/**************************************************************************** ** ** Copyright (C) 2013 Digia Plc and/or its subsidiary(-ies). ** Contact: http://www.qt-project.org/legal ** ** This file is part of the QtGui module of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** Commercial License Usage ** Licensees holding valid commercial Qt licenses may use this file in ** accordance with the commercial license agreement provided with the ** Software or, alternatively, in accordance with the terms contained in ** a written agreement between you and Digia. For licensing terms and ** conditions see http://qt.digia.com/licensing. For further information ** use the contact form at http://qt.digia.com/contact-us. ** ** 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, Digia gives you certain additional ** rights. These rights are described in the Digia Qt LGPL Exception ** version 1.1, included in the file LGPL_EXCEPTION.txt in this package. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU ** General Public License version 3.0 as published by the Free Software ** Foundation and appearing in the file LICENSE.GPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU General Public License version 3.0 requirements will be ** met: http://www.gnu.org/copyleft/gpl.html. ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "qplaintextedit_p.h" #include #include #include #include #include #include #include #include #include #include #include "private/qtextdocumentlayout_p.h" #include "private/qabstracttextdocumentlayout_p.h" #include "qtextdocument.h" #include "private/qtextdocument_p.h" #include "qtextlist.h" #include "private/qtextcontrol_p.h" #include "qaccessible.h" #include #include #include #include #include #include #include #ifndef QT_NO_TEXTEDIT QT_BEGIN_NAMESPACE static inline bool shouldEnableInputMethod(QPlainTextEdit *plaintextedit) { return !plaintextedit->isReadOnly(); } class QPlainTextDocumentLayoutPrivate : public QAbstractTextDocumentLayoutPrivate { Q_DECLARE_PUBLIC(QPlainTextDocumentLayout) public: QPlainTextDocumentLayoutPrivate() { mainViewPrivate = 0; width = 0; maximumWidth = 0; maximumWidthBlockNumber = 0; blockCount = 1; blockUpdate = blockDocumentSizeChanged = false; cursorWidth = 1; textLayoutFlags = 0; } qreal width; qreal maximumWidth; int maximumWidthBlockNumber; int blockCount; QPlainTextEditPrivate *mainViewPrivate; bool blockUpdate; bool blockDocumentSizeChanged; int cursorWidth; int textLayoutFlags; void layoutBlock(const QTextBlock &block); qreal blockWidth(const QTextBlock &block); void relayout(); }; /*! \class QPlainTextDocumentLayout \since 4.4 \brief The QPlainTextDocumentLayout class implements a plain text layout for QTextDocument \ingroup richtext-processing A QPlainTextDocumentLayout is required for text documents that can be display or edited in a QPlainTextEdit. See QTextDocument::setDocumentLayout(). QPlainTextDocumentLayout uses the QAbstractTextDocumentLayout API that QTextDocument requires, but redefines it partially in order to support plain text better. For instances, it does not operate on vertical pixels, but on paragraphs (called blocks) instead. The height of a document is identical to the number of paragraphs it contains. The layout also doesn't support tables or nested frames, or any sort of advanced text layout that goes beyond a list of paragraphs with syntax highlighting. */ /*! Constructs a plain text document layout for the text \a document. */ QPlainTextDocumentLayout::QPlainTextDocumentLayout(QTextDocument *document) :QAbstractTextDocumentLayout(* new QPlainTextDocumentLayoutPrivate, document) { } /*! Destructs a plain text document layout. */ QPlainTextDocumentLayout::~QPlainTextDocumentLayout() {} /*! \reimp */ void QPlainTextDocumentLayout::draw(QPainter *, const PaintContext &) { } /*! \reimp */ int QPlainTextDocumentLayout::hitTest(const QPointF &, Qt::HitTestAccuracy ) const { // this function is used from // QAbstractTextDocumentLayout::anchorAt(), but is not // implementable in a plain text document layout, because the // layout depends on the top block and top line which depends on // the view return -1; } /*! \reimp */ int QPlainTextDocumentLayout::pageCount() const { return 1; } /*! \reimp */ QSizeF QPlainTextDocumentLayout::documentSize() const { Q_D(const QPlainTextDocumentLayout); return QSizeF(d->maximumWidth, document()->lineCount()); } /*! \reimp */ QRectF QPlainTextDocumentLayout::frameBoundingRect(QTextFrame *) const { Q_D(const QPlainTextDocumentLayout); return QRectF(0, 0, qMax(d->width, d->maximumWidth), qreal(INT_MAX)); } /*! \reimp */ QRectF QPlainTextDocumentLayout::blockBoundingRect(const QTextBlock &block) const { if (!block.isValid()) { return QRectF(); } QTextLayout *tl = block.layout(); if (!tl->lineCount()) const_cast(this)->layoutBlock(block); QRectF br; if (block.isVisible()) { br = QRectF(QPointF(0, 0), tl->boundingRect().bottomRight()); if (tl->lineCount() == 1) br.setWidth(qMax(br.width(), tl->lineAt(0).naturalTextWidth())); qreal margin = document()->documentMargin(); br.adjust(0, 0, margin, 0); if (!block.next().isValid()) br.adjust(0, 0, 0, margin); } return br; } /*! Ensures that \a block has a valid layout */ void QPlainTextDocumentLayout::ensureBlockLayout(const QTextBlock &block) const { if (!block.isValid()) return; QTextLayout *tl = block.layout(); if (!tl->lineCount()) const_cast(this)->layoutBlock(block); } /*! \property QPlainTextDocumentLayout::cursorWidth This property specifies the width of the cursor in pixels. The default value is 1. */ void QPlainTextDocumentLayout::setCursorWidth(int width) { Q_D(QPlainTextDocumentLayout); d->cursorWidth = width; } int QPlainTextDocumentLayout::cursorWidth() const { Q_D(const QPlainTextDocumentLayout); return d->cursorWidth; } QPlainTextDocumentLayoutPrivate *QPlainTextDocumentLayout::priv() const { Q_D(const QPlainTextDocumentLayout); return const_cast(d); } /*! Requests a complete update on all views. */ void QPlainTextDocumentLayout::requestUpdate() { emit update(QRectF(0., -document()->documentMargin(), 1000000000., 1000000000.)); } void QPlainTextDocumentLayout::setTextWidth(qreal newWidth) { Q_D(QPlainTextDocumentLayout); d->width = d->maximumWidth = newWidth; d->relayout(); } qreal QPlainTextDocumentLayout::textWidth() const { Q_D(const QPlainTextDocumentLayout); return d->width; } void QPlainTextDocumentLayoutPrivate::relayout() { Q_Q(QPlainTextDocumentLayout); QTextBlock block = q->document()->firstBlock(); while (block.isValid()) { block.layout()->clearLayout(); block.setLineCount(block.isVisible() ? 1 : 0); block = block.next(); } emit q->update(); } /*! \reimp */ void QPlainTextDocumentLayout::documentChanged(int from, int /*charsRemoved*/, int charsAdded) { Q_D(QPlainTextDocumentLayout); QTextDocument *doc = document(); int newBlockCount = doc->blockCount(); QTextBlock changeStartBlock = doc->findBlock(from); QTextBlock changeEndBlock = doc->findBlock(qMax(0, from + charsAdded - 1)); if (changeStartBlock == changeEndBlock && newBlockCount == d->blockCount) { QTextBlock block = changeStartBlock; int blockLineCount = block.layout()->lineCount(); if (block.isValid() && blockLineCount) { QRectF oldBr = blockBoundingRect(block); layoutBlock(block); QRectF newBr = blockBoundingRect(block); if (newBr.height() == oldBr.height()) { if (!d->blockUpdate) emit updateBlock(block); return; } } } else { QTextBlock block = changeStartBlock; do { block.clearLayout(); if (block == changeEndBlock) break; block = block.next(); } while(block.isValid()); } if (newBlockCount != d->blockCount) { int changeEnd = changeEndBlock.blockNumber(); int blockDiff = newBlockCount - d->blockCount; int oldChangeEnd = changeEnd - blockDiff; if (d->maximumWidthBlockNumber > oldChangeEnd) d->maximumWidthBlockNumber += blockDiff; d->blockCount = newBlockCount; if (d->blockCount == 1) d->maximumWidth = blockWidth(doc->firstBlock()); if (!d->blockDocumentSizeChanged) emit documentSizeChanged(documentSize()); if (blockDiff == 1 && changeEnd == newBlockCount -1 ) { if (!d->blockUpdate) { QTextBlock b = changeStartBlock; for(;;) { emit updateBlock(b); if (b == changeEndBlock) break; b = b.next(); } } return; } } if (!d->blockUpdate) emit update(QRectF(0., -doc->documentMargin(), 1000000000., 1000000000.)); // optimization potential } void QPlainTextDocumentLayout::layoutBlock(const QTextBlock &block) { Q_D(QPlainTextDocumentLayout); QTextDocument *doc = document(); qreal margin = doc->documentMargin(); qreal blockMaximumWidth = 0; qreal height = 0; QTextLayout *tl = block.layout(); QTextOption option = doc->defaultTextOption(); tl->setTextOption(option); int extraMargin = 0; if (option.flags() & QTextOption::AddSpaceForLineAndParagraphSeparators) { QFontMetrics fm(block.charFormat().font()); extraMargin += fm.width(QChar(0x21B5)); } tl->beginLayout(); qreal availableWidth = d->width; if (availableWidth <= 0) { availableWidth = qreal(INT_MAX); // similar to text edit with pageSize.width == 0 } availableWidth -= 2*margin + extraMargin; while (1) { QTextLine line = tl->createLine(); if (!line.isValid()) break; line.setLeadingIncluded(true); line.setLineWidth(availableWidth); line.setPosition(QPointF(margin, height)); height += line.height(); blockMaximumWidth = qMax(blockMaximumWidth, line.naturalTextWidth() + 2*margin); } tl->endLayout(); int previousLineCount = doc->lineCount(); const_cast(block).setLineCount(block.isVisible() ? tl->lineCount() : 0); int lineCount = doc->lineCount(); bool emitDocumentSizeChanged = previousLineCount != lineCount; if (blockMaximumWidth > d->maximumWidth) { // new longest line d->maximumWidth = blockMaximumWidth; d->maximumWidthBlockNumber = block.blockNumber(); emitDocumentSizeChanged = true; } else if (block.blockNumber() == d->maximumWidthBlockNumber && blockMaximumWidth < d->maximumWidth) { // longest line shrinking QTextBlock b = doc->firstBlock(); d->maximumWidth = 0; QTextBlock maximumBlock; while (b.isValid()) { qreal blockMaximumWidth = blockWidth(b); if (blockMaximumWidth > d->maximumWidth) { d->maximumWidth = blockMaximumWidth; maximumBlock = b; } b = b.next(); } if (maximumBlock.isValid()) { d->maximumWidthBlockNumber = maximumBlock.blockNumber(); emitDocumentSizeChanged = true; } } if (emitDocumentSizeChanged && !d->blockDocumentSizeChanged) emit documentSizeChanged(documentSize()); } qreal QPlainTextDocumentLayout::blockWidth(const QTextBlock &block) { QTextLayout *layout = block.layout(); if (!layout->lineCount()) return 0; // only for layouted blocks qreal blockWidth = 0; for (int i = 0; i < layout->lineCount(); ++i) { QTextLine line = layout->lineAt(i); blockWidth = qMax(line.naturalTextWidth() + 8, blockWidth); } return blockWidth; } QPlainTextEditControl::QPlainTextEditControl(QPlainTextEdit *parent) : QTextControl(parent), textEdit(parent), topBlock(0) { setAcceptRichText(false); } void QPlainTextEditPrivate::_q_cursorPositionChanged() { pageUpDownLastCursorYIsValid = false; #ifndef QT_NO_ACCESSIBILITY Q_Q(QPlainTextEdit); QAccessible::updateAccessibility(q, 0, QAccessible::TextCaretMoved); #endif } void QPlainTextEditPrivate::_q_verticalScrollbarActionTriggered(int action) { if (action == QAbstractSlider::SliderPageStepAdd) { pageUpDown(QTextCursor::Down, QTextCursor::MoveAnchor, false); } else if (action == QAbstractSlider::SliderPageStepSub) { pageUpDown(QTextCursor::Up, QTextCursor::MoveAnchor, false); } } QMimeData *QPlainTextEditControl::createMimeDataFromSelection() const { QPlainTextEdit *ed = qobject_cast(parent()); if (!ed) return QTextControl::createMimeDataFromSelection(); return ed->createMimeDataFromSelection(); } bool QPlainTextEditControl::canInsertFromMimeData(const QMimeData *source) const { QPlainTextEdit *ed = qobject_cast(parent()); if (!ed) return QTextControl::canInsertFromMimeData(source); return ed->canInsertFromMimeData(source); } void QPlainTextEditControl::insertFromMimeData(const QMimeData *source) { QPlainTextEdit *ed = qobject_cast(parent()); if (!ed) QTextControl::insertFromMimeData(source); else ed->insertFromMimeData(source); } qreal QPlainTextEditPrivate::verticalOffset(int topBlock, int topLine) const { qreal offset = 0; QTextDocument *doc = control->document(); if (topLine) { QTextBlock currentBlock = doc->findBlockByNumber(topBlock); QPlainTextDocumentLayout *documentLayout = qobject_cast(doc->documentLayout()); Q_ASSERT(documentLayout); QRectF r = documentLayout->blockBoundingRect(currentBlock); Q_UNUSED(r); QTextLayout *layout = currentBlock.layout(); if (layout && topLine <= layout->lineCount()) { QTextLine line = layout->lineAt(topLine - 1); const QRectF lr = line.naturalTextRect(); offset = lr.bottom(); } } if (topBlock == 0 && topLine == 0) offset -= doc->documentMargin(); // top margin return offset; } qreal QPlainTextEditPrivate::verticalOffset() const { return verticalOffset(control->topBlock, topLine) + topLineFracture; } QTextBlock QPlainTextEditControl::firstVisibleBlock() const { return document()->findBlockByNumber(topBlock); } int QPlainTextEditControl::hitTest(const QPointF &point, Qt::HitTestAccuracy ) const { int currentBlockNumber = topBlock; QTextBlock currentBlock = document()->findBlockByNumber(currentBlockNumber); if (!currentBlock.isValid()) return -1; QPlainTextDocumentLayout *documentLayout = qobject_cast(document()->documentLayout()); Q_ASSERT(documentLayout); QPointF offset; QRectF r = documentLayout->blockBoundingRect(currentBlock); while (currentBlock.next().isValid() && r.bottom() + offset.y() <= point.y()) { offset.ry() += r.height(); currentBlock = currentBlock.next(); ++currentBlockNumber; r = documentLayout->blockBoundingRect(currentBlock); } while (currentBlock.previous().isValid() && r.top() + offset.y() > point.y()) { offset.ry() -= r.height(); currentBlock = currentBlock.previous(); --currentBlockNumber; r = documentLayout->blockBoundingRect(currentBlock); } if (!currentBlock.isValid()) return -1; QTextLayout *layout = currentBlock.layout(); int off = 0; QPointF pos = point - offset; for (int i = 0; i < layout->lineCount(); ++i) { QTextLine line = layout->lineAt(i); const QRectF lr = line.naturalTextRect(); if (lr.top() > pos.y()) { off = qMin(off, line.textStart()); } else if (lr.bottom() <= pos.y()) { off = qMax(off, line.textStart() + line.textLength()); } else { off = line.xToCursor(pos.x(), overwriteMode() ? QTextLine::CursorOnCharacter : QTextLine::CursorBetweenCharacters); break; } } return currentBlock.position() + off; } QRectF QPlainTextEditControl::blockBoundingRect(const QTextBlock &block) const { int currentBlockNumber = topBlock; int blockNumber = block.blockNumber(); QTextBlock currentBlock = document()->findBlockByNumber(currentBlockNumber); if (!currentBlock.isValid()) return QRectF(); Q_ASSERT(currentBlock.blockNumber() == currentBlockNumber); QTextDocument *doc = document(); QPlainTextDocumentLayout *documentLayout = qobject_cast(doc->documentLayout()); Q_ASSERT(documentLayout); QPointF offset; if (!block.isValid()) return QRectF(); QRectF r = documentLayout->blockBoundingRect(currentBlock); int maxVerticalOffset = r.height(); while (currentBlockNumber < blockNumber && offset.y() - maxVerticalOffset <= 2* textEdit->viewport()->height()) { offset.ry() += r.height(); currentBlock = currentBlock.next(); ++currentBlockNumber; if (!currentBlock.isVisible()) { currentBlock = doc->findBlockByLineNumber(currentBlock.firstLineNumber()); currentBlockNumber = currentBlock.blockNumber(); } r = documentLayout->blockBoundingRect(currentBlock); } while (currentBlockNumber > blockNumber && offset.y() + maxVerticalOffset >= -textEdit->viewport()->height()) { currentBlock = currentBlock.previous(); --currentBlockNumber; while (!currentBlock.isVisible()) { currentBlock = currentBlock.previous(); --currentBlockNumber; } if (!currentBlock.isValid()) break; r = documentLayout->blockBoundingRect(currentBlock); offset.ry() -= r.height(); } if (currentBlockNumber != blockNumber) { // fallback for blocks out of reach. Give it some geometry at // least, and ensure the layout is up to date. r = documentLayout->blockBoundingRect(block); if (currentBlockNumber > blockNumber) offset.ry() -= r.height(); } r.translate(offset); return r; } void QPlainTextEditPrivate::setTopLine(int visualTopLine, int dx) { QTextDocument *doc = control->document(); QTextBlock block = doc->findBlockByLineNumber(visualTopLine); int blockNumber = block.blockNumber(); int lineNumber = visualTopLine - block.firstLineNumber(); setTopBlock(blockNumber, lineNumber, dx); } void QPlainTextEditPrivate::setTopBlock(int blockNumber, int lineNumber, int dx) { Q_Q(QPlainTextEdit); blockNumber = qMax(0, blockNumber); lineNumber = qMax(0, lineNumber); QTextDocument *doc = control->document(); QTextBlock block = doc->findBlockByNumber(blockNumber); int newTopLine = block.firstLineNumber() + lineNumber; int maxTopLine = vbar->maximum(); if (newTopLine > maxTopLine) { block = doc->findBlockByLineNumber(maxTopLine); blockNumber = block.blockNumber(); lineNumber = maxTopLine - block.firstLineNumber(); } bool vbarSignalsBlocked = vbar->blockSignals(true); vbar->setValue(newTopLine); vbar->blockSignals(vbarSignalsBlocked); if (!dx && blockNumber == control->topBlock && lineNumber == topLine) return; if (viewport->updatesEnabled() && viewport->isVisible()) { int dy = 0; if (doc->findBlockByNumber(control->topBlock).isValid()) { qreal realdy = -q->blockBoundingGeometry(block).y() + verticalOffset() - verticalOffset(blockNumber, lineNumber); dy = (int)realdy; topLineFracture = realdy - dy; } control->topBlock = blockNumber; topLine = lineNumber; bool vbarSignalsBlocked = vbar->blockSignals(true); vbar->setValue(block.firstLineNumber() + lineNumber); vbar->blockSignals(vbarSignalsBlocked); if (dx || dy) { viewport->scroll(q->isRightToLeft() ? -dx : dx, dy); } else { viewport->update(); topLineFracture = 0; } emit q->updateRequest(viewport->rect(), dy); } else { control->topBlock = blockNumber; topLine = lineNumber; topLineFracture = 0; } } void QPlainTextEditPrivate::ensureVisible(int position, bool center, bool forceCenter) { Q_Q(QPlainTextEdit); QRectF visible = QRectF(viewport->rect()).translated(-q->contentOffset()); QTextBlock block = control->document()->findBlock(position); if (!block.isValid()) return; QRectF br = control->blockBoundingRect(block); if (!br.isValid()) return; QRectF lr = br; QTextLine line = block.layout()->lineForTextPosition(position - block.position()); Q_ASSERT(line.isValid()); lr = line.naturalTextRect().translated(br.topLeft()); if (lr.bottom() >= visible.bottom() || (center && lr.top() < visible.top()) || forceCenter){ qreal height = visible.height(); if (center) height /= 2; qreal h = center ? line.naturalTextRect().center().y() : line.naturalTextRect().bottom(); QTextBlock previousVisibleBlock = block; while (h < height && block.previous().isValid()) { previousVisibleBlock = block; do { block = block.previous(); } while (!block.isVisible() && block.previous().isValid()); h += q->blockBoundingRect(block).height(); } int l = 0; int lineCount = block.layout()->lineCount(); qreal voffset = verticalOffset(block.blockNumber(), 0); while (l < lineCount) { QRectF lineRect = block.layout()->lineAt(l).naturalTextRect(); if (h - voffset - lineRect.top() <= height) break; ++l; } if (l >= lineCount) { block = previousVisibleBlock; l = 0; } setTopBlock(block.blockNumber(), l); } else if (lr.top() < visible.top()) { setTopBlock(block.blockNumber(), line.lineNumber()); } } void QPlainTextEditPrivate::updateViewport() { Q_Q(QPlainTextEdit); viewport->update(); emit q->updateRequest(viewport->rect(), 0); } QPlainTextEditPrivate::QPlainTextEditPrivate() : control(0), tabChangesFocus(false), lineWrap(QPlainTextEdit::WidgetWidth), wordWrap(QTextOption::WrapAtWordBoundaryOrAnywhere), clickCausedFocus(0),topLine(0),topLineFracture(0), pageUpDownLastCursorYIsValid(false) { showCursorOnInitialShow = true; backgroundVisible = false; centerOnScroll = false; inDrag = false; } void QPlainTextEditPrivate::init(const QString &txt) { Q_Q(QPlainTextEdit); control = new QPlainTextEditControl(q); QTextDocument *doc = new QTextDocument(control); QAbstractTextDocumentLayout *layout = new QPlainTextDocumentLayout(doc); doc->setDocumentLayout(layout); control->setDocument(doc); control->setPalette(q->palette()); QObject::connect(vbar, SIGNAL(actionTriggered(int)), q, SLOT(_q_verticalScrollbarActionTriggered(int))); QObject::connect(control, SIGNAL(microFocusChanged()), q, SLOT(updateMicroFocus())); QObject::connect(control, SIGNAL(documentSizeChanged(QSizeF)), q, SLOT(_q_adjustScrollbars())); QObject::connect(control, SIGNAL(blockCountChanged(int)), q, SIGNAL(blockCountChanged(int))); QObject::connect(control, SIGNAL(updateRequest(QRectF)), q, SLOT(_q_repaintContents(QRectF))); QObject::connect(control, SIGNAL(modificationChanged(bool)), q, SIGNAL(modificationChanged(bool))); QObject::connect(control, SIGNAL(textChanged()), q, SIGNAL(textChanged())); QObject::connect(control, SIGNAL(undoAvailable(bool)), q, SIGNAL(undoAvailable(bool))); QObject::connect(control, SIGNAL(redoAvailable(bool)), q, SIGNAL(redoAvailable(bool))); QObject::connect(control, SIGNAL(copyAvailable(bool)), q, SIGNAL(copyAvailable(bool))); QObject::connect(control, SIGNAL(selectionChanged()), q, SIGNAL(selectionChanged())); QObject::connect(control, SIGNAL(cursorPositionChanged()), q, SLOT(_q_cursorPositionChanged())); QObject::connect(control, SIGNAL(cursorPositionChanged()), q, SIGNAL(cursorPositionChanged())); QObject::connect(control, SIGNAL(textChanged()), q, SLOT(updateMicroFocus())); // set a null page size initially to avoid any relayouting until the textedit // is shown. relayoutDocument() will take care of setting the page size to the // viewport dimensions later. doc->setTextWidth(-1); doc->documentLayout()->setPaintDevice(viewport); doc->setDefaultFont(q->font()); if (!txt.isEmpty()) control->setPlainText(txt); hbar->setSingleStep(20); vbar->setSingleStep(1); viewport->setBackgroundRole(QPalette::Base); q->setAcceptDrops(true); q->setFocusPolicy(Qt::WheelFocus); q->setAttribute(Qt::WA_KeyCompression); q->setAttribute(Qt::WA_InputMethodEnabled); #ifndef QT_NO_CURSOR viewport->setCursor(Qt::IBeamCursor); #endif originalOffsetY = 0; #ifdef Q_WS_WIN setSingleFingerPanEnabled(true); #endif } void QPlainTextEditPrivate::_q_repaintContents(const QRectF &contentsRect) { Q_Q(QPlainTextEdit); if (!contentsRect.isValid()) { updateViewport(); return; } const int xOffset = horizontalOffset(); const int yOffset = (int)verticalOffset(); const QRect visibleRect(xOffset, yOffset, viewport->width(), viewport->height()); QRect r = contentsRect.adjusted(-1, -1, 1, 1).intersected(visibleRect).toAlignedRect(); if (r.isEmpty()) return; r.translate(-xOffset, -yOffset); viewport->update(r); emit q->updateRequest(r, 0); } void QPlainTextEditPrivate::pageUpDown(QTextCursor::MoveOperation op, QTextCursor::MoveMode moveMode, bool moveCursor) { Q_Q(QPlainTextEdit); QTextCursor cursor = control->textCursor(); if (moveCursor) { ensureCursorVisible(); if (!pageUpDownLastCursorYIsValid) pageUpDownLastCursorY = control->cursorRect(cursor).top() - verticalOffset(); } qreal lastY = pageUpDownLastCursorY; if (op == QTextCursor::Down) { QRectF visible = QRectF(viewport->rect()).translated(-q->contentOffset()); QTextBlock firstVisibleBlock = q->firstVisibleBlock(); QTextBlock block = firstVisibleBlock; QRectF br = q->blockBoundingRect(block); qreal h = 0; int atEnd = false; while (h + br.height() <= visible.bottom()) { if (!block.next().isValid()) { atEnd = true; lastY = visible.bottom(); // set cursor to last line break; } h += br.height(); block = block.next(); br = q->blockBoundingRect(block); } if (!atEnd) { int line = 0; qreal diff = visible.bottom() - h; int lineCount = block.layout()->lineCount(); while (line < lineCount - 1) { if (block.layout()->lineAt(line).naturalTextRect().bottom() > diff) { // the first line that did not completely fit the screen break; } ++line; } setTopBlock(block.blockNumber(), line); } if (moveCursor) { // move using movePosition to keep the cursor's x lastY += verticalOffset(); bool moved = false; do { moved = cursor.movePosition(op, moveMode); } while (moved && control->cursorRect(cursor).top() < lastY); } } else if (op == QTextCursor::Up) { QRectF visible = QRectF(viewport->rect()).translated(-q->contentOffset()); visible.translate(0, -visible.height()); // previous page QTextBlock block = q->firstVisibleBlock(); qreal h = 0; while (h >= visible.top()) { if (!block.previous().isValid()) { if (control->topBlock == 0 && topLine == 0) { lastY = 0; // set cursor to first line } break; } block = block.previous(); QRectF br = q->blockBoundingRect(block); h -= br.height(); } int line = 0; if (block.isValid()) { qreal diff = visible.top() - h; int lineCount = block.layout()->lineCount(); while (line < lineCount) { if (block.layout()->lineAt(line).naturalTextRect().top() >= diff) break; ++line; } if (line == lineCount) { if (block.next().isValid() && block.next() != q->firstVisibleBlock()) { block = block.next(); line = 0; } else { --line; } } } setTopBlock(block.blockNumber(), line); if (moveCursor) { cursor.setVisualNavigation(true); // move using movePosition to keep the cursor's x lastY += verticalOffset(); bool moved = false; do { moved = cursor.movePosition(op, moveMode); } while (moved && control->cursorRect(cursor).top() > lastY); } } if (moveCursor) { control->setTextCursor(cursor); pageUpDownLastCursorYIsValid = true; } } #ifndef QT_NO_SCROLLBAR void QPlainTextEditPrivate::_q_adjustScrollbars() { Q_Q(QPlainTextEdit); QTextDocument *doc = control->document(); QPlainTextDocumentLayout *documentLayout = qobject_cast(doc->documentLayout()); Q_ASSERT(documentLayout); bool documentSizeChangedBlocked = documentLayout->priv()->blockDocumentSizeChanged; documentLayout->priv()->blockDocumentSizeChanged = true; qreal margin = doc->documentMargin(); int vmax = 0; int vSliderLength = 0; if (!centerOnScroll && q->isVisible()) { QTextBlock block = doc->lastBlock(); const qreal visible = viewport->rect().height() - margin - 1; qreal y = 0; int visibleFromBottom = 0; while (block.isValid()) { if (!block.isVisible()) { block = block.previous(); continue; } y += documentLayout->blockBoundingRect(block).height(); QTextLayout *layout = block.layout(); int layoutLineCount = layout->lineCount(); if (y > visible) { int lineNumber = 0; while (lineNumber < layoutLineCount) { QTextLine line = layout->lineAt(lineNumber); const QRectF lr = line.naturalTextRect(); if (lr.top() >= y - visible) break; ++lineNumber; } if (lineNumber < layoutLineCount) visibleFromBottom += (layoutLineCount - lineNumber); break; } visibleFromBottom += layoutLineCount; block = block.previous(); } vmax = qMax(0, doc->lineCount() - visibleFromBottom); vSliderLength = visibleFromBottom; } else { vmax = qMax(0, doc->lineCount() - 1); vSliderLength = viewport->height() / q->fontMetrics().lineSpacing(); } QSizeF documentSize = documentLayout->documentSize(); vbar->setRange(0, qMax(0, vmax)); vbar->setPageStep(vSliderLength); int visualTopLine = vmax; QTextBlock firstVisibleBlock = q->firstVisibleBlock(); if (firstVisibleBlock.isValid()) visualTopLine = firstVisibleBlock.firstLineNumber() + topLine; bool vbarSignalsBlocked = vbar->blockSignals(true); vbar->setValue(visualTopLine); vbar->blockSignals(vbarSignalsBlocked); hbar->setRange(0, (int)documentSize.width() - viewport->width()); hbar->setPageStep(viewport->width()); documentLayout->priv()->blockDocumentSizeChanged = documentSizeChangedBlocked; setTopLine(vbar->value()); } #endif void QPlainTextEditPrivate::ensureViewportLayouted() { } /*! \class QPlainTextEdit \since 4.4 \brief The QPlainTextEdit class provides a widget that is used to edit and display plain text. \ingroup richtext-processing \tableofcontents \section1 Introduction and Concepts QPlainTextEdit is an advanced viewer/editor supporting plain text. It is optimized to handle large documents and to respond quickly to user input. QPlainText uses very much the same technology and concepts as QTextEdit, but is optimized for plain text handling. QPlainTextEdit works on paragraphs and characters. A paragraph is a formatted string which is word-wrapped to fit into the width of the widget. By default when reading plain text, one newline signifies a paragraph. A document consists of zero or more paragraphs. Paragraphs are separated by hard line breaks. Each character within a paragraph has its own attributes, for example, font and color. The shape of the mouse cursor on a QPlainTextEdit is Qt::IBeamCursor by default. It can be changed through the viewport()'s cursor property. \section1 Using QPlainTextEdit as a Display Widget The text is set or replaced using setPlainText() which deletes the existing text and replaces it with the text passed to setPlainText(). Text can be inserted using the QTextCursor class or using the convenience functions insertPlainText(), appendPlainText() or paste(). By default, the text edit wraps words at whitespace to fit within the text edit widget. The setLineWrapMode() function is used to specify the kind of line wrap you want, \l WidgetWidth or \l NoWrap if you don't want any wrapping. If you use word wrap to the widget's width \l WidgetWidth, you can specify whether to break on whitespace or anywhere with setWordWrapMode(). The find() function can be used to find and select a given string within the text. If you want to limit the total number of paragraphs in a QPlainTextEdit, as it is for example useful in a log viewer, then you can use the maximumBlockCount property. The combination of setMaximumBlockCount() and appendPlainText() turns QPlainTextEdit into an efficient viewer for log text. The scrolling can be reduced with the centerOnScroll() property, making the log viewer even faster. Text can be formatted in a limited way, either using a syntax highlighter (see below), or by appending html-formatted text with appendHtml(). While QPlainTextEdit does not support complex rich text rendering with tables and floats, it does support limited paragraph-based formatting that you may need in a log viewer. \section2 Read-only Key Bindings When QPlainTextEdit is used read-only the key bindings are limited to navigation, and text may only be selected with the mouse: \table \header \i Keypresses \i Action \row \i Qt::UpArrow \i Moves one line up. \row \i Qt::DownArrow \i Moves one line down. \row \i Qt::LeftArrow \i Moves one character to the left. \row \i Qt::RightArrow \i Moves one character to the right. \row \i PageUp \i Moves one (viewport) page up. \row \i PageDown \i Moves one (viewport) page down. \row \i Home \i Moves to the beginning of the text. \row \i End \i Moves to the end of the text. \row \i Alt+Wheel \i Scrolls the page horizontally (the Wheel is the mouse wheel). \row \i Ctrl+Wheel \i Zooms the text. \row \i Ctrl+A \i Selects all text. \endtable \section1 Using QPlainTextEdit as an Editor All the information about using QPlainTextEdit as a display widget also applies here. Selection of text is handled by the QTextCursor class, which provides functionality for creating selections, retrieving the text contents or deleting selections. You can retrieve the object that corresponds with the user-visible cursor using the textCursor() method. If you want to set a selection in QPlainTextEdit just create one on a QTextCursor object and then make that cursor the visible cursor using setCursor(). The selection can be copied to the clipboard with copy(), or cut to the clipboard with cut(). The entire text can be selected using selectAll(). QPlainTextEdit holds a QTextDocument object which can be retrieved using the document() method. You can also set your own document object using setDocument(). QTextDocument emits a textChanged() signal if the text changes and it also provides a isModified() function which will return true if the text has been modified since it was either loaded or since the last call to setModified with false as argument. In addition it provides methods for undo and redo. \section2 Syntax Highlighting Just like QTextEdit, QPlainTextEdit works together with QSyntaxHighlighter. \section2 Editing Key Bindings The list of key bindings which are implemented for editing: \table \header \i Keypresses \i Action \row \i Backspace \i Deletes the character to the left of the cursor. \row \i Delete \i Deletes the character to the right of the cursor. \row \i Ctrl+C \i Copy the selected text to the clipboard. \row \i Ctrl+Insert \i Copy the selected text to the clipboard. \row \i Ctrl+K \i Deletes to the end of the line. \row \i Ctrl+V \i Pastes the clipboard text into text edit. \row \i Shift+Insert \i Pastes the clipboard text into text edit. \row \i Ctrl+X \i Deletes the selected text and copies it to the clipboard. \row \i Shift+Delete \i Deletes the selected text and copies it to the clipboard. \row \i Ctrl+Z \i Undoes the last operation. \row \i Ctrl+Y \i Redoes the last operation. \row \i LeftArrow \i Moves the cursor one character to the left. \row \i Ctrl+LeftArrow \i Moves the cursor one word to the left. \row \i RightArrow \i Moves the cursor one character to the right. \row \i Ctrl+RightArrow \i Moves the cursor one word to the right. \row \i UpArrow \i Moves the cursor one line up. \row \i Ctrl+UpArrow \i Moves the cursor one word up. \row \i DownArrow \i Moves the cursor one line down. \row \i Ctrl+Down Arrow \i Moves the cursor one word down. \row \i PageUp \i Moves the cursor one page up. \row \i PageDown \i Moves the cursor one page down. \row \i Home \i Moves the cursor to the beginning of the line. \row \i Ctrl+Home \i Moves the cursor to the beginning of the text. \row \i End \i Moves the cursor to the end of the line. \row \i Ctrl+End \i Moves the cursor to the end of the text. \row \i Alt+Wheel \i Scrolls the page horizontally (the Wheel is the mouse wheel). \row \i Ctrl+Wheel \i Zooms the text. \endtable To select (mark) text hold down the Shift key whilst pressing one of the movement keystrokes, for example, \e{Shift+Right Arrow} will select the character to the right, and \e{Shift+Ctrl+Right Arrow} will select the word to the right, etc. \section1 Differences to QTextEdit QPlainTextEdit is a thin class, implemented by using most of the technology that is behind QTextEdit and QTextDocument. Its performance benefits over QTextEdit stem mostly from using a different and simplified text layout called QPlainTextDocumentLayout on the text document (see QTextDocument::setDocumentLayout()). The plain text document layout does not support tables nor embedded frames, and \e{replaces a pixel-exact height calculation with a line-by-line respectively paragraph-by-paragraph scrolling approach}. This makes it possible to handle significantly larger documents, and still resize the editor with line wrap enabled in real time. It also makes for a fast log viewer (see setMaximumBlockCount()). \sa QTextDocument, QTextCursor, {Application Example}, {Code Editor Example}, {Syntax Highlighter Example}, {Rich Text Processing} */ /*! \property QPlainTextEdit::plainText This property gets and sets the plain text editor's contents. The previous contents are removed and undo/redo history is reset when this property is set. By default, for an editor with no contents, this property contains an empty string. */ /*! \property QPlainTextEdit::undoRedoEnabled \brief whether undo and redo are enabled Users are only able to undo or redo actions if this property is true, and if there is an action that can be undone (or redone). By default, this property is true. */ /*! \enum QPlainTextEdit::LineWrapMode \value NoWrap \value WidgetWidth */ /*! Constructs an empty QPlainTextEdit with parent \a parent. */ QPlainTextEdit::QPlainTextEdit(QWidget *parent) : QAbstractScrollArea(*new QPlainTextEditPrivate, parent) { Q_D(QPlainTextEdit); d->init(); } /*! \internal */ QPlainTextEdit::QPlainTextEdit(QPlainTextEditPrivate &dd, QWidget *parent) : QAbstractScrollArea(dd, parent) { Q_D(QPlainTextEdit); d->init(); } /*! Constructs a QPlainTextEdit with parent \a parent. The text edit will display the plain text \a text. */ QPlainTextEdit::QPlainTextEdit(const QString &text, QWidget *parent) : QAbstractScrollArea(*new QPlainTextEditPrivate, parent) { Q_D(QPlainTextEdit); d->init(text); } /*! Destructor. */ QPlainTextEdit::~QPlainTextEdit() { Q_D(QPlainTextEdit); if (d->documentLayoutPtr) { if (d->documentLayoutPtr->priv()->mainViewPrivate == d) d->documentLayoutPtr->priv()->mainViewPrivate = 0; } } /*! Makes \a document the new document of the text editor. The parent QObject of the provided document remains the owner of the object. If the current document is a child of the text editor, then it is deleted. The document must have a document layout that inherits QPlainTextDocumentLayout (see QTextDocument::setDocumentLayout()). \sa document() */ void QPlainTextEdit::setDocument(QTextDocument *document) { Q_D(QPlainTextEdit); QPlainTextDocumentLayout *documentLayout = 0; if (!document) { document = new QTextDocument(d->control); documentLayout = new QPlainTextDocumentLayout(document); document->setDocumentLayout(documentLayout); } else { documentLayout = qobject_cast(document->documentLayout()); if (!documentLayout) { qWarning("QPlainTextEdit::setDocument: Document set does not support QPlainTextDocumentLayout"); return; } } d->control->setDocument(document); if (!documentLayout->priv()->mainViewPrivate) documentLayout->priv()->mainViewPrivate = d; d->documentLayoutPtr = documentLayout; d->updateDefaultTextOption(); d->relayoutDocument(); d->_q_adjustScrollbars(); } /*! Returns a pointer to the underlying document. \sa setDocument() */ QTextDocument *QPlainTextEdit::document() const { Q_D(const QPlainTextEdit); return d->control->document(); } /*! Sets the visible \a cursor. */ void QPlainTextEdit::setTextCursor(const QTextCursor &cursor) { Q_D(QPlainTextEdit); d->control->setTextCursor(cursor); } /*! Returns a copy of the QTextCursor that represents the currently visible cursor. Note that changes on the returned cursor do not affect QPlainTextEdit's cursor; use setTextCursor() to update the visible cursor. */ QTextCursor QPlainTextEdit::textCursor() const { Q_D(const QPlainTextEdit); return d->control->textCursor(); } /*! Returns the reference of the anchor at position \a pos, or an empty string if no anchor exists at that point. \since 4.7 */ QString QPlainTextEdit::anchorAt(const QPoint &pos) const { Q_D(const QPlainTextEdit); int cursorPos = d->control->hitTest(pos + QPointF(d->horizontalOffset(), d->verticalOffset()), Qt::ExactHit); if (cursorPos < 0) return QString(); QTextDocumentPrivate *pieceTable = document()->docHandle(); QTextDocumentPrivate::FragmentIterator it = pieceTable->find(cursorPos); QTextCharFormat fmt = pieceTable->formatCollection()->charFormat(it->format); return fmt.anchorHref(); } /*! Undoes the last operation. If there is no operation to undo, i.e. there is no undo step in the undo/redo history, nothing happens. \sa redo() */ void QPlainTextEdit::undo() { Q_D(QPlainTextEdit); d->control->undo(); } void QPlainTextEdit::redo() { Q_D(QPlainTextEdit); d->control->redo(); } /*! \fn void QPlainTextEdit::redo() Redoes the last operation. If there is no operation to redo, i.e. there is no redo step in the undo/redo history, nothing happens. \sa undo() */ #ifndef QT_NO_CLIPBOARD /*! Copies the selected text to the clipboard and deletes it from the text edit. If there is no selected text nothing happens. \sa copy() paste() */ void QPlainTextEdit::cut() { Q_D(QPlainTextEdit); d->control->cut(); } /*! Copies any selected text to the clipboard. \sa copyAvailable() */ void QPlainTextEdit::copy() { Q_D(QPlainTextEdit); d->control->copy(); } /*! Pastes the text from the clipboard into the text edit at the current cursor position. If there is no text in the clipboard nothing happens. To change the behavior of this function, i.e. to modify what QPlainTextEdit can paste and how it is being pasted, reimplement the virtual canInsertFromMimeData() and insertFromMimeData() functions. \sa cut() copy() */ void QPlainTextEdit::paste() { Q_D(QPlainTextEdit); d->control->paste(); } #endif /*! Deletes all the text in the text edit. Note that the undo/redo history is cleared by this function. \sa cut() setPlainText() */ void QPlainTextEdit::clear() { Q_D(QPlainTextEdit); // clears and sets empty content d->control->topBlock = d->topLine = d->topLineFracture = 0; d->control->clear(); } /*! Selects all text. \sa copy() cut() textCursor() */ void QPlainTextEdit::selectAll() { Q_D(QPlainTextEdit); d->control->selectAll(); } /*! \internal */ bool QPlainTextEdit::event(QEvent *e) { Q_D(QPlainTextEdit); #ifndef QT_NO_CONTEXTMENU if (e->type() == QEvent::ContextMenu && static_cast(e)->reason() == QContextMenuEvent::Keyboard) { ensureCursorVisible(); const QPoint cursorPos = cursorRect().center(); QContextMenuEvent ce(QContextMenuEvent::Keyboard, cursorPos, d->viewport->mapToGlobal(cursorPos)); ce.setAccepted(e->isAccepted()); const bool result = QAbstractScrollArea::event(&ce); e->setAccepted(ce.isAccepted()); return result; } #endif // QT_NO_CONTEXTMENU if (e->type() == QEvent::ShortcutOverride || e->type() == QEvent::ToolTip) { d->sendControlEvent(e); } #ifdef QT_KEYPAD_NAVIGATION else if (e->type() == QEvent::EnterEditFocus || e->type() == QEvent::LeaveEditFocus) { if (QApplication::keypadNavigationEnabled()) d->sendControlEvent(e); } #endif #ifndef QT_NO_GESTURES else if (e->type() == QEvent::Gesture) { QGestureEvent *ge = static_cast(e); QPanGesture *g = static_cast(ge->gesture(Qt::PanGesture)); if (g) { QScrollBar *hBar = horizontalScrollBar(); QScrollBar *vBar = verticalScrollBar(); if (g->state() == Qt::GestureStarted) d->originalOffsetY = vBar->value(); QPointF offset = g->offset(); if (!offset.isNull()) { if (QApplication::isRightToLeft()) offset.rx() *= -1; // QPlainTextEdit scrolls by lines only in vertical direction QFontMetrics fm(document()->defaultFont()); int lineHeight = fm.height(); int newX = hBar->value() - g->delta().x(); int newY = d->originalOffsetY - offset.y()/lineHeight; hBar->setValue(newX); vBar->setValue(newY); } } return true; } #endif // QT_NO_GESTURES return QAbstractScrollArea::event(e); } /*! \internal */ void QPlainTextEdit::timerEvent(QTimerEvent *e) { Q_D(QPlainTextEdit); if (e->timerId() == d->autoScrollTimer.timerId()) { QRect visible = d->viewport->rect(); QPoint pos; if (d->inDrag) { pos = d->autoScrollDragPos; visible.adjust(qMin(visible.width()/3,20), qMin(visible.height()/3,20), -qMin(visible.width()/3,20), -qMin(visible.height()/3,20)); } else { const QPoint globalPos = QCursor::pos(); pos = d->viewport->mapFromGlobal(globalPos); QMouseEvent ev(QEvent::MouseMove, pos, globalPos, Qt::LeftButton, Qt::LeftButton, Qt::NoModifier); mouseMoveEvent(&ev); } int deltaY = qMax(pos.y() - visible.top(), visible.bottom() - pos.y()) - visible.height(); int deltaX = qMax(pos.x() - visible.left(), visible.right() - pos.x()) - visible.width(); int delta = qMax(deltaX, deltaY); if (delta >= 0) { if (delta < 7) delta = 7; int timeout = 4900 / (delta * delta); d->autoScrollTimer.start(timeout, this); if (deltaY > 0) d->vbar->triggerAction(pos.y() < visible.center().y() ? QAbstractSlider::SliderSingleStepSub : QAbstractSlider::SliderSingleStepAdd); if (deltaX > 0) d->hbar->triggerAction(pos.x() < visible.center().x() ? QAbstractSlider::SliderSingleStepSub : QAbstractSlider::SliderSingleStepAdd); } } #ifdef QT_KEYPAD_NAVIGATION else if (e->timerId() == d->deleteAllTimer.timerId()) { d->deleteAllTimer.stop(); clear(); } #endif } /*! Changes the text of the text edit to the string \a text. Any previous text is removed. \a text is interpreted as plain text. Note that the undo/redo history is cleared by this function. \sa toText() */ void QPlainTextEdit::setPlainText(const QString &text) { Q_D(QPlainTextEdit); d->control->setPlainText(text); } /*! \fn QString QPlainTextEdit::toPlainText() const Returns the text of the text edit as plain text. \sa QPlainTextEdit::setPlainText() */ /*! \reimp */ void QPlainTextEdit::keyPressEvent(QKeyEvent *e) { Q_D(QPlainTextEdit); #ifdef QT_KEYPAD_NAVIGATION switch (e->key()) { case Qt::Key_Select: if (QApplication::keypadNavigationEnabled()) { if (!(d->control->textInteractionFlags() & Qt::LinksAccessibleByKeyboard)) setEditFocus(!hasEditFocus()); else { if (!hasEditFocus()) setEditFocus(true); else { QTextCursor cursor = d->control->textCursor(); QTextCharFormat charFmt = cursor.charFormat(); if (!cursor.hasSelection() || charFmt.anchorHref().isEmpty()) { setEditFocus(false); } } } } break; case Qt::Key_Back: case Qt::Key_No: if (!QApplication::keypadNavigationEnabled() || (QApplication::keypadNavigationEnabled() && !hasEditFocus())) { e->ignore(); return; } break; default: if (QApplication::keypadNavigationEnabled()) { if (!hasEditFocus() && !(e->modifiers() & Qt::ControlModifier)) { if (e->text()[0].isPrint()) { setEditFocus(true); clear(); } else { e->ignore(); return; } } } break; } #endif #ifndef QT_NO_SHORTCUT Qt::TextInteractionFlags tif = d->control->textInteractionFlags(); if (tif & Qt::TextSelectableByKeyboard){ if (e == QKeySequence::SelectPreviousPage) { e->accept(); d->pageUpDown(QTextCursor::Up, QTextCursor::KeepAnchor); return; } else if (e ==QKeySequence::SelectNextPage) { e->accept(); d->pageUpDown(QTextCursor::Down, QTextCursor::KeepAnchor); return; } } if (tif & (Qt::TextSelectableByKeyboard | Qt::TextEditable)) { if (e == QKeySequence::MoveToPreviousPage) { e->accept(); d->pageUpDown(QTextCursor::Up, QTextCursor::MoveAnchor); return; } else if (e == QKeySequence::MoveToNextPage) { e->accept(); d->pageUpDown(QTextCursor::Down, QTextCursor::MoveAnchor); return; } } if (!(tif & Qt::TextEditable)) { switch (e->key()) { case Qt::Key_Space: e->accept(); if (e->modifiers() & Qt::ShiftModifier) d->vbar->triggerAction(QAbstractSlider::SliderPageStepSub); else d->vbar->triggerAction(QAbstractSlider::SliderPageStepAdd); break; default: d->sendControlEvent(e); if (!e->isAccepted() && e->modifiers() == Qt::NoModifier) { if (e->key() == Qt::Key_Home) { d->vbar->triggerAction(QAbstractSlider::SliderToMinimum); e->accept(); } else if (e->key() == Qt::Key_End) { d->vbar->triggerAction(QAbstractSlider::SliderToMaximum); e->accept(); } } if (!e->isAccepted()) { QAbstractScrollArea::keyPressEvent(e); } } return; } #endif // QT_NO_SHORTCUT d->sendControlEvent(e); #ifdef QT_KEYPAD_NAVIGATION if (!e->isAccepted()) { switch (e->key()) { case Qt::Key_Up: case Qt::Key_Down: if (QApplication::keypadNavigationEnabled()) { // Cursor position didn't change, so we want to leave // these keys to change focus. e->ignore(); return; } break; case Qt::Key_Left: case Qt::Key_Right: if (QApplication::keypadNavigationEnabled() && QApplication::navigationMode() == Qt::NavigationModeKeypadDirectional) { // Same as for Key_Up and Key_Down. e->ignore(); return; } break; case Qt::Key_Back: if (!e->isAutoRepeat()) { if (QApplication::keypadNavigationEnabled()) { if (document()->isEmpty()) { setEditFocus(false); e->accept(); } else if (!d->deleteAllTimer.isActive()) { e->accept(); d->deleteAllTimer.start(750, this); } } else { e->ignore(); return; } } break; default: break; } } #endif } /*! \reimp */ void QPlainTextEdit::keyReleaseEvent(QKeyEvent *e) { #ifdef QT_KEYPAD_NAVIGATION Q_D(QPlainTextEdit); if (QApplication::keypadNavigationEnabled()) { if (!e->isAutoRepeat() && e->key() == Qt::Key_Back && d->deleteAllTimer.isActive()) { d->deleteAllTimer.stop(); QTextCursor cursor = d->control->textCursor(); QTextBlockFormat blockFmt = cursor.blockFormat(); QTextList *list = cursor.currentList(); if (list && cursor.atBlockStart()) { list->remove(cursor.block()); } else if (cursor.atBlockStart() && blockFmt.indent() > 0) { blockFmt.setIndent(blockFmt.indent() - 1); cursor.setBlockFormat(blockFmt); } else { cursor.deletePreviousChar(); } setTextCursor(cursor); } } #else Q_UNUSED(e); #endif } /*! Loads the resource specified by the given \a type and \a name. This function is an extension of QTextDocument::loadResource(). \sa QTextDocument::loadResource() */ QVariant QPlainTextEdit::loadResource(int type, const QUrl &name) { Q_UNUSED(type); Q_UNUSED(name); return QVariant(); } /*! \reimp */ void QPlainTextEdit::resizeEvent(QResizeEvent *e) { Q_D(QPlainTextEdit); if (e->oldSize().width() != e->size().width()) d->relayoutDocument(); d->_q_adjustScrollbars(); } void QPlainTextEditPrivate::relayoutDocument() { QTextDocument *doc = control->document(); QPlainTextDocumentLayout *documentLayout = qobject_cast(doc->documentLayout()); Q_ASSERT(documentLayout); documentLayoutPtr = documentLayout; int width = viewport->width(); if (documentLayout->priv()->mainViewPrivate == 0 || documentLayout->priv()->mainViewPrivate == this || width > documentLayout->textWidth()) { documentLayout->priv()->mainViewPrivate = this; documentLayout->setTextWidth(width); } } static void fillBackground(QPainter *p, const QRectF &rect, QBrush brush, QRectF gradientRect = QRectF()) { p->save(); if (brush.style() >= Qt::LinearGradientPattern && brush.style() <= Qt::ConicalGradientPattern) { if (!gradientRect.isNull()) { QTransform m = QTransform::fromTranslate(gradientRect.left(), gradientRect.top()); m.scale(gradientRect.width(), gradientRect.height()); brush.setTransform(m); const_cast(brush.gradient())->setCoordinateMode(QGradient::LogicalMode); } } else { p->setBrushOrigin(rect.topLeft()); } p->fillRect(rect, brush); p->restore(); } /*! \reimp */ void QPlainTextEdit::paintEvent(QPaintEvent *e) { QPainter painter(viewport()); Q_ASSERT(qobject_cast(document()->documentLayout())); QPointF offset(contentOffset()); QRect er = e->rect(); QRect viewportRect = viewport()->rect(); bool editable = !isReadOnly(); QTextBlock block = firstVisibleBlock(); qreal maximumWidth = document()->documentLayout()->documentSize().width(); // Set a brush origin so that the WaveUnderline knows where the wave started painter.setBrushOrigin(offset); // keep right margin clean from full-width selection int maxX = offset.x() + qMax((qreal)viewportRect.width(), maximumWidth) - document()->documentMargin(); er.setRight(qMin(er.right(), maxX)); painter.setClipRect(er); QAbstractTextDocumentLayout::PaintContext context = getPaintContext(); while (block.isValid()) { QRectF r = blockBoundingRect(block).translated(offset); QTextLayout *layout = block.layout(); if (!block.isVisible()) { offset.ry() += r.height(); block = block.next(); continue; } if (r.bottom() >= er.top() && r.top() <= er.bottom()) { QTextBlockFormat blockFormat = block.blockFormat(); QBrush bg = blockFormat.background(); if (bg != Qt::NoBrush) { QRectF contentsRect = r; contentsRect.setWidth(qMax(r.width(), maximumWidth)); fillBackground(&painter, contentsRect, bg); } QVector selections; int blpos = block.position(); int bllen = block.length(); for (int i = 0; i < context.selections.size(); ++i) { const QAbstractTextDocumentLayout::Selection &range = context.selections.at(i); const int selStart = range.cursor.selectionStart() - blpos; const int selEnd = range.cursor.selectionEnd() - blpos; if (selStart < bllen && selEnd > 0 && selEnd > selStart) { QTextLayout::FormatRange o; o.start = selStart; o.length = selEnd - selStart; o.format = range.format; selections.append(o); } else if (!range.cursor.hasSelection() && range.format.hasProperty(QTextFormat::FullWidthSelection) && block.contains(range.cursor.position())) { // for full width selections we don't require an actual selection, just // a position to specify the line. that's more convenience in usage. QTextLayout::FormatRange o; QTextLine l = layout->lineForTextPosition(range.cursor.position() - blpos); o.start = l.textStart(); o.length = l.textLength(); if (o.start + o.length == bllen - 1) ++o.length; // include newline o.format = range.format; selections.append(o); } } bool drawCursor = ((editable || (textInteractionFlags() & Qt::TextSelectableByKeyboard)) && context.cursorPosition >= blpos && context.cursorPosition < blpos + bllen); bool drawCursorAsBlock = drawCursor && overwriteMode() ; if (drawCursorAsBlock) { if (context.cursorPosition == blpos + bllen - 1) { drawCursorAsBlock = false; } else { QTextLayout::FormatRange o; o.start = context.cursorPosition - blpos; o.length = 1; o.format.setForeground(palette().base()); o.format.setBackground(palette().text()); selections.append(o); } } layout->draw(&painter, offset, selections, er); if ((drawCursor && !drawCursorAsBlock) || (editable && context.cursorPosition < -1 && !layout->preeditAreaText().isEmpty())) { int cpos = context.cursorPosition; if (cpos < -1) cpos = layout->preeditAreaPosition() - (cpos + 2); else cpos -= blpos; layout->drawCursor(&painter, offset, cpos, cursorWidth()); } } offset.ry() += r.height(); if (offset.y() > viewportRect.height()) break; block = block.next(); } if (backgroundVisible() && !block.isValid() && offset.y() <= er.bottom() && (centerOnScroll() || verticalScrollBar()->maximum() == verticalScrollBar()->minimum())) { painter.fillRect(QRect(QPoint((int)er.left(), (int)offset.y()), er.bottomRight()), palette().background()); } } void QPlainTextEditPrivate::updateDefaultTextOption() { QTextDocument *doc = control->document(); QTextOption opt = doc->defaultTextOption(); QTextOption::WrapMode oldWrapMode = opt.wrapMode(); if (lineWrap == QPlainTextEdit::NoWrap) opt.setWrapMode(QTextOption::NoWrap); else opt.setWrapMode(wordWrap); if (opt.wrapMode() != oldWrapMode) doc->setDefaultTextOption(opt); } /*! \reimp */ void QPlainTextEdit::mousePressEvent(QMouseEvent *e) { Q_D(QPlainTextEdit); #ifdef QT_KEYPAD_NAVIGATION if (QApplication::keypadNavigationEnabled() && !hasEditFocus()) setEditFocus(true); #endif d->sendControlEvent(e); } /*! \reimp */ void QPlainTextEdit::mouseMoveEvent(QMouseEvent *e) { Q_D(QPlainTextEdit); d->inDrag = false; // paranoia const QPoint pos = e->pos(); d->sendControlEvent(e); if (!(e->buttons() & Qt::LeftButton)) return; QRect visible = d->viewport->rect(); if (visible.contains(pos)) d->autoScrollTimer.stop(); else if (!d->autoScrollTimer.isActive()) d->autoScrollTimer.start(100, this); } /*! \reimp */ void QPlainTextEdit::mouseReleaseEvent(QMouseEvent *e) { Q_D(QPlainTextEdit); d->sendControlEvent(e); if (d->autoScrollTimer.isActive()) { d->autoScrollTimer.stop(); d->ensureCursorVisible(); } if (!isReadOnly() && rect().contains(e->pos())) d->handleSoftwareInputPanel(e->button(), d->clickCausedFocus); d->clickCausedFocus = 0; } /*! \reimp */ void QPlainTextEdit::mouseDoubleClickEvent(QMouseEvent *e) { Q_D(QPlainTextEdit); d->sendControlEvent(e); } /*! \reimp */ bool QPlainTextEdit::focusNextPrevChild(bool next) { Q_D(const QPlainTextEdit); if (!d->tabChangesFocus && d->control->textInteractionFlags() & Qt::TextEditable) return false; return QAbstractScrollArea::focusNextPrevChild(next); } #ifndef QT_NO_CONTEXTMENU /*! \fn void QPlainTextEdit::contextMenuEvent(QContextMenuEvent *event) Shows the standard context menu created with createStandardContextMenu(). If you do not want the text edit to have a context menu, you can set its \l contextMenuPolicy to Qt::NoContextMenu. If you want to customize the context menu, reimplement this function. If you want to extend the standard context menu, reimplement this function, call createStandardContextMenu() and extend the menu returned. Information about the event is passed in the \a event object. \snippet doc/src/snippets/code/src_gui_widgets_qplaintextedit.cpp 0 */ void QPlainTextEdit::contextMenuEvent(QContextMenuEvent *e) { Q_D(QPlainTextEdit); d->sendControlEvent(e); } #endif // QT_NO_CONTEXTMENU #ifndef QT_NO_DRAGANDDROP /*! \reimp */ void QPlainTextEdit::dragEnterEvent(QDragEnterEvent *e) { Q_D(QPlainTextEdit); d->inDrag = true; d->sendControlEvent(e); } /*! \reimp */ void QPlainTextEdit::dragLeaveEvent(QDragLeaveEvent *e) { Q_D(QPlainTextEdit); d->inDrag = false; d->autoScrollTimer.stop(); d->sendControlEvent(e); } /*! \reimp */ void QPlainTextEdit::dragMoveEvent(QDragMoveEvent *e) { Q_D(QPlainTextEdit); d->autoScrollDragPos = e->pos(); if (!d->autoScrollTimer.isActive()) d->autoScrollTimer.start(100, this); d->sendControlEvent(e); } /*! \reimp */ void QPlainTextEdit::dropEvent(QDropEvent *e) { Q_D(QPlainTextEdit); d->inDrag = false; d->autoScrollTimer.stop(); d->sendControlEvent(e); } #endif // QT_NO_DRAGANDDROP /*! \reimp */ void QPlainTextEdit::inputMethodEvent(QInputMethodEvent *e) { Q_D(QPlainTextEdit); #ifdef QT_KEYPAD_NAVIGATION if (d->control->textInteractionFlags() & Qt::TextEditable && QApplication::keypadNavigationEnabled() && !hasEditFocus()) { setEditFocus(true); selectAll(); // so text is replaced rather than appended to } #endif d->sendControlEvent(e); ensureCursorVisible(); } /*!\reimp */ void QPlainTextEdit::scrollContentsBy(int dx, int /*dy*/) { Q_D(QPlainTextEdit); d->setTopLine(d->vbar->value(), dx); } /*!\reimp */ QVariant QPlainTextEdit::inputMethodQuery(Qt::InputMethodQuery property) const { Q_D(const QPlainTextEdit); QVariant v = d->control->inputMethodQuery(property); const QPoint offset(-d->horizontalOffset(), -0); if (v.type() == QVariant::RectF) v = v.toRectF().toRect().translated(offset); else if (v.type() == QVariant::PointF) v = v.toPointF().toPoint() + offset; else if (v.type() == QVariant::Rect) v = v.toRect().translated(offset); else if (v.type() == QVariant::Point) v = v.toPoint() + offset; return v; } /*! \reimp */ void QPlainTextEdit::focusInEvent(QFocusEvent *e) { Q_D(QPlainTextEdit); if (e->reason() == Qt::MouseFocusReason) { d->clickCausedFocus = 1; } QAbstractScrollArea::focusInEvent(e); d->sendControlEvent(e); } /*! \reimp */ void QPlainTextEdit::focusOutEvent(QFocusEvent *e) { Q_D(QPlainTextEdit); QAbstractScrollArea::focusOutEvent(e); d->sendControlEvent(e); } /*! \reimp */ void QPlainTextEdit::showEvent(QShowEvent *) { Q_D(QPlainTextEdit); if (d->showCursorOnInitialShow) { d->showCursorOnInitialShow = false; ensureCursorVisible(); } } /*! \reimp */ void QPlainTextEdit::changeEvent(QEvent *e) { Q_D(QPlainTextEdit); QAbstractScrollArea::changeEvent(e); if (e->type() == QEvent::ApplicationFontChange || e->type() == QEvent::FontChange) { d->control->document()->setDefaultFont(font()); } else if(e->type() == QEvent::ActivationChange) { if (!isActiveWindow()) d->autoScrollTimer.stop(); } else if (e->type() == QEvent::EnabledChange) { e->setAccepted(isEnabled()); d->sendControlEvent(e); } else if (e->type() == QEvent::PaletteChange) { d->control->setPalette(palette()); } else if (e->type() == QEvent::LayoutDirectionChange) { d->sendControlEvent(e); } } /*! \reimp */ #ifndef QT_NO_WHEELEVENT void QPlainTextEdit::wheelEvent(QWheelEvent *e) { QAbstractScrollArea::wheelEvent(e); updateMicroFocus(); } #endif #ifndef QT_NO_CONTEXTMENU /*! This function creates the standard context menu which is shown when the user clicks on the line edit with the right mouse button. It is called from the default contextMenuEvent() handler. The popup menu's ownership is transferred to the caller. */ QMenu *QPlainTextEdit::createStandardContextMenu() { Q_D(QPlainTextEdit); return d->control->createStandardContextMenu(QPointF(), this); } #endif // QT_NO_CONTEXTMENU /*! returns a QTextCursor at position \a pos (in viewport coordinates). */ QTextCursor QPlainTextEdit::cursorForPosition(const QPoint &pos) const { Q_D(const QPlainTextEdit); return d->control->cursorForPosition(d->mapToContents(pos)); } /*! returns a rectangle (in viewport coordinates) that includes the \a cursor. */ QRect QPlainTextEdit::cursorRect(const QTextCursor &cursor) const { Q_D(const QPlainTextEdit); if (cursor.isNull()) return QRect(); QRect r = d->control->cursorRect(cursor).toRect(); r.translate(-d->horizontalOffset(),-(int)d->verticalOffset()); return r; } /*! returns a rectangle (in viewport coordinates) that includes the cursor of the text edit. */ QRect QPlainTextEdit::cursorRect() const { Q_D(const QPlainTextEdit); QRect r = d->control->cursorRect().toRect(); r.translate(-d->horizontalOffset(),-(int)d->verticalOffset()); return r; } /*! \property QPlainTextEdit::overwriteMode \brief whether text entered by the user will overwrite existing text As with many text editors, the plain text editor widget can be configured to insert or overwrite existing text with new text entered by the user. If this property is true, existing text is overwritten, character-for-character by new text; otherwise, text is inserted at the cursor position, displacing existing text. By default, this property is false (new text does not overwrite existing text). */ bool QPlainTextEdit::overwriteMode() const { Q_D(const QPlainTextEdit); return d->control->overwriteMode(); } void QPlainTextEdit::setOverwriteMode(bool overwrite) { Q_D(QPlainTextEdit); d->control->setOverwriteMode(overwrite); } /*! \property QPlainTextEdit::tabStopWidth \brief the tab stop width in pixels By default, this property contains a value of 80. */ int QPlainTextEdit::tabStopWidth() const { Q_D(const QPlainTextEdit); return qRound(d->control->document()->defaultTextOption().tabStop()); } void QPlainTextEdit::setTabStopWidth(int width) { Q_D(QPlainTextEdit); QTextOption opt = d->control->document()->defaultTextOption(); if (opt.tabStop() == width || width < 0) return; opt.setTabStop(width); d->control->document()->setDefaultTextOption(opt); } /*! \property QPlainTextEdit::cursorWidth This property specifies the width of the cursor in pixels. The default value is 1. */ int QPlainTextEdit::cursorWidth() const { Q_D(const QPlainTextEdit); return d->control->cursorWidth(); } void QPlainTextEdit::setCursorWidth(int width) { Q_D(QPlainTextEdit); d->control->setCursorWidth(width); } /*! This function allows temporarily marking certain regions in the document with a given color, specified as \a selections. This can be useful for example in a programming editor to mark a whole line of text with a given background color to indicate the existence of a breakpoint. \sa QTextEdit::ExtraSelection, extraSelections() */ void QPlainTextEdit::setExtraSelections(const QList &selections) { Q_D(QPlainTextEdit); d->control->setExtraSelections(selections); } /*! Returns previously set extra selections. \sa setExtraSelections() */ QList QPlainTextEdit::extraSelections() const { Q_D(const QPlainTextEdit); return d->control->extraSelections(); } /*! This function returns a new MIME data object to represent the contents of the text edit's current selection. It is called when the selection needs to be encapsulated into a new QMimeData object; for example, when a drag and drop operation is started, or when data is copied to the clipboard. If you reimplement this function, note that the ownership of the returned QMimeData object is passed to the caller. The selection can be retrieved by using the textCursor() function. */ QMimeData *QPlainTextEdit::createMimeDataFromSelection() const { Q_D(const QPlainTextEdit); return d->control->QTextControl::createMimeDataFromSelection(); } /*! This function returns true if the contents of the MIME data object, specified by \a source, can be decoded and inserted into the document. It is called for example when during a drag operation the mouse enters this widget and it is necessary to determine whether it is possible to accept the drag. */ bool QPlainTextEdit::canInsertFromMimeData(const QMimeData *source) const { Q_D(const QPlainTextEdit); return d->control->QTextControl::canInsertFromMimeData(source); } /*! This function inserts the contents of the MIME data object, specified by \a source, into the text edit at the current cursor position. It is called whenever text is inserted as the result of a clipboard paste operation, or when the text edit accepts data from a drag and drop operation. */ void QPlainTextEdit::insertFromMimeData(const QMimeData *source) { Q_D(QPlainTextEdit); d->control->QTextControl::insertFromMimeData(source); } /*! \property QPlainTextEdit::readOnly \brief whether the text edit is read-only In a read-only text edit the user can only navigate through the text and select text; modifying the text is not possible. This property's default is false. */ bool QPlainTextEdit::isReadOnly() const { Q_D(const QPlainTextEdit); return !(d->control->textInteractionFlags() & Qt::TextEditable); } void QPlainTextEdit::setReadOnly(bool ro) { Q_D(QPlainTextEdit); Qt::TextInteractionFlags flags = Qt::NoTextInteraction; if (ro) { flags = Qt::TextSelectableByMouse; } else { flags = Qt::TextEditorInteraction; } setAttribute(Qt::WA_InputMethodEnabled, shouldEnableInputMethod(this)); d->control->setTextInteractionFlags(flags); } /*! \property QPlainTextEdit::textInteractionFlags Specifies how the label should interact with user input if it displays text. If the flags contain either Qt::LinksAccessibleByKeyboard or Qt::TextSelectableByKeyboard then the focus policy is also automatically set to Qt::ClickFocus. The default value depends on whether the QPlainTextEdit is read-only or editable. */ void QPlainTextEdit::setTextInteractionFlags(Qt::TextInteractionFlags flags) { Q_D(QPlainTextEdit); d->control->setTextInteractionFlags(flags); } Qt::TextInteractionFlags QPlainTextEdit::textInteractionFlags() const { Q_D(const QPlainTextEdit); return d->control->textInteractionFlags(); } /*! Merges the properties specified in \a modifier into the current character format by calling QTextCursor::mergeCharFormat on the editor's cursor. If the editor has a selection then the properties of \a modifier are directly applied to the selection. \sa QTextCursor::mergeCharFormat() */ void QPlainTextEdit::mergeCurrentCharFormat(const QTextCharFormat &modifier) { Q_D(QPlainTextEdit); d->control->mergeCurrentCharFormat(modifier); } /*! Sets the char format that is be used when inserting new text to \a format by calling QTextCursor::setCharFormat() on the editor's cursor. If the editor has a selection then the char format is directly applied to the selection. */ void QPlainTextEdit::setCurrentCharFormat(const QTextCharFormat &format) { Q_D(QPlainTextEdit); d->control->setCurrentCharFormat(format); } /*! Returns the char format that is used when inserting new text. */ QTextCharFormat QPlainTextEdit::currentCharFormat() const { Q_D(const QPlainTextEdit); return d->control->currentCharFormat(); } /*! Convenience slot that inserts \a text at the current cursor position. It is equivalent to \snippet doc/src/snippets/code/src_gui_widgets_qplaintextedit.cpp 1 */ void QPlainTextEdit::insertPlainText(const QString &text) { Q_D(QPlainTextEdit); d->control->insertPlainText(text); } /*! Moves the cursor by performing the given \a operation. If \a mode is QTextCursor::KeepAnchor, the cursor selects the text it moves over. This is the same effect that the user achieves when they hold down the Shift key and move the cursor with the cursor keys. \sa QTextCursor::movePosition() */ void QPlainTextEdit::moveCursor(QTextCursor::MoveOperation operation, QTextCursor::MoveMode mode) { Q_D(QPlainTextEdit); d->control->moveCursor(operation, mode); } /*! Returns whether text can be pasted from the clipboard into the textedit. */ bool QPlainTextEdit::canPaste() const { Q_D(const QPlainTextEdit); return d->control->canPaste(); } #ifndef QT_NO_PRINTER /*! Convenience function to print the text edit's document to the given \a printer. This is equivalent to calling the print method on the document directly except that this function also supports QPrinter::Selection as print range. \sa QTextDocument::print() */ void QPlainTextEdit::print(QPrinter *printer) const { Q_D(const QPlainTextEdit); d->control->print(printer); } #endif // QT _NO_PRINTER /*! \property QPlainTextEdit::tabChangesFocus \brief whether \gui Tab changes focus or is accepted as input In some occasions text edits should not allow the user to input tabulators or change indentation using the \gui Tab key, as this breaks the focus chain. The default is false. */ bool QPlainTextEdit::tabChangesFocus() const { Q_D(const QPlainTextEdit); return d->tabChangesFocus; } void QPlainTextEdit::setTabChangesFocus(bool b) { Q_D(QPlainTextEdit); d->tabChangesFocus = b; } /*! \property QPlainTextEdit::documentTitle \brief the title of the document parsed from the text. By default, this property contains an empty string. */ /*! \property QPlainTextEdit::lineWrapMode \brief the line wrap mode The default mode is WidgetWidth which causes words to be wrapped at the right edge of the text edit. Wrapping occurs at whitespace, keeping whole words intact. If you want wrapping to occur within words use setWordWrapMode(). */ QPlainTextEdit::LineWrapMode QPlainTextEdit::lineWrapMode() const { Q_D(const QPlainTextEdit); return d->lineWrap; } void QPlainTextEdit::setLineWrapMode(LineWrapMode wrap) { Q_D(QPlainTextEdit); if (d->lineWrap == wrap) return; d->lineWrap = wrap; d->updateDefaultTextOption(); d->relayoutDocument(); d->_q_adjustScrollbars(); ensureCursorVisible(); } /*! \property QPlainTextEdit::wordWrapMode \brief the mode QPlainTextEdit will use when wrapping text by words By default, this property is set to QTextOption::WrapAtWordBoundaryOrAnywhere. \sa QTextOption::WrapMode */ QTextOption::WrapMode QPlainTextEdit::wordWrapMode() const { Q_D(const QPlainTextEdit); return d->wordWrap; } void QPlainTextEdit::setWordWrapMode(QTextOption::WrapMode mode) { Q_D(QPlainTextEdit); if (mode == d->wordWrap) return; d->wordWrap = mode; d->updateDefaultTextOption(); } /*! \property QPlainTextEdit::backgroundVisible \brief whether the palette background is visible outside the document area If set to true, the plain text edit paints the palette background on the viewport area not covered by the text document. Otherwise, if set to false, it won't. The feature makes it possible for the user to visually distinguish between the area of the document, painted with the base color of the palette, and the empty area not covered by any document. The default is false. */ bool QPlainTextEdit::backgroundVisible() const { Q_D(const QPlainTextEdit); return d->backgroundVisible; } void QPlainTextEdit::setBackgroundVisible(bool visible) { Q_D(QPlainTextEdit); if (visible == d->backgroundVisible) return; d->backgroundVisible = visible; d->updateViewport(); } /*! \property QPlainTextEdit::centerOnScroll \brief whether the cursor should be centered on screen If set to true, the plain text edit scrolls the document vertically to make the cursor visible at the center of the viewport. This also allows the text edit to scroll below the end of the document. Otherwise, if set to false, the plain text edit scrolls the smallest amount possible to ensure the cursor is visible. The same algorithm is applied to any new line appended through appendPlainText(). The default is false. \sa centerCursor(), ensureCursorVisible() */ bool QPlainTextEdit::centerOnScroll() const { Q_D(const QPlainTextEdit); return d->centerOnScroll; } void QPlainTextEdit::setCenterOnScroll(bool enabled) { Q_D(QPlainTextEdit); if (enabled == d->centerOnScroll) return; d->centerOnScroll = enabled; } /*! Finds the next occurrence of the string, \a exp, using the given \a options. Returns true if \a exp was found and changes the cursor to select the match; otherwise returns false. */ bool QPlainTextEdit::find(const QString &exp, QTextDocument::FindFlags options) { Q_D(QPlainTextEdit); return d->control->find(exp, options); } /*! \fn void QPlainTextEdit::copyAvailable(bool yes) This signal is emitted when text is selected or de-selected in the text edit. When text is selected this signal will be emitted with \a yes set to true. If no text has been selected or if the selected text is de-selected this signal is emitted with \a yes set to false. If \a yes is true then copy() can be used to copy the selection to the clipboard. If \a yes is false then copy() does nothing. \sa selectionChanged() */ /*! \fn void QPlainTextEdit::selectionChanged() This signal is emitted whenever the selection changes. \sa copyAvailable() */ /*! \fn void QPlainTextEdit::cursorPositionChanged() This signal is emitted whenever the position of the cursor changed. */ /*! \fn void QPlainTextEdit::updateRequest(const QRect &rect, int dy) This signal is emitted when the text document needs an update of the specified \a rect. If the text is scrolled, \a rect will cover the entire viewport area. If the text is scrolled vertically, \a dy carries the amount of pixels the viewport was scrolled. The purpose of the signal is to support extra widgets in plain text edit subclasses that e.g. show line numbers, breakpoints, or other extra information. */ /*! \fn void QPlainTextEdit::blockCountChanged(int newBlockCount); This signal is emitted whenever the block count changes. The new block count is passed in \a newBlockCount. */ /*! \fn void QPlainTextEdit::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. */ void QPlainTextEditPrivate::append(const QString &text, Qt::TextFormat format) { Q_Q(QPlainTextEdit); QTextDocument *document = control->document(); QPlainTextDocumentLayout *documentLayout = qobject_cast(document->documentLayout()); Q_ASSERT(documentLayout); int maximumBlockCount = document->maximumBlockCount(); if (maximumBlockCount) document->setMaximumBlockCount(0); const bool atBottom = q->isVisible() && (control->blockBoundingRect(document->lastBlock()).bottom() - verticalOffset() <= viewport->rect().bottom()); if (!q->isVisible()) showCursorOnInitialShow = true; bool documentSizeChangedBlocked = documentLayout->priv()->blockDocumentSizeChanged; documentLayout->priv()->blockDocumentSizeChanged = true; if (format == Qt::RichText) control->appendHtml(text); else if (format == Qt::PlainText) control->appendPlainText(text); else control->append(text); if (maximumBlockCount > 0) { if (document->blockCount() > maximumBlockCount) { bool blockUpdate = false; if (control->topBlock) { control->topBlock--; blockUpdate = true; emit q->updateRequest(viewport->rect(), 0); } bool updatesBlocked = documentLayout->priv()->blockUpdate; documentLayout->priv()->blockUpdate = blockUpdate; QTextCursor cursor(document); cursor.movePosition(QTextCursor::NextBlock, QTextCursor::KeepAnchor); cursor.removeSelectedText(); documentLayout->priv()->blockUpdate = updatesBlocked; } document->setMaximumBlockCount(maximumBlockCount); } documentLayout->priv()->blockDocumentSizeChanged = documentSizeChangedBlocked; _q_adjustScrollbars(); if (atBottom) { const bool needScroll = !centerOnScroll || control->blockBoundingRect(document->lastBlock()).bottom() - verticalOffset() > viewport->rect().bottom(); if (needScroll) vbar->setValue(vbar->maximum()); } } /*! Appends a new paragraph with \a text to the end of the text edit. \sa appendHtml() */ void QPlainTextEdit::appendPlainText(const QString &text) { Q_D(QPlainTextEdit); d->append(text, Qt::PlainText); } /*! Appends a new paragraph with \a html to the end of the text edit. appendPlainText() */ void QPlainTextEdit::appendHtml(const QString &html) { Q_D(QPlainTextEdit); d->append(html, Qt::RichText); } void QPlainTextEditPrivate::ensureCursorVisible(bool center) { Q_Q(QPlainTextEdit); QRect visible = viewport->rect(); QRect cr = q->cursorRect(); if (cr.top() < visible.top() || cr.bottom() > visible.bottom()) { ensureVisible(control->textCursor().position(), center); } const bool rtl = q->isRightToLeft(); if (cr.left() < visible.left() || cr.right() > visible.right()) { int x = cr.center().x() + horizontalOffset() - visible.width()/2; hbar->setValue(rtl ? hbar->maximum() - x : x); } } /*! Ensures that the cursor is visible by scrolling the text edit if necessary. \sa centerCursor(), centerOnScroll */ void QPlainTextEdit::ensureCursorVisible() { Q_D(QPlainTextEdit); d->ensureCursorVisible(d->centerOnScroll); } /*! Scrolls the document in order to center the cursor vertically. \sa ensureCursorVisible(), centerOnScroll */ void QPlainTextEdit::centerCursor() { Q_D(QPlainTextEdit); d->ensureVisible(textCursor().position(), true, true); } /*! Returns the first visible block. \sa blockBoundingRect() */ QTextBlock QPlainTextEdit::firstVisibleBlock() const { Q_D(const QPlainTextEdit); return d->control->firstVisibleBlock(); } /*! Returns the content's origin in viewport coordinates. The origin of the content of a plain text edit is always the top left corner of the first visible text block. The content offset is different from (0,0) when the text has been scrolled horizontally, or when the first visible block has been scrolled partially off the screen, i.e. the visible text does not start with the first line of the first visible block, or when the first visible block is the very first block and the editor displays a margin. \sa firstVisibleBlock(), horizontalScrollBar(), verticalScrollBar() */ QPointF QPlainTextEdit::contentOffset() const { Q_D(const QPlainTextEdit); return QPointF(-d->horizontalOffset(), -d->verticalOffset()); } /*! Returns the bounding rectangle of the text \a block in content coordinates. Translate the rectangle with the contentOffset() to get visual coordinates on the viewport. \sa firstVisibleBlock(), blockBoundingRect() */ QRectF QPlainTextEdit::blockBoundingGeometry(const QTextBlock &block) const { Q_D(const QPlainTextEdit); return d->control->blockBoundingRect(block); } /*! Returns the bounding rectangle of the text \a block in the block's own coordinates. \sa blockBoundingGeometry() */ QRectF QPlainTextEdit::blockBoundingRect(const QTextBlock &block) const { QPlainTextDocumentLayout *documentLayout = qobject_cast(document()->documentLayout()); Q_ASSERT(documentLayout); return documentLayout->blockBoundingRect(block); } /*! \property QPlainTextEdit::blockCount \brief the number of text blocks in the document. By default, in an empty document, this property contains a value of 1. */ int QPlainTextEdit::blockCount() const { return document()->blockCount(); } /*! Returns the paint context for the viewport(), useful only when reimplementing paintEvent(). */ QAbstractTextDocumentLayout::PaintContext QPlainTextEdit::getPaintContext() const { Q_D(const QPlainTextEdit); return d->control->getPaintContext(d->viewport); } /*! \property QPlainTextEdit::maximumBlockCount \brief 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. */ /*! \fn void QPlainTextEdit::textChanged() This signal is emitted whenever the document's content changes; for example, when text is inserted or deleted, or when formatting is applied. */ /*! \fn void QPlainTextEdit::undoAvailable(bool available) This signal is emitted whenever undo operations become available (\a available is true) or unavailable (\a available is false). */ /*! \fn void QPlainTextEdit::redoAvailable(bool available) This signal is emitted whenever redo operations become available (\a available is true) or unavailable (\a available is false). */ QT_END_NAMESPACE #include "moc_qplaintextedit.cpp" #include "moc_qplaintextedit_p.cpp" #endif // QT_NO_TEXTEDIT