextWidth(qMin(w, mw));
size = documentLayout()->documentSize();
if (w*3 < 5*size.height()) {
w = qt_int_sqrt((uint)(2 * size.height() * size.width()));
setTextWidth(qMin(w, mw));
}
}
setTextWidth(idealWidth());
}
/*!
\property QTextDocument::size
\since 4.2
Returns the actual size of the document.
This is equivalent to documentLayout()->documentSize();
The size of the document can be changed either by setting
a text width or setting an entire page size.
Note that the width is always >= pageSize().width().
By default, for a newly-created, empty document, this property contains
a configuration-dependent size.
\sa setTextWidth(), setPageSize(), idealWidth()
*/
QSizeF QTextDocument::size() const
{
return documentLayout()->documentSize();
}
/*!
\property QTextDocument::blockCount
\since 4.2
Returns the number of text blocks in the document.
The value of this property is undefined in documents with tables or frames.
By default, if defined, this property contains a value of 1.
\sa lineCount(), characterCount()
*/
int QTextDocument::blockCount() const
{
Q_D(const QTextDocument);
return d->blockMap().numNodes();
}
/*!
\since 4.5
Returns the number of lines of this document (if the layout supports
this). Otherwise, this is identical to the number of blocks.
\sa blockCount(), characterCount()
*/
int QTextDocument::lineCount() const
{
Q_D(const QTextDocument);
return d->blockMap().length(2);
}
/*!
\since 4.5
Returns the number of characters of this document.
\sa blockCount(), characterAt()
*/
int QTextDocument::characterCount() const
{
Q_D(const QTextDocument);
return d->length();
}
/*!
\since 4.5
Returns the character at position \a pos, or a null character if the
position is out of range.
\sa characterCount()
*/
QChar QTextDocument::characterAt(int pos) const
{
Q_D(const QTextDocument);
if (pos < 0 || pos >= d->length())
return QChar();
QTextDocumentPrivate::FragmentIterator fragIt = d->find(pos);
const QTextFragmentData * const frag = fragIt.value();
const int offsetInFragment = qMax(0, pos - fragIt.position());
return d->text.at(frag->stringPosition + offsetInFragment);
}
/*!
\property QTextDocument::defaultStyleSheet
\since 4.2
The default style sheet is applied to all newly HTML formatted text that is
inserted into the document, for example using setHtml() or QTextCursor::insertHtml().
The style sheet needs to be compliant to CSS 2.1 syntax.
\bold{Note:} Changing the default style sheet does not have any effect to the existing content
of the document.
\sa {Supported HTML Subset}
*/
#ifndef QT_NO_CSSPARSER
void QTextDocument::setDefaultStyleSheet(const QString &sheet)
{
Q_D(QTextDocument);
d->defaultStyleSheet = sheet;
QCss::Parser parser(sheet);
d->parsedDefaultStyleSheet = QCss::StyleSheet();
d->parsedDefaultStyleSheet.origin = QCss::StyleSheetOrigin_UserAgent;
parser.parse(&d->parsedDefaultStyleSheet);
}
QString QTextDocument::defaultStyleSheet() const
{
Q_D(const QTextDocument);
return d->defaultStyleSheet;
}
#endif // QT_NO_CSSPARSER
/*!
\fn void QTextDocument::contentsChanged()
This signal is emitted whenever the document's content changes; for
example, when text is inserted or deleted, or when formatting is applied.
\sa contentsChange()
*/
/*!
\fn void QTextDocument::contentsChange(int position, int charsRemoved, int charsAdded)
This signal is emitted whenever the document's content changes; for
example, when text is inserted or deleted, or when formatting is applied.
Information is provided about the \a position of the character in the
document where the change occurred, the number of characters removed
(\a charsRemoved), and the number of characters added (\a charsAdded).
The signal is emitted before the document's layout manager is notified
about the change. This hook allows you to implement syntax highlighting
for the document.
\sa QAbstractTextDocumentLayout::documentChanged(), contentsChanged()
*/
/*!
\fn QTextDocument::undoAvailable(bool available);
This signal is emitted whenever undo operations become available
(\a available is true) or unavailable (\a available is false).
See the \l {Overview of Qt's Undo Framework}{Qt Undo Framework}
documentation for details.
\sa undo(), isUndoRedoEnabled()
*/
/*!
\fn QTextDocument::redoAvailable(bool available);
This signal is emitted whenever redo operations become available
(\a available is true) or unavailable (\a available is false).
*/
/*!
\fn QTextDocument::cursorPositionChanged(const QTextCursor &cursor);
This signal is emitted whenever the position of a cursor changed
due to an editing operation. The cursor that changed is passed in
\a cursor. If you need a signal when the cursor is moved with the
arrow keys you can use the \l{QTextEdit::}{cursorPositionChanged()} signal in
QTextEdit.
*/
/*!
\fn QTextDocument::blockCountChanged(int newBlockCount);
\since 4.3
This signal is emitted when the total number of text blocks in the
document changes. The value passed in \a newBlockCount is the new
total.
*/
/*!
\fn QTextDocument::documentLayoutChanged();
\since 4.4
This signal is emitted when a new document layout is set.
\sa setDocumentLayout()
*/
/*!
Returns true if undo is available; otherwise returns false.
\sa isRedoAvailable(), availableUndoSteps()
*/
bool QTextDocument::isUndoAvailable() const
{
Q_D(const QTextDocument);
return d->isUndoAvailable();
}
/*!
Returns true if redo is available; otherwise returns false.
\sa isUndoAvailable(), availableRedoSteps()
*/
bool QTextDocument::isRedoAvailable() const
{
Q_D(const QTextDocument);
return d->isRedoAvailable();
}
/*! \since 4.6
Returns the number of available undo steps.
\sa isUndoAvailable()
*/
int QTextDocument::availableUndoSteps() const
{
Q_D(const QTextDocument);
return d->availableUndoSteps();
}
/*! \since 4.6
Returns the number of available redo steps.
\sa isRedoAvailable()
*/
int QTextDocument::availableRedoSteps() const
{
Q_D(const QTextDocument);
return d->availableRedoSteps();
}
/*! \since 4.4
Returns the document's revision (if undo is enabled).
The revision is guaranteed to increase when a document that is not
modified is edited.
\sa QTextBlock::revision(), isModified()
*/
int QTextDocument::revision() const
{
Q_D(const QTextDocument);
return d->revision;
}
/*!
Sets the document to use the given \a layout. The previous layout
is deleted.
\sa documentLayoutChanged()
*/
void QTextDocument::setDocumentLayout(QAbstractTextDocumentLayout *layout)
{
Q_D(QTextDocument);
d->setLayout(layout);
}
/*!
Returns the document layout for this document.
*/
QAbstractTextDocumentLayout *QTextDocument::documentLayout() const
{
Q_D(const QTextDocument);
if (!d->lout) {
QTextDocument *that = const_cast(this);
that->d_func()->setLayout(new QTextDocumentLayout(that));
}
return d->lout;
}
/*!
Returns meta information about the document of the type specified by
\a info.
\sa setMetaInformation()
*/
QString QTextDocument::metaInformation(MetaInformation info) const
{
Q_D(const QTextDocument);
switch (info) {
case DocumentTitle:
return d->title;
case DocumentUrl:
return d->url;
}
return QString();
}
/*!
Sets the document's meta information of the type specified by \a info
to the given \a string.
\sa metaInformation()
*/
void QTextDocument::setMetaInformation(MetaInformation info, const QString &string)
{
Q_D(QTextDocument);
switch (info) {
case DocumentTitle:
d->title = string;
break;
case DocumentUrl:
d->url = string;
break;
}
}
/*!
Returns the plain text contained in the document. If you want
formatting information use a QTextCursor instead.
\sa toHtml()
*/
QString QTextDocument::toPlainText() const
{
Q_D(const QTextDocument);
QString txt = d->plainText();
QChar *uc = txt.data();
QChar *e = uc + txt.size();
for (; uc != e; ++uc) {
switch (uc->unicode()) {
case 0xfdd0: // QTextBeginningOfFrame
case 0xfdd1: // QTextEndOfFrame
case QChar::ParagraphSeparator:
case QChar::LineSeparator:
*uc = QLatin1Char('\n');
break;
case QChar::Nbsp:
*uc = QLatin1Char(' ');
break;
default:
;
}
}
return txt;
}
/*!
Replaces the entire contents of the document with the given plain
\a text.
\sa setHtml()
*/
void QTextDocument::setPlainText(const QString &text)
{
Q_D(QTextDocument);
bool previousState = d->isUndoRedoEnabled();
d->enableUndoRedo(false);
d->beginEditBlock();
d->clear();
QTextCursor(this).insertText(text);
d->endEditBlock();
d->enableUndoRedo(previousState);
}
/*!
Replaces the entire contents of the document with the given
HTML-formatted text in the \a html string.
The HTML formatting is respected as much as possible; for example,
"bold text" will produce text where the first word has a font
weight that gives it a bold appearance: "\bold{bold} text".
\note It is the responsibility of the caller to make sure that the
text is correctly decoded when a QString containing HTML is created
and passed to setHtml().
\sa setPlainText(), {Supported HTML Subset}
*/
#ifndef QT_NO_TEXTHTMLPARSER
void QTextDocument::setHtml(const QString &html)
{
Q_D(QTextDocument);
bool previousState = d->isUndoRedoEnabled();
d->enableUndoRedo(false);
d->beginEditBlock();
d->clear();
QTextHtmlImporter(this, html, QTextHtmlImporter::ImportToDocument).import();
d->endEditBlock();
d->enableUndoRedo(previousState);
}
#endif // QT_NO_TEXTHTMLPARSER
/*!
\enum QTextDocument::FindFlag
This enum describes the options available to QTextDocument's find function. The options
can be OR-ed together from the following list:
\value FindBackward Search backwards instead of forwards.
\value FindCaseSensitively By default find works case insensitive. Specifying this option
changes the behaviour to a case sensitive find operation.
\value FindWholeWords Makes find match only complete words.
*/
/*!
\enum QTextDocument::MetaInformation
This enum describes the different types of meta information that can be
added to a document.
\value DocumentTitle The title of the document.
\value DocumentUrl The url of the document. The loadResource() function uses
this url as the base when loading relative resources.
\sa metaInformation(), setMetaInformation()
*/
/*!
\fn QTextCursor QTextDocument::find(const QString &subString, int position, FindFlags options) const
\overload
Finds the next occurrence of the string, \a subString, in the document.
The search starts at the given \a position, and proceeds forwards
through the document unless specified otherwise in the search options.
The \a options control the type of search performed.
Returns a cursor with the match selected if \a subString
was found; otherwise returns a null cursor.
If the \a position is 0 (the default) the search begins from the beginning
of the document; otherwise it begins at the specified position.
*/
QTextCursor QTextDocument::find(const QString &subString, int from, FindFlags options) const
{
QRegExp expr(subString);
expr.setPatternSyntax(QRegExp::FixedString);
expr.setCaseSensitivity((options & QTextDocument::FindCaseSensitively) ? Qt::CaseSensitive : Qt::CaseInsensitive);
return find(expr, from, options);
}
/*!
\fn QTextCursor QTextDocument::find(const QString &subString, const QTextCursor &cursor, FindFlags options) const
Finds the next occurrence of the string, \a subString, in the document.
The search starts at the position of the given \a cursor, and proceeds
forwards through the document unless specified otherwise in the search
options. The \a options control the type of search performed.
Returns a cursor with the match selected if \a subString was found; otherwise
returns a null cursor.
If the given \a cursor has a selection, the search begins after the
selection; otherwise it begins at the cursor's position.
By default the search is case-sensitive, and can match text anywhere in the
document.
*/
QTextCursor QTextDocument::find(const QString &subString, const QTextCursor &from, FindFlags options) const
{
int pos = 0;
if (!from.isNull()) {
if (options & QTextDocument::FindBackward)
pos = from.selectionStart();
else
pos = from.selectionEnd();
}
QRegExp expr(subString);
expr.setPatternSyntax(QRegExp::FixedString);
expr.setCaseSensitivity((options & QTextDocument::FindCaseSensitively) ? Qt::CaseSensitive : Qt::CaseInsensitive);
return find(expr, pos, options);
}
static bool findInBlock(const QTextBlock &block, const QRegExp &expression, int offset,
QTextDocument::FindFlags options, QTextCursor &cursor)
{
const QRegExp expr(expression);
QString text = block.text();
text.replace(QChar::Nbsp, QLatin1Char(' '));
int idx = -1;
while (offset >=0 && offset <= text.length()) {
idx = (options & QTextDocument::FindBackward) ?
expr.lastIndexIn(text, offset) : expr.indexIn(text, offset);
if (idx == -1)
return false;
if (options & QTextDocument::FindWholeWords) {
const int start = idx;
const int end = start + expr.matchedLength();
if ((start != 0 && text.at(start - 1).isLetterOrNumber())
|| (end != text.length() && text.at(end).isLetterOrNumber())) {
//if this is not a whole word, continue the search in the string
offset = (options & QTextDocument::FindBackward) ? idx-1 : end+1;
idx = -1;
continue;
}
}
//we have a hit, return the cursor for that.
break;
}
if (idx == -1)
return false;
cursor = QTextCursor(block.docHandle(), block.position() + idx);
cursor.setPosition(cursor.position() + expr.matchedLength(), QTextCursor::KeepAnchor);
return true;
}
/*!
\fn QTextCursor QTextDocument::find(const QRegExp & expr, int position, FindFlags options) const
\overload
Finds the next occurrence, matching the regular expression, \a expr, in the document.
The search starts at the given \a position, and proceeds forwards
through the document unless specified otherwise in the search options.
The \a options control the type of search performed. The FindCaseSensitively
option is ignored for this overload, use QRegExp::caseSensitivity instead.
Returns a cursor with the match selected if a match was found; otherwise
returns a null cursor.
If the \a position is 0 (the default) the search begins from the beginning
of the document; otherwise it begins at the specified position.
*/
QTextCursor QTextDocument::find(const QRegExp & expr, int from, FindFlags options) const
{
Q_D(const QTextDocument);
if (expr.isEmpty())
return QTextCursor();
int pos = from;
//the cursor is positioned between characters, so for a backward search
//do not include the character given in the position.
if (options & FindBackward) {
--pos ;
if(pos < 0)
return QTextCursor();
}
QTextCursor cursor;
QTextBlock block = d->blocksFind(pos);
if (!(options & FindBackward)) {
int blockOffset = qMax(0, pos - block.position());
while (block.isValid()) {
if (findInBlock(block, expr, blockOffset, options, cursor))
return cursor;
blockOffset = 0;
block = block.next();
}
} else {
int blockOffset = pos - block.position();
while (block.isValid()) {
if (findInBlock(block, expr, blockOffset, options, cursor))
return cursor;
block = block.previous();
blockOffset = block.length() - 1;
}
}
return QTextCursor();
}
/*!
\fn QTextCursor QTextDocument::find(const QRegExp &expr, const QTextCursor &cursor, FindFlags options) const
Finds the next occurrence, matching the regular expression, \a expr, in the document.
The search starts at the position of the given \a cursor, and proceeds
forwards through the document unless specified otherwise in the search
options. The \a options control the type of search performed. The FindCaseSensitively
option is ignored for this overload, use QRegExp::caseSensitivity instead.
Returns a cursor with the match selected if a match was found; otherwise
returns a null cursor.
If the given \a cursor has a selection, the search begins after the
selection; otherwise it begins at the cursor's position.
By default the search is case-sensitive, and can match text anywhere in the
document.
*/
QTextCursor QTextDocument::find(const QRegExp &expr, const QTextCursor &from, FindFlags options) const
{
int pos = 0;
if (!from.isNull()) {
if (options & QTextDocument::FindBackward)
pos = from.selectionStart();
else
pos = from.selectionEnd();
}
return find(expr, pos, options);
}
/*!
\fn QTextObject *QTextDocument::createObject(const QTextFormat &format)
Creates and returns a new document object (a QTextObject), based
on the given \a format.
QTextObjects will always get created through this method, so you
must reimplement it if you use custom text objects inside your document.
*/
QTextObject *QTextDocument::createObject(const QTextFormat &f)
{
QTextObject *obj = 0;
if (f.isListFormat())
obj = new QTextList(this);
else if (f.isTableFormat())
obj = new QTextTable(this);
else if (f.isFrameFormat())
obj = new QTextFrame(this);
return obj;
}
/*!
\internal
Returns the frame that contains the text cursor position \a pos.
*/
QTextFrame *QTextDocument::frameAt(int pos) const
{
Q_D(const QTextDocument);
return d->frameAt(pos);
}
/*!
Returns the document's root frame.
*/
QTextFrame *QTextDocument::rootFrame() const
{
Q_D(const QTextDocument);
return d->rootFrame();
}
/*!
Returns the text object associated with the given \a objectIndex.
*/
QTextObject *QTextDocument::object(int objectIndex) const
{
Q_D(const QTextDocument);
return d->objectForIndex(objectIndex);
}
/*!
Returns the text object associated with the format \a f.
*/
QTextObject *QTextDocument::objectForFormat(const QTextFormat &f) const
{
Q_D(const QTextDocument);
return d->objectForFormat(f);
}
/*!
Returns the text block that contains the \a{pos}-th character.
*/
QTextBlock QTextDocument::findBlock(int pos) const
{
Q_D(const QTextDocument);
return QTextBlock(docHandle(), d->blockMap().findNode(pos));
}
/*!
\since 4.4
Returns the text block with the specified \a blockNumber.
\sa QTextBlock::blockNumber()
*/
QTextBlock QTextDocument::findBlockByNumber(int blockNumber) const
{
Q_D(const QTextDocument);
return QTextBlock(docHandle(), d->blockMap().findNode(blockNumber, 1));
}
/*!
\since 4.5
Returns the text block that contains the specified \a lineNumber.
\sa QTextBlock::firstLineNumber()
*/
QTextBlock QTextDocument::findBlockByLineNumber(int lineNumber) const
{
Q_D(const QTextDocument);
return QTextBlock(docHandle(), d->blockMap().findNode(lineNumber, 2));
}
/*!
Returns the document's first text block.
\sa firstBlock()
*/
QTextBlock QTextDocument::begin() const
{
Q_D(const QTextDocument);
return QTextBlock(docHandle(), d->blockMap().begin().n);
}
/*!
This function returns a block to test for the end of the document
while iterating over it.
\snippet doc/src/snippets/textdocumentendsnippet.cpp 0
The block returned is invalid and represents the block after the
last block in the document. You can use lastBlock() to retrieve the
last valid block of the document.
\sa lastBlock()
*/
QTextBlock QTextDocument::end() const
{
return QTextBlock(docHandle(), 0);
}
/*!
\since 4.4
Returns the document's first text block.
*/
QTextBlock QTextDocument::firstBlock() const
{
Q_D(const QTextDocument);
return QTextBlock(docHandle(), d->blockMap().begin().n);
}
/*!
\since 4.4
Returns the document's last (valid) text block.
*/
QTextBlock QTextDocument::lastBlock() const
{
Q_D(const QTextDocument);
return QTextBlock(docHandle(), d->blockMap().last().n);
}
/*!
\property QTextDocument::pageSize
\brief the page size that should be used for laying out the document
By default, for a newly-created, empty document, this property contains
an undefined size.
\sa modificationChanged()
*/
void QTextDocument::setPageSize(const QSizeF &size)
{
Q_D(QTextDocument);
d->pageSize = size;
if (d->lout)
d->lout->documentChanged(0, 0, d->length());
}
QSizeF QTextDocument::pageSize() const
{
Q_D(const QTextDocument);
return d->pageSize;
}
/*!
returns the number of pages in this document.
*/
int QTextDocument::pageCount() const
{
return documentLayout()->pageCount();
}
/*!
Sets the default \a font to use in the document layout.
*/
void QTextDocument::setDefaultFont(const QFont &font)
{
Q_D(QTextDocument);
d->setDefaultFont(font);
if (d->lout)
d->lout->documentChanged(0, 0, d->length());
}
/*!
Returns the default font to be used in the document layout.
*/
QFont QTextDocument::defaultFont() const
{
Q_D(const QTextDocument);
return d->defaultFont();
}
/*!
\fn QTextDocument::modificationChanged(bool changed)
This signal is emitted whenever the content of the document
changes in a way that affects the modification state. If \a
changed is true, the document has been modified; otherwise it is
false.
For example, calling setModified(false) on a document and then
inserting text causes the signal to get emitted. If you undo that
operation, causing the document to return to its original
unmodified state, the signal will get emitted again.
*/
/*!
\property QTextDocument::modified
\brief whether the document has been modified by the user
By default, this property is false.
\sa modificationChanged()
*/
bool QTextDocument::isModified() const
{
return docHandle()->isModified();
}
void QTextDocument::setModified(bool m)
{
docHandle()->setModified(m);
}
#ifndef QT_NO_PRINTER
static void printPage(int index, QPainter *painter, const QTextDocument *doc, const QRectF &body, const QPointF &pageNumberPos)
{
painter->save();
painter->translate(body.left(), body.top() - (index - 1) * body.height());
QRectF view(0, (index - 1) * body.height(), body.width(), body.height());
QAbstractTextDocumentLayout *layout = doc->documentLayout();
QAbstractTextDocumentLayout::PaintContext ctx;
painter->setClipRect(view);
ctx.clip = view;
// don't use the system palette text as default text color, on HP/UX
// for example that's white, and white text on white paper doesn't
// look that nice
ctx.palette.setColor(QPalette::Text, Qt::black);
layout->draw(painter, ctx);
if (!pageNumberPos.isNull()) {
painter->setClipping(false);
painter->setFont(QFont(doc->defaultFont()));
const QString pageString = QString::number(index);
painter->drawText(qRound(pageNumberPos.x() - painter->fontMetrics().width(pageString)),
qRound(pageNumberPos.y() + view.top()),
pageString);
}
painter->restore();
}
extern int qt_defaultDpi();
/*!
Prints the document to the given \a printer. The QPrinter must be
set up before being used with this function.
This is only a convenience method to print the whole document to the printer.
If the document is already paginated through a specified height in the pageSize()
property it is printed as-is.
If the document is not paginated, like for example a document used in a QTextEdit,
then a temporary copy of the document is created and the copy is broken into
multiple pages according to the size of the QPrinter's paperRect(). By default
a 2 cm margin is set around the document contents. In addition the current page
number is printed at the bottom of each page.
Note that QPrinter::Selection is not supported as print range with this function since
the selection is a property of QTextCursor. If you have a QTextEdit associated with
your QTextDocument then you can use QTextEdit's print() function because QTextEdit has
access to the user's selection.
\sa QTextEdit::print()
*/
void QTextDocument::print(QPrinter *printer) const
{
Q_D(const QTextDocument);
if (!printer || !printer->isValid())
return;
if (!d->title.isEmpty())
printer->setDocName(d->title);
bool documentPaginated = d->pageSize.isValid() && !d->pageSize.isNull()
&& d->pageSize.height() != INT_MAX;
if (!documentPaginated && !printer->fullPage() && !printer->d_func()->hasCustomPageMargins)
printer->setPageMargins(23.53, 23.53, 23.53, 23.53, QPrinter::Millimeter);
QPainter p(printer);
// Check that there is a valid device to print to.
if (!p.isActive())
return;
const QTextDocument *doc = this;
QTextDocument *clonedDoc = 0;
(void)doc->documentLayout(); // make sure that there is a layout
QRectF body = QRectF(QPointF(0, 0), d->pageSize);
QPointF pageNumberPos;
if (documentPaginated) {
qreal sourceDpiX = qt_defaultDpi();
qreal sourceDpiY = sourceDpiX;
QPaintDevice *dev = doc->documentLayout()->paintDevice();
if (dev) {
sourceDpiX = dev->logicalDpiX();
sourceDpiY = dev->logicalDpiY();
}
const qreal dpiScaleX = qreal(printer->logicalDpiX()) / sourceDpiX;
const qreal dpiScaleY = qreal(printer->logicalDpiY()) / sourceDpiY;
// scale to dpi
p.scale(dpiScaleX, dpiScaleY);
QSizeF scaledPageSize = d->pageSize;
scaledPageSize.rwidth() *= dpiScaleX;
scaledPageSize.rheight() *= dpiScaleY;
const QSizeF printerPageSize(printer->pageRect().size());
// scale to page
p.scale(printerPageSize.width() / scaledPageSize.width(),
printerPageSize.height() / scaledPageSize.height());
} else {
doc = clone(const_cast(this));
clonedDoc = const_cast(doc);
for (QTextBlock srcBlock = firstBlock(), dstBlock = clonedDoc->firstBlock();
srcBlock.isValid() && dstBlock.isValid();
srcBlock = srcBlock.next(), dstBlock = dstBlock.next()) {
dstBlock.layout()->setAdditionalFormats(srcBlock.layout()->additionalFormats());
}
QAbstractTextDocumentLayout *layout = doc->documentLayout();
layout->setPaintDevice(p.device());
int dpiy = p.device()->logicalDpiY();
int margin = 0;
if (printer->fullPage() && !printer->d_func()->hasCustomPageMargins) {
// for compatibility
margin = (int) ((2/2.54)*dpiy); // 2 cm margins
QTextFrameFormat fmt = doc->rootFrame()->frameFormat();
fmt.setMargin(margin);
doc->rootFrame()->setFrameFormat(fmt);
}
QRectF pageRect(printer->pageRect());
body = QRectF(0, 0, pageRect.width(), pageRect.height());
pageNumberPos = QPointF(body.width() - margin,
body.height() - margin
+ QFontMetrics(doc->defaultFont(), p.device()).ascent()
+ 5 * dpiy / 72.0);
clonedDoc->setPageSize(body.size());
}
int docCopies;
int pageCopies;
if (printer->collateCopies() == true){
docCopies = 1;
pageCopies = printer->numCopies();
} else {
docCopies = printer->numCopies();
pageCopies = 1;
}
int fromPage = printer->fromPage();
int toPage = printer->toPage();
bool ascending = true;
if (fromPage == 0 && toPage == 0) {
fromPage = 1;
toPage = doc->pageCount();
}
// paranoia check
fromPage = qMax(1, fromPage);
toPage = qMin(doc->pageCount(), toPage);
if (printer->pageOrder() == QPrinter::LastPageFirst) {
int tmp = fromPage;
fromPage = toPage;
toPage = tmp;
ascending = false;
}
for (int i = 0; i < docCopies; ++i) {
int page = fromPage;
while (true) {
for (int j = 0; j < pageCopies; ++j) {
if (printer->printerState() == QPrinter::Aborted
|| printer->printerState() == QPrinter::Error)
goto UserCanceled;
printPage(page, &p, doc, body, pageNumberPos);
if (j < pageCopies - 1)
printer->newPage();
}
if (page == toPage)
break;
if (ascending)
++page;
else
--page;
printer->newPage();
}
if ( i < docCopies - 1)
printer->newPage();
}
UserCanceled:
delete clonedDoc;
}
#endif
/*!
\enum QTextDocument::ResourceType
This enum describes the types of resources that can be loaded by
QTextDocument's loadResource() function.
\value HtmlResource The resource contains HTML.
\value ImageResource The resource contains image data.
Currently supported data types are QVariant::Pixmap and
QVariant::Image. If the corresponding variant is of type
QVariant::ByteArray then Qt attempts to load the image using
QImage::loadFromData. QVariant::Icon is currently not supported.
The icon needs to be converted to one of the supported types first,
for example using QIcon::pixmap.
\value StyleSheetResource The resource contains CSS.
\value UserResource The first available value for user defined
resource types.
\sa loadResource()
*/
/*!
Returns data of the specified \a type from the resource with the
given \a name.
This function is called by the rich text engine to request data that isn't
directly stored by QTextDocument, but still associated with it. For example,
images are referenced indirectly by the name attribute of a QTextImageFormat
object.
Resources are cached internally in the document. If a resource can
not be found in the cache, loadResource is called to try to load
the resource. loadResource should then use addResource to add the
resource to the cache.
\sa QTextDocument::ResourceType
*/
QVariant QTextDocument::resource(int type, const QUrl &name) const
{
Q_D(const QTextDocument);
QVariant r = d->resources.value(name);
if (!r.isValid()) {
r = d->cachedResources.value(name);
if (!r.isValid())
r = const_cast(this)->loadResource(type, name);
}
return r;
}
/*!
Adds the resource \a resource to the resource cache, using \a
type and \a name as identifiers. \a type should be a value from
QTextDocument::ResourceType.
For example, you can add an image as a resource in order to reference it
from within the document:
\snippet snippets/textdocument-resources/main.cpp Adding a resource
The image can be inserted into the document using the QTextCursor API:
\snippet snippets/textdocument-resources/main.cpp Inserting an image with a cursor
Alternatively, you can insert images using the HTML \c img tag:
\snippet snippets/textdocument-resources/main.cpp Inserting an image using HTML
*/
void QTextDocument::addResource(int type, const QUrl &name, const QVariant &resource)
{
Q_UNUSED(type);
Q_D(QTextDocument);
d->resources.insert(name, resource);
}
/*!
Loads data of the specified \a type from the resource with the
given \a name.
This function is called by the rich text engine to request data that isn't
directly stored by QTextDocument, but still associated with it. For example,
images are referenced indirectly by the name attribute of a QTextImageFormat
object.
When called by Qt, \a type is one of the values of
QTextDocument::ResourceType.
If the QTextDocument is a child object of a QTextEdit, QTextBrowser,
or a QTextDocument itself then the default implementation tries
to retrieve the data from the parent.
*/
QVariant QTextDocument::loadResource(int type, const QUrl &name)
{
Q_D(QTextDocument);
QVariant r;
QTextDocument *doc = qobject_cast(parent());
if (doc) {
r = doc->loadResource(type, name);
}
#ifndef QT_NO_TEXTEDIT
else if (QTextEdit *edit = qobject_cast(parent())) {
QUrl resolvedName = edit->d_func()->resolveUrl(name);
r = edit->loadResource(type, resolvedName);
}
#endif
#ifndef QT_NO_TEXTCONTROL
else if (QTextControl *control = qobject_cast(parent())) {
r = control->loadResource(type, name);
}
#endif
// if resource was not loaded try to load it here
if (!doc && r.isNull() && name.isRelative()) {
QUrl currentURL = d->url;
QUrl resourceUrl = name;
// For the second case QUrl can merge "#someanchor" with "foo.html"
// correctly to "foo.html#someanchor"
if (!(currentURL.isRelative()
|| (currentURL.scheme() == QLatin1String("file")
&& !QFileInfo(currentURL.toLocalFile()).isAbsolute()))
|| (name.hasFragment() && name.path().isEmpty())) {
resourceUrl = currentURL.resolved(name);
} else {
// this is our last resort when current url and new url are both relative
// we try to resolve against the current working directory in the local
// file system.
QFileInfo fi(currentURL.toLocalFile());
if (fi.exists()) {
resourceUrl =
QUrl::fromLocalFile(fi.absolutePath() + QDir::separator()).resolved(name);
}
}
QString s = resourceUrl.toLocalFile();
QFile f(s);
if (!s.isEmpty() && f.open(QFile::ReadOnly)) {
r = f.readAll();
f.close();
}
}
if (!r.isNull()) {
if (type == ImageResource && r.type() == QVariant::ByteArray) {
if (qApp->thread() != QThread::currentThread()) {
// must use images in non-GUI threads
QImage image;
image.loadFromData(r.toByteArray());
if (!image.isNull())
r = image;
} else {
QPixmap pm;
pm.loadFromData(r.toByteArray());
if (!pm.isNull())
r = pm;
}
}
d->cachedResources.insert(name, r);
}
return r;
}
static QTextFormat formatDifference(const QTextFormat &from, const QTextFormat &to)
{
QTextFormat diff = to;
const QMap props = to.properties();
for (QMap::ConstIterator it = props.begin(), end = props.end();
it != end; ++it)
if (it.value() == from.property(it.key()))
diff.clearProperty(it.key());
return diff;
}
QTextHtmlExporter::QTextHtmlExporter(const QTextDocument *_doc)
: doc(_doc), fragmentMarkers(false)
{
const QFont defaultFont = doc->defaultFont();
defaultCharFormat.setFont(defaultFont);
// don't export those for the default font since we cannot turn them off with CSS
defaultCharFormat.clearProperty(QTextFormat::FontUnderline);
defaultCharFormat.clearProperty(QTextFormat::FontOverline);
defaultCharFormat.clearProperty(QTextFormat::FontStrikeOut);
defaultCharFormat.clearProperty(QTextFormat::TextUnderlineStyle);
}
/*!
Returns the document in HTML format. The conversion may not be
perfect, especially for complex documents, due to the limitations
of HTML.
*/
QString QTextHtmlExporter::toHtml(const QByteArray &encoding, ExportMode mode)
{
html = QLatin1String("\n"
"");
html.reserve(doc->docHandle()->length());
fragmentMarkers = (mode == ExportFragment);
if (!encoding.isEmpty())
html += QString::fromLatin1("").arg(QString::fromAscii(encoding));
QString title = doc->metaInformation(QTextDocument::DocumentTitle);
if (!title.isEmpty())
html += QString::fromLatin1("") + title + QString::fromLatin1("");
html += QLatin1String("");
html += QLatin1String("rootFrame()->frameFormat();
emitBackgroundAttribute(fmt);
} else {
defaultCharFormat = QTextCharFormat();
}
html += QLatin1Char('>');
QTextFrameFormat rootFmt = doc->rootFrame()->frameFormat();
rootFmt.clearProperty(QTextFormat::BackgroundBrush);
QTextFrameFormat defaultFmt;
defaultFmt.setMargin(doc->documentMargin());
if (rootFmt == defaultFmt)
emitFrame(doc->rootFrame()->begin());
else
emitTextFrame(doc->rootFrame());
html += QLatin1String("");
return html;
}
void QTextHtmlExporter::emitAttribute(const char *attribute, const QString &value)
{
html += QLatin1Char(' ');
html += QLatin1String(attribute);
html += QLatin1String("=\"");
html += Qt::escape(value);
html += QLatin1Char('"');
}
bool QTextHtmlExporter::emitCharFormatStyle(const QTextCharFormat &format)
{
bool attributesEmitted = false;
{
const QString family = format.fontFamily();
if (!family.isEmpty() && family != defaultCharFormat.fontFamily()) {
emitFontFamily(family);
attributesEmitted = true;
}
}
if (format.hasProperty(QTextFormat::FontPointSize)
&& format.fontPointSize() != defaultCharFormat.fontPointSize()) {
html += QLatin1String(" font-size:");
html += QString::number(format.fontPointSize());
html += QLatin1String("pt;");
attributesEmitted = true;
} else if (format.hasProperty(QTextFormat::FontSizeAdjustment)) {
static const char * const sizeNames[] = {
"small", "medium", "large", "x-large", "xx-large"
};
const char *name = 0;
const int idx = format.intProperty(QTextFormat::FontSizeAdjustment) + 1;
if (idx >= 0 && idx <= 4) {
name = sizeNames[idx];
}
if (name) {
html += QLatin1String(" font-size:");
html += QLatin1String(name);
html += QLatin1Char(';');
attributesEmitted = true;
}
}
if (format.hasProperty(QTextFormat::FontWeight)
&& format.fontWeight() != defaultCharFormat.fontWeight()) {
html += QLatin1String(" font-weight:");
html += QString::number(format.fontWeight() * 8);
html += QLatin1Char(';');
attributesEmitted = true;
}
if (format.hasProperty(QTextFormat::FontItalic)
&& format.fontItalic() != defaultCharFormat.fontItalic()) {
html += QLatin1String(" font-style:");
html += (format.fontItalic() ? QLatin1String("italic") : QLatin1String("normal"));
html += QLatin1Char(';');
attributesEmitted = true;
}
QLatin1String decorationTag(" text-decoration:");
html += decorationTag;
bool hasDecoration = false;
bool atLeastOneDecorationSet = false;
if ((format.hasProperty(QTextFormat::FontUnderline) || format.hasProperty(QTextFormat::TextUnderlineStyle))
&& format.fontUnderline() != defaultCharFormat.fontUnderline()) {
hasDecoration = true;
if (format.fontUnderline()) {
html += QLatin1String(" underline");
atLeastOneDecorationSet = true;
}
}
if (format.hasProperty(QTextFormat::FontOverline)
&& format.fontOverline() != defaultCharFormat.fontOverline()) {
hasDecoration = true;
if (format.fontOverline()) {
html += QLatin1String(" overline");
atLeastOneDecorationSet = true;
}
}
if (format.hasProperty(QTextFormat::FontStrikeOut)
&& format.fontStrikeOut() != defaultCharFormat.fontStrikeOut()) {
hasDecoration = true;
if (format.fontStrikeOut()) {
html += QLatin1String(" line-through");
atLeastOneDecorationSet = true;
}
}
if (hasDecoration) {
if (!atLeastOneDecorationSet)
html += QLatin1String("none");
html += QLatin1Char(';');
attributesEmitted = true;
} else {
html.chop(qstrlen(decorationTag.latin1()));
}
if (format.foreground() != defaultCharFormat.foreground()
&& format.foreground().style() != Qt::NoBrush) {
html += QLatin1String(" color:");
html += format.foreground().color().name();
html += QLatin1Char(';');
attributesEmitted = true;
}
if (format.background() != defaultCharFormat.background()
&& format.background().style() == Qt::SolidPattern) {
html += QLatin1String(" background-color:");
html += format.background().color().name();
html += QLatin1Char(';');
attributesEmitted = true;
}
if (format.verticalAlignment() != defaultCharFormat.verticalAlignment()
&& format.verticalAlignment() != QTextCharFormat::AlignNormal)
{
html += QLatin1String(" vertical-align:");
QTextCharFormat::VerticalAlignment valign = format.verticalAlignment();
if (valign == QTextCharFormat::AlignSubScript)
html += QLatin1String("sub");
else if (valign == QTextCharFormat::AlignSuperScript)
html += QLatin1String("super");
else if (valign == QTextCharFormat::AlignMiddle)
html += QLatin1String("middle");
else if (valign == QTextCharFormat::AlignTop)
html += QLatin1String("top");
else if (valign == QTextCharFormat::AlignBottom)
html += QLatin1String("bottom");
html += QLatin1Char(';');
attributesEmitted = true;
}
if (format.fontCapitalization() != QFont::MixedCase) {
const QFont::Capitalization caps = format.fontCapitalization();
if (caps == QFont::AllUppercase)
html += QLatin1String(" text-transform:uppercase;");
else if (caps == QFont::AllLowercase)
html += QLatin1String(" text-transform:lowercase;");
else if (caps == QFont::SmallCaps)
html += QLatin1String(" font-variant:small-caps;");
attributesEmitted = true;
}
if (format.fontWordSpacing() != 0.0) {
html += QLatin1String(" word-spacing:");
html += QString::number(format.fontWordSpacing());
html += QLatin1String("px;");
attributesEmitted = true;
}
return attributesEmitted;
}
void QTextHtmlExporter::emitTextLength(const char *attribute, const QTextLength &length)
{
if (length.type() == QTextLength::VariableLength) // default
return;
html += QLatin1Char(' ');
html += QLatin1String(attribute);
html += QLatin1String("=\"");
html += QString::number(length.rawValue());
if (length.type() == QTextLength::PercentageLength)
html += QLatin1String("%\"");
else
html += QLatin1Char('\"');
}
void QTextHtmlExporter::emitAlignment(Qt::Alignment align)
{
if (align & Qt::AlignLeft)
return;
else if (align & Qt::AlignRight)
html += QLatin1String(" align=\"right\"");
else if (align & Qt::AlignHCenter)
html += QLatin1String(" align=\"center\"");
else if (align & Qt::AlignJustify)
html += QLatin1String(" align=\"justify\"");
}
void QTextHtmlExporter::emitFloatStyle(QTextFrameFormat::Position pos, StyleMode mode)
{
if (pos == QTextFrameFormat::InFlow)
return;
if (mode == EmitStyleTag)
html += QLatin1String(" style=\"float:");
else
html += QLatin1String(" float:");
if (pos == QTextFrameFormat::FloatLeft)
html += QLatin1String(" left;");
else if (pos == QTextFrameFormat::FloatRight)
html += QLatin1String(" right;");
else
Q_ASSERT_X(0, "QTextHtmlExporter::emitFloatStyle()", "pos should be a valid enum type");
if (mode == EmitStyleTag)
html += QLatin1Char('\"');
}
void QTextHtmlExporter::emitBorderStyle(QTextFrameFormat::BorderStyle style)
{
Q_ASSERT(style <= QTextFrameFormat::BorderStyle_Outset);
html += QLatin1String(" border-style:");
switch (style) {
case QTextFrameFormat::BorderStyle_None:
html += QLatin1String("none");
break;
case QTextFrameFormat::BorderStyle_Dotted:
html += QLatin1String("dotted");
break;
case QTextFrameFormat::BorderStyle_Dashed:
html += QLatin1String("dashed");
break;
case QTextFrameFormat::BorderStyle_Solid:
html += QLatin1String("solid");
break;
case QTextFrameFormat::BorderStyle_Double:
html += QLatin1String("double");
break;
case QTextFrameFormat::BorderStyle_DotDash:
html += QLatin1String("dot-dash");
break;
case QTextFrameFormat::BorderStyle_DotDotDash:
html += QLatin1String("dot-dot-dash");
break;
case QTextFrameFormat::BorderStyle_Groove:
html += QLatin1String("groove");
break;
case QTextFrameFormat::BorderStyle_Ridge:
html += QLatin1String("ridge");
break;
case QTextFrameFormat::BorderStyle_Inset:
html += QLatin1String("inset");
break;
case QTextFrameFormat::BorderStyle_Outset:
html += QLatin1String("outset");
break;
default:
Q_ASSERT(false);
break;
};
html += QLatin1Char(';');
}
void QTextHtmlExporter::emitPageBreakPolicy(QTextFormat::PageBreakFlags policy)
{
if (policy & QTextFormat::PageBreak_AlwaysBefore)
html += QLatin1String(" page-break-before:always;");
if (policy & QTextFormat::PageBreak_AlwaysAfter)
html += QLatin1String(" page-break-after:always;");
}
void QTextHtmlExporter::emitFontFamily(const QString &family)
{
html += QLatin1String(" font-family:");
QLatin1String quote("\'");
if (family.contains(QLatin1Char('\'')))
quote = QLatin1String(""");
html += quote;
html += Qt::escape(family);
html += quote;
html += QLatin1Char(';');
}
void QTextHtmlExporter::emitMargins(const QString &top, const QString &bottom, const QString &left, const QString &right)
{
html += QLatin1String(" margin-top:");
html += top;
html += QLatin1String("px;");
html += QLatin1String(" margin-bottom:");
html += bottom;
html += QLatin1String("px;");
html += QLatin1String(" margin-left:");
html += left;
html += QLatin1String("px;");
html += QLatin1String(" margin-right:");
html += right;
html += QLatin1String("px;");
}
void QTextHtmlExporter::emitFragment(const QTextFragment &fragment)
{
const QTextCharFormat format = fragment.charFormat();
bool closeAnchor = false;
if (format.isAnchor()) {
const QString name = format.anchorName();
if (!name.isEmpty()) {
html += QLatin1String("");
}
const QString href = format.anchorHref();
if (!href.isEmpty()) {
html += QLatin1String("");
closeAnchor = true;
}
}
QString txt = fragment.text();
const bool isObject = txt.contains(QChar::ObjectReplacementCharacter);
const bool isImage = isObject && format.isImageFormat();
QLatin1String styleTag("");
else
html.chop(qstrlen(styleTag.latin1()));
if (isObject) {
for (int i = 0; isImage && i < txt.length(); ++i) {
QTextImageFormat imgFmt = format.toImageFormat();
html += QLatin1String("(doc->objectForFormat(imgFmt)))
emitFloatStyle(imageFrame->frameFormat().position());
html += QLatin1String(" />");
}
} else {
Q_ASSERT(!txt.contains(QChar::ObjectReplacementCharacter));
txt = Qt::escape(txt);
// split for [\n{LineSeparator}]
QString forcedLineBreakRegExp = QString::fromLatin1("[\\na]");
forcedLineBreakRegExp[3] = QChar::LineSeparator;
const QStringList lines = txt.split(QRegExp(forcedLineBreakRegExp));
for (int i = 0; i < lines.count(); ++i) {
if (i > 0)
html += QLatin1String("
"); // space on purpose for compatibility with Netscape, Lynx & Co.
html += lines.at(i);
}
}
if (attributesEmitted)
html += QLatin1String("");
if (closeAnchor)
html += QLatin1String("");
}
static bool isOrderedList(int style)
{
return style == QTextListFormat::ListDecimal || style == QTextListFormat::ListLowerAlpha
|| style == QTextListFormat::ListUpperAlpha
|| style == QTextListFormat::ListUpperRoman
|| style == QTextListFormat::ListLowerRoman
;
}
void QTextHtmlExporter::emitBlockAttributes(const QTextBlock &block)
{
QTextBlockFormat format = block.blockFormat();
emitAlignment(format.alignment());
Qt::LayoutDirection dir = format.layoutDirection();
if (dir == Qt::LeftToRight) {
// assume default to not bloat the html too much
// html += QLatin1String(" dir='ltr'");
} else {
html += QLatin1String(" dir='rtl'");
}
QLatin1String style(" style=\"");
html += style;
const bool emptyBlock = block.begin().atEnd();
if (emptyBlock) {
html += QLatin1String("-qt-paragraph-type:empty;");
}
emitMargins(QString::number(format.topMargin()),
QString::number(format.bottomMargin()),
QString::number(format.leftMargin()),
QString::number(format.rightMargin()));
html += QLatin1String(" -qt-block-indent:");
html += QString::number(format.indent());
html += QLatin1Char(';');
html += QLatin1String(" text-indent:");
html += QString::number(format.textIndent());
html += QLatin1String("px;");
if (block.userState() != -1) {
html += QLatin1String(" -qt-user-state:");
html += QString::number(block.userState());
html += QLatin1Char(';');
}
emitPageBreakPolicy(format.pageBreakPolicy());
QTextCharFormat diff;
if (emptyBlock) { // only print character properties when we don't expect them to be repeated by actual text in the parag
const QTextCharFormat blockCharFmt = block.charFormat();
diff = formatDifference(defaultCharFormat, blockCharFmt).toCharFormat();
}
diff.clearProperty(QTextFormat::BackgroundBrush);
if (format.hasProperty(QTextFormat::BackgroundBrush)) {
QBrush bg = format.background();
if (bg.style() != Qt::NoBrush)
diff.setProperty(QTextFormat::BackgroundBrush, format.property(QTextFormat::BackgroundBrush));
}
if (!diff.properties().isEmpty())
emitCharFormatStyle(diff);
html += QLatin1Char('"');
}
void QTextHtmlExporter::emitBlock(const QTextBlock &block)
{
if (block.begin().atEnd()) {
// ### HACK, remove once QTextFrame::Iterator is fixed
int p = block.position();
if (p > 0)
--p;
QTextDocumentPrivate::FragmentIterator frag = doc->docHandle()->find(p);
QChar ch = doc->docHandle()->buffer().at(frag->stringPosition);
if (ch == QTextBeginningOfFrame
|| ch == QTextEndOfFrame)
return;
}
html += QLatin1Char('\n');
// save and later restore, in case we 'change' the default format by
// emitting block char format information
QTextCharFormat oldDefaultCharFormat = defaultCharFormat;
QTextList *list = block.textList();
if (list) {
if (list->itemNumber(block) == 0) { // first item? emit
");
if (list) {
if (list->itemNumber(block) == list->count() - 1) { // last item? close list
if (isOrderedList(list->format().style()))
html += QLatin1String("");
else
html += QLatin1String("");
}
}
defaultCharFormat = oldDefaultCharFormat;
}
extern bool qHasPixmapTexture(const QBrush& brush);
QString QTextHtmlExporter::findUrlForImage(const QTextDocument *doc, qint64 cacheKey, bool isPixmap)
{
QString url;
if (!doc)
return url;
if (QTextDocument *parent = qobject_cast(doc->parent()))
return findUrlForImage(parent, cacheKey, isPixmap);
if (doc && doc->docHandle()) {
QTextDocumentPrivate *priv = doc->docHandle();
QMap::const_iterator it = priv->cachedResources.constBegin();
for (; it != priv->cachedResources.constEnd(); ++it) {
const QVariant &v = it.value();
if (v.type() == QVariant::Image && !isPixmap) {
if (qvariant_cast(v).cacheKey() == cacheKey)
break;
}
if (v.type() == QVariant::Pixmap && isPixmap) {
if (qvariant_cast(v).cacheKey() == cacheKey)
break;
}
}
if (it != priv->cachedResources.constEnd())
url = it.key().toString();
}
return url;
}
void QTextDocumentPrivate::mergeCachedResources(const QTextDocumentPrivate *priv)
{
if (!priv)
return;
cachedResources.unite(priv->cachedResources);
}
void QTextHtmlExporter::emitBackgroundAttribute(const QTextFormat &format)
{
if (format.hasProperty(QTextFormat::BackgroundImageUrl)) {
QString url = format.property(QTextFormat::BackgroundImageUrl).toString();
emitAttribute("background", url);
} else {
const QBrush &brush = format.background();
if (brush.style() == Qt::SolidPattern) {
emitAttribute("bgcolor", brush.color().name());
} else if (brush.style() == Qt::TexturePattern) {
const bool isPixmap = qHasPixmapTexture(brush);
const qint64 cacheKey = isPixmap ? brush.texture().cacheKey() : brush.textureImage().cacheKey();
const QString url = findUrlForImage(doc, cacheKey, isPixmap);
if (!url.isEmpty())
emitAttribute("background", url);
}
}
}
void QTextHtmlExporter::emitTable(const QTextTable *table)
{
QTextTableFormat format = table->format();
html += QLatin1String("\n');
const int rows = table->rows();
const int columns = table->columns();
QVector columnWidths = format.columnWidthConstraints();
if (columnWidths.isEmpty()) {
columnWidths.resize(columns);
columnWidths.fill(QTextLength());
}
Q_ASSERT(columnWidths.count() == columns);
QVarLengthArray widthEmittedForColumn(columns);
for (int i = 0; i < columns; ++i)
widthEmittedForColumn[i] = false;
const int headerRowCount = qMin(format.headerRowCount(), rows);
if (headerRowCount > 0)
html += QLatin1String("");
for (int row = 0; row < rows; ++row) {
html += QLatin1String("\n");
for (int col = 0; col < columns; ++col) {
const QTextTableCell cell = table->cellAt(row, col);
// for col/rowspans
if (cell.row() != row)
continue;
if (cell.column() != col)
continue;
html += QLatin1String("\n 1)
emitAttribute("colspan", QString::number(cell.columnSpan()));
if (cell.rowSpan() > 1)
emitAttribute("rowspan", QString::number(cell.rowSpan()));
const QTextTableCellFormat cellFormat = cell.format().toTableCellFormat();
emitBackgroundAttribute(cellFormat);
QTextCharFormat oldDefaultCharFormat = defaultCharFormat;
QTextCharFormat::VerticalAlignment valign = cellFormat.verticalAlignment();
QString styleString;
if (valign >= QTextCharFormat::AlignMiddle && valign <= QTextCharFormat::AlignBottom) {
styleString += QLatin1String(" vertical-align:");
switch (valign) {
case QTextCharFormat::AlignMiddle:
styleString += QLatin1String("middle");
break;
case QTextCharFormat::AlignTop:
styleString += QLatin1String("top");
break;
case QTextCharFormat::AlignBottom:
styleString += QLatin1String("bottom");
break;
default:
break;
}
styleString += QLatin1Char(';');
QTextCharFormat temp;
temp.setVerticalAlignment(valign);
defaultCharFormat.merge(temp);
}
if (cellFormat.hasProperty(QTextFormat::TableCellLeftPadding))
styleString += QLatin1String(" padding-left:") + QString::number(cellFormat.leftPadding()) + QLatin1Char(';');
if (cellFormat.hasProperty(QTextFormat::TableCellRightPadding))
styleString += QLatin1String(" padding-right:") + QString::number(cellFormat.rightPadding()) + QLatin1Char(';');
if (cellFormat.hasProperty(QTextFormat::TableCellTopPadding))
styleString += QLatin1String(" padding-top:") + QString::number(cellFormat.topPadding()) + QLatin1Char(';');
if (cellFormat.hasProperty(QTextFormat::TableCellBottomPadding))
styleString += QLatin1String(" padding-bottom:") + QString::number(cellFormat.bottomPadding()) + QLatin1Char(';');
if (!styleString.isEmpty())
html += QLatin1String(" style=\"") + styleString + QLatin1Char('\"');
html += QLatin1Char('>');
emitFrame(cell.begin());
html += QLatin1String(" | ");
defaultCharFormat = oldDefaultCharFormat;
}
html += QLatin1String("
");
if (headerRowCount > 0 && row == headerRowCount - 1)
html += QLatin1String("");
}
html += QLatin1String("
");
}
void QTextHtmlExporter::emitFrame(QTextFrame::Iterator frameIt)
{
if (!frameIt.atEnd()) {
QTextFrame::Iterator next = frameIt;
++next;
if (next.atEnd()
&& frameIt.currentFrame() == 0
&& frameIt.parentFrame() != doc->rootFrame()
&& frameIt.currentBlock().begin().atEnd())
return;
}
for (QTextFrame::Iterator it = frameIt;
!it.atEnd(); ++it) {
if (QTextFrame *f = it.currentFrame()) {
if (QTextTable *table = qobject_cast(f)) {
emitTable(table);
} else {
emitTextFrame(f);
}
} else if (it.currentBlock().isValid()) {
emitBlock(it.currentBlock());
}
}
}
void QTextHtmlExporter::emitTextFrame(const QTextFrame *f)
{
FrameType frameType = f->parentFrame() ? TextFrame : RootFrame;
html += QLatin1String("\nframeFormat();
if (format.hasProperty(QTextFormat::FrameBorder))
emitAttribute("border", QString::number(format.border()));
emitFrameStyle(format, frameType);
emitTextLength("width", format.width());
emitTextLength("height", format.height());
// root frame's bcolor goes in the tag
if (frameType != RootFrame)
emitBackgroundAttribute(format);
html += QLatin1Char('>');
html += QLatin1String("\n\n");
emitFrame(f->begin());
html += QLatin1String(" |
");
}
void QTextHtmlExporter::emitFrameStyle(const QTextFrameFormat &format, FrameType frameType)
{
QLatin1String styleAttribute(" style=\"");
html += styleAttribute;
const int originalHtmlLength = html.length();
if (frameType == TextFrame)
html += QLatin1String("-qt-table-type: frame;");
else if (frameType == RootFrame)
html += QLatin1String("-qt-table-type: root;");
const QTextFrameFormat defaultFormat;
emitFloatStyle(format.position(), OmitStyleTag);
emitPageBreakPolicy(format.pageBreakPolicy());
if (format.borderBrush() != defaultFormat.borderBrush()) {
html += QLatin1String(" border-color:");
html += format.borderBrush().color().name();
html += QLatin1Char(';');
}
if (format.borderStyle() != defaultFormat.borderStyle())
emitBorderStyle(format.borderStyle());
if (format.hasProperty(QTextFormat::FrameMargin)
|| format.hasProperty(QTextFormat::FrameLeftMargin)
|| format.hasProperty(QTextFormat::FrameRightMargin)
|| format.hasProperty(QTextFormat::FrameTopMargin)
|| format.hasProperty(QTextFormat::FrameBottomMargin))
emitMargins(QString::number(format.topMargin()),
QString::number(format.bottomMargin()),
QString::number(format.leftMargin()),
QString::number(format.rightMargin()));
if (html.length() == originalHtmlLength) // nothing emitted?
html.chop(qstrlen(styleAttribute.latin1()));
else
html += QLatin1Char('\"');
}
/*!
Returns a string containing an HTML representation of the document.
The \a encoding parameter specifies the value for the charset attribute
in the html header. For example if 'utf-8' is specified then the
beginning of the generated html will look like this:
\snippet doc/src/snippets/code/src_gui_text_qtextdocument.cpp 1
If no encoding is specified then no such meta information is generated.
If you later on convert the returned html string into a byte array for
transmission over a network or when saving to disk you should specify
the encoding you're going to use for the conversion to a byte array here.
\sa {Supported HTML Subset}
*/
#ifndef QT_NO_TEXTHTMLPARSER
QString QTextDocument::toHtml(const QByteArray &encoding) const
{
return QTextHtmlExporter(this).toHtml(encoding);
}
#endif // QT_NO_TEXTHTMLPARSER
/*!
Returns a vector of text formats for all the formats used in the document.
*/
QVector QTextDocument::allFormats() const
{
Q_D(const QTextDocument);
return d->formatCollection()->formats;
}
/*!
\internal
So that not all classes have to be friends of each other...
*/
QTextDocumentPrivate *QTextDocument::docHandle() const
{
Q_D(const QTextDocument);
return const_cast(d);
}
/*!
\since 4.4
\fn QTextDocument::undoCommandAdded()
This signal is emitted every time a new level of undo is added to the QTextDocument.
*/
QT_END_NAMESPACE