// // Copyright (c) 1990-2011, Scientific Toolworks, Inc. // // The License.txt file describes the conditions under which this software may be distributed. // // Author: Jason Haslam // // Additions Copyright (c) 2011 Archaeopteryx Software, Inc. d/b/a Wingware // ScintillaEditBase.cpp - Qt widget that wraps ScintillaQt and provides events and scrolling #include "ScintillaEditBase.h" #include "ScintillaQt.h" #include "PlatQt.h" #include #if QT_VERSION < QT_VERSION_CHECK(5, 0, 0) #include #endif #include #include #include #include #define INDIC_INPUTMETHOD 24 #define MAXLENINPUTIME 200 #define SC_INDICATOR_INPUT INDIC_IME #define SC_INDICATOR_TARGET INDIC_IME+1 #define SC_INDICATOR_CONVERTED INDIC_IME+2 #define SC_INDICATOR_UNKNOWN INDIC_IME_MAX // Q_WS_MAC and Q_WS_X11 aren't defined in Qt5 #if QT_VERSION >= QT_VERSION_CHECK(5, 0, 0) #ifdef Q_OS_MAC #define Q_WS_MAC 1 #endif #if !defined(Q_OS_MAC) && !defined(Q_OS_WIN) #define Q_WS_X11 1 #endif #endif // QT_VERSION >= 5.0.0 using namespace Scintilla; ScintillaEditBase::ScintillaEditBase(QWidget *parent) : QAbstractScrollArea(parent), sqt(0), preeditPos(-1), wheelDelta(0) { sqt = new ScintillaQt(this); time.start(); // Set Qt defaults. setAcceptDrops(true); setMouseTracking(true); setAutoFillBackground(false); setFrameStyle(QFrame::NoFrame); setFocusPolicy(Qt::StrongFocus); setAttribute(Qt::WA_StaticContents); viewport()->setAutoFillBackground(false); setAttribute(Qt::WA_KeyCompression); setAttribute(Qt::WA_InputMethodEnabled); sqt->vs.indicators[SC_INDICATOR_UNKNOWN] = Indicator(INDIC_HIDDEN, ColourDesired(0, 0, 0xff)); sqt->vs.indicators[SC_INDICATOR_INPUT] = Indicator(INDIC_DOTS, ColourDesired(0, 0, 0xff)); sqt->vs.indicators[SC_INDICATOR_CONVERTED] = Indicator(INDIC_COMPOSITIONTHICK, ColourDesired(0, 0, 0xff)); sqt->vs.indicators[SC_INDICATOR_TARGET] = Indicator(INDIC_STRAIGHTBOX, ColourDesired(0, 0, 0xff)); connect(sqt, SIGNAL(notifyParent(SCNotification)), this, SLOT(notifyParent(SCNotification))); // Connect scroll bars. connect(verticalScrollBar(), SIGNAL(valueChanged(int)), this, SLOT(scrollVertical(int))); connect(horizontalScrollBar(), SIGNAL(valueChanged(int)), this, SLOT(scrollHorizontal(int))); // Connect pass-through signals. connect(sqt, SIGNAL(horizontalRangeChanged(int,int)), this, SIGNAL(horizontalRangeChanged(int,int))); connect(sqt, SIGNAL(verticalRangeChanged(int,int)), this, SIGNAL(verticalRangeChanged(int,int))); connect(sqt, SIGNAL(horizontalScrolled(int)), this, SIGNAL(horizontalScrolled(int))); connect(sqt, SIGNAL(verticalScrolled(int)), this, SIGNAL(verticalScrolled(int))); connect(sqt, SIGNAL(notifyChange()), this, SIGNAL(notifyChange())); connect(sqt, SIGNAL(command(uptr_t, sptr_t)), this, SLOT(event_command(uptr_t, sptr_t))); connect(sqt, SIGNAL(aboutToCopy(QMimeData *)), this, SIGNAL(aboutToCopy(QMimeData *))); } ScintillaEditBase::~ScintillaEditBase() {} sptr_t ScintillaEditBase::send( unsigned int iMessage, uptr_t wParam, sptr_t lParam) const { return sqt->WndProc(iMessage, wParam, lParam); } sptr_t ScintillaEditBase::sends( unsigned int iMessage, uptr_t wParam, const char *s) const { return sqt->WndProc(iMessage, wParam, (sptr_t)s); } void ScintillaEditBase::scrollHorizontal(int value) { sqt->HorizontalScrollTo(value); } void ScintillaEditBase::scrollVertical(int value) { sqt->ScrollTo(value); } bool ScintillaEditBase::event(QEvent *event) { bool result = false; if (event->type() == QEvent::KeyPress) { // Circumvent the tab focus convention. keyPressEvent(static_cast(event)); result = event->isAccepted(); } else if (event->type() == QEvent::Show) { setMouseTracking(true); result = QAbstractScrollArea::event(event); } else if (event->type() == QEvent::Hide) { setMouseTracking(false); result = QAbstractScrollArea::event(event); } else { result = QAbstractScrollArea::event(event); } return result; } void ScintillaEditBase::paintEvent(QPaintEvent *event) { sqt->PartialPaint(PRectFromQRect(event->rect())); } void ScintillaEditBase::wheelEvent(QWheelEvent *event) { if (event->orientation() == Qt::Horizontal) { if (horizontalScrollBarPolicy() == Qt::ScrollBarAlwaysOff) event->ignore(); else QAbstractScrollArea::wheelEvent(event); } else { if (QApplication::keyboardModifiers() & Qt::ControlModifier) { // Zoom! We play with the font sizes in the styles. // Number of steps/line is ignored, we just care if sizing up or down if (event->delta() > 0) { sqt->KeyCommand(SCI_ZOOMIN); } else { sqt->KeyCommand(SCI_ZOOMOUT); } } else { // Ignore wheel events when the scroll bars are disabled. if (verticalScrollBarPolicy() == Qt::ScrollBarAlwaysOff) { event->ignore(); } else { // Scroll QAbstractScrollArea::wheelEvent(event); } } } } void ScintillaEditBase::focusInEvent(QFocusEvent *event) { sqt->SetFocusState(true); QAbstractScrollArea::focusInEvent(event); } void ScintillaEditBase::focusOutEvent(QFocusEvent *event) { sqt->SetFocusState(false); QAbstractScrollArea::focusOutEvent(event); } void ScintillaEditBase::resizeEvent(QResizeEvent *) { sqt->ChangeSize(); emit resized(); } void ScintillaEditBase::keyPressEvent(QKeyEvent *event) { // All keystrokes containing the meta modifier are // assumed to be shortcuts not handled by scintilla. if (QApplication::keyboardModifiers() & Qt::MetaModifier) { QAbstractScrollArea::keyPressEvent(event); emit keyPressed(event); return; } int key = 0; switch (event->key()) { case Qt::Key_Down: key = SCK_DOWN; break; case Qt::Key_Up: key = SCK_UP; break; case Qt::Key_Left: key = SCK_LEFT; break; case Qt::Key_Right: key = SCK_RIGHT; break; case Qt::Key_Home: key = SCK_HOME; break; case Qt::Key_End: key = SCK_END; break; case Qt::Key_PageUp: key = SCK_PRIOR; break; case Qt::Key_PageDown: key = SCK_NEXT; break; case Qt::Key_Delete: key = SCK_DELETE; break; case Qt::Key_Insert: key = SCK_INSERT; break; case Qt::Key_Escape: key = SCK_ESCAPE; break; case Qt::Key_Backspace: key = SCK_BACK; break; case Qt::Key_Plus: key = SCK_ADD; break; case Qt::Key_Minus: key = SCK_SUBTRACT; break; case Qt::Key_Backtab: // fall through case Qt::Key_Tab: key = SCK_TAB; break; case Qt::Key_Enter: // fall through case Qt::Key_Return: key = SCK_RETURN; break; case Qt::Key_Control: key = 0; break; case Qt::Key_Alt: key = 0; break; case Qt::Key_Shift: key = 0; break; case Qt::Key_Meta: key = 0; break; default: key = event->key(); break; } bool shift = QApplication::keyboardModifiers() & Qt::ShiftModifier; bool ctrl = QApplication::keyboardModifiers() & Qt::ControlModifier; bool alt = QApplication::keyboardModifiers() & Qt::AltModifier; bool consumed = false; bool added = sqt->KeyDownWithModifiers(key, ScintillaQt::ModifierFlags(shift, ctrl, alt), &consumed) != 0; if (!consumed) consumed = added; if (!consumed) { // Don't insert text if the control key was pressed unless // it was pressed in conjunction with alt for AltGr emulation. bool input = (!ctrl || alt); // Additionally, on non-mac platforms, don't insert text // if the alt key was pressed unless control is also present. // On mac alt can be used to insert special characters. #ifndef Q_WS_MAC input &= (!alt || ctrl); #endif QString text = event->text(); if (input && !text.isEmpty() && text[0].isPrint()) { QByteArray utext = sqt->BytesForDocument(text); sqt->AddCharUTF(utext.data(), utext.size()); } else { event->ignore(); } } emit keyPressed(event); } #ifdef Q_WS_X11 static int modifierTranslated(int sciModifier) { switch (sciModifier) { case SCMOD_SHIFT: return Qt::ShiftModifier; case SCMOD_CTRL: return Qt::ControlModifier; case SCMOD_ALT: return Qt::AltModifier; case SCMOD_SUPER: return Qt::MetaModifier; default: return 0; } } #endif void ScintillaEditBase::mousePressEvent(QMouseEvent *event) { Point pos = PointFromQPoint(event->pos()); emit buttonPressed(event); if (event->button() == Qt::MidButton && QApplication::clipboard()->supportsSelection()) { SelectionPosition selPos = sqt->SPositionFromLocation( pos, false, false, sqt->UserVirtualSpace()); sqt->sel.Clear(); sqt->SetSelection(selPos, selPos); sqt->PasteFromMode(QClipboard::Selection); return; } if (event->button() == Qt::LeftButton) { bool shift = QApplication::keyboardModifiers() & Qt::ShiftModifier; bool ctrl = QApplication::keyboardModifiers() & Qt::ControlModifier; #ifdef Q_WS_X11 // On X allow choice of rectangular modifier since most window // managers grab alt + click for moving windows. bool alt = QApplication::keyboardModifiers() & modifierTranslated(sqt->rectangularSelectionModifier); #else bool alt = QApplication::keyboardModifiers() & Qt::AltModifier; #endif sqt->ButtonDownWithModifiers(pos, time.elapsed(), ScintillaQt::ModifierFlags(shift, ctrl, alt)); } if (event->button() == Qt::RightButton) { sqt->RightButtonDownWithModifiers(pos, time.elapsed(), ModifiersOfKeyboard()); } } void ScintillaEditBase::mouseReleaseEvent(QMouseEvent *event) { Point point = PointFromQPoint(event->pos()); if (event->button() == Qt::LeftButton) sqt->ButtonUpWithModifiers(point, time.elapsed(), ModifiersOfKeyboard()); int pos = send(SCI_POSITIONFROMPOINT, point.x, point.y); int line = send(SCI_LINEFROMPOSITION, pos); int modifiers = QApplication::keyboardModifiers(); emit textAreaClicked(line, modifiers); emit buttonReleased(event); } void ScintillaEditBase::mouseDoubleClickEvent(QMouseEvent *event) { // Scintilla does its own double-click detection. mousePressEvent(event); } void ScintillaEditBase::mouseMoveEvent(QMouseEvent *event) { Point pos = PointFromQPoint(event->pos()); bool shift = QApplication::keyboardModifiers() & Qt::ShiftModifier; bool ctrl = QApplication::keyboardModifiers() & Qt::ControlModifier; #ifdef Q_WS_X11 // On X allow choice of rectangular modifier since most window // managers grab alt + click for moving windows. bool alt = QApplication::keyboardModifiers() & modifierTranslated(sqt->rectangularSelectionModifier); #else bool alt = QApplication::keyboardModifiers() & Qt::AltModifier; #endif const int modifiers = ScintillaQt::ModifierFlags(shift, ctrl, alt); sqt->ButtonMoveWithModifiers(pos, time.elapsed(), modifiers); } void ScintillaEditBase::contextMenuEvent(QContextMenuEvent *event) { Point pos = PointFromQPoint(event->globalPos()); Point pt = PointFromQPoint(event->pos()); if (!sqt->PointInSelection(pt)) { sqt->SetEmptySelection(sqt->PositionFromLocation(pt)); } if (sqt->ShouldDisplayPopup(pt)) { sqt->ContextMenu(pos); } } void ScintillaEditBase::dragEnterEvent(QDragEnterEvent *event) { if (event->mimeData()->hasUrls()) { event->acceptProposedAction(); } else if (event->mimeData()->hasText()) { event->acceptProposedAction(); Point point = PointFromQPoint(event->pos()); sqt->DragEnter(point); } else { event->ignore(); } } void ScintillaEditBase::dragLeaveEvent(QDragLeaveEvent * /* event */) { sqt->DragLeave(); } void ScintillaEditBase::dragMoveEvent(QDragMoveEvent *event) { if (event->mimeData()->hasUrls()) { event->acceptProposedAction(); } else if (event->mimeData()->hasText()) { event->acceptProposedAction(); Point point = PointFromQPoint(event->pos()); sqt->DragMove(point); } else { event->ignore(); } } void ScintillaEditBase::dropEvent(QDropEvent *event) { if (event->mimeData()->hasUrls()) { event->acceptProposedAction(); sqt->DropUrls(event->mimeData()); } else if (event->mimeData()->hasText()) { event->acceptProposedAction(); Point point = PointFromQPoint(event->pos()); bool move = (event->source() == this && event->proposedAction() == Qt::MoveAction); sqt->Drop(point, event->mimeData(), move); } else { event->ignore(); } } bool ScintillaEditBase::IsHangul(const QChar qchar) { int unicode = (int)qchar.unicode(); // Korean character ranges used for preedit chars. // http://www.programminginkorean.com/programming/hangul-in-unicode/ const bool HangulJamo = (0x1100 <= unicode && unicode <= 0x11FF); const bool HangulCompatibleJamo = (0x3130 <= unicode && unicode <= 0x318F); const bool HangulJamoExtendedA = (0xA960 <= unicode && unicode <= 0xA97F); const bool HangulJamoExtendedB = (0xD7B0 <= unicode && unicode <= 0xD7FF); const bool HangulSyllable = (0xAC00 <= unicode && unicode <= 0xD7A3); return HangulJamo || HangulCompatibleJamo || HangulSyllable || HangulJamoExtendedA || HangulJamoExtendedB; } void ScintillaEditBase::MoveImeCarets(int offset) { // Move carets relatively by bytes for (size_t r=0; r < sqt->sel.Count(); r++) { int positionInsert = sqt->sel.Range(r).Start().Position(); sqt->sel.Range(r).caret.SetPosition(positionInsert + offset); sqt->sel.Range(r).anchor.SetPosition(positionInsert + offset); } } void ScintillaEditBase::DrawImeIndicator(int indicator, int len) { // Emulate the visual style of IME characters with indicators. // Draw an indicator on the character before caret by the character bytes of len // so it should be called after AddCharUTF(). // It does not affect caret positions. if (indicator < 8 || indicator > INDIC_MAX) { return; } sqt->pdoc->DecorationSetCurrentIndicator(indicator); for (size_t r=0; r< sqt-> sel.Count(); r++) { int positionInsert = sqt->sel.Range(r).Start().Position(); sqt->pdoc->DecorationFillRange(positionInsert - len, 1, len); } } static int GetImeCaretPos(QInputMethodEvent *event) { foreach (QInputMethodEvent::Attribute attr, event->attributes()) { if (attr.type == QInputMethodEvent::Cursor) return attr.start; } return 0; } static std::vector MapImeIndicators(QInputMethodEvent *event) { std::vector imeIndicator(event->preeditString().size(), SC_INDICATOR_UNKNOWN); foreach (QInputMethodEvent::Attribute attr, event->attributes()) { if (attr.type == QInputMethodEvent::TextFormat) { QTextFormat format = attr.value.value(); QTextCharFormat charFormat = format.toCharFormat(); int indicator = SC_INDICATOR_UNKNOWN; switch (charFormat.underlineStyle()) { case QTextCharFormat::NoUnderline: // win32, linux indicator = SC_INDICATOR_TARGET; break; case QTextCharFormat::SingleUnderline: // osx case QTextCharFormat::DashUnderline: // win32, linux indicator = SC_INDICATOR_INPUT; break; case QTextCharFormat::DotLine: case QTextCharFormat::DashDotLine: case QTextCharFormat::WaveUnderline: case QTextCharFormat::SpellCheckUnderline: indicator = SC_INDICATOR_CONVERTED; break; default: indicator = SC_INDICATOR_UNKNOWN; } if (format.hasProperty(QTextFormat::BackgroundBrush)) // win32, linux indicator = SC_INDICATOR_TARGET; #ifdef Q_OS_OSX if (charFormat.underlineStyle() == QTextCharFormat::SingleUnderline) { QColor uc = charFormat.underlineColor(); if (uc.lightness() < 2) { // osx indicator = SC_INDICATOR_TARGET; } } #endif for (int i = attr.start; i < attr.start+attr.length; i++) { imeIndicator[i] = indicator; } } } return imeIndicator; } void ScintillaEditBase::inputMethodEvent(QInputMethodEvent *event) { // Copy & paste by johnsonj with a lot of helps of Neil // Great thanks for my forerunners, jiniya and BLUEnLIVE if (sqt->pdoc->IsReadOnly() || sqt->SelectionContainsProtected()) { // Here, a canceling and/or completing composition function is needed. return; } bool initialCompose = false; if (sqt->pdoc->TentativeActive()) { sqt->pdoc->TentativeUndo(); } else { // No tentative undo means start of this composition so // Fill in any virtual spaces. initialCompose = true; } sqt->view.imeCaretBlockOverride = false; if (!event->commitString().isEmpty()) { const QString commitStr = event->commitString(); const unsigned int commitStrLen = commitStr.length(); for (unsigned int i = 0; i < commitStrLen;) { const unsigned int ucWidth = commitStr.at(i).isHighSurrogate() ? 2 : 1; const QString oneCharUTF16 = commitStr.mid(i, ucWidth); const QByteArray oneChar = sqt->BytesForDocument(oneCharUTF16); const int oneCharLen = oneChar.length(); sqt->AddCharUTF(oneChar.data(), oneCharLen); i += ucWidth; } } else if (!event->preeditString().isEmpty()) { const QString preeditStr = event->preeditString(); const unsigned int preeditStrLen = preeditStr.length(); if ((preeditStrLen == 0) || (preeditStrLen > MAXLENINPUTIME)) { sqt->ShowCaretAtCurrentPosition(); return; } if (initialCompose) sqt->ClearBeforeTentativeStart(); sqt->pdoc->TentativeStart(); // TentativeActive() from now on. std::vector imeIndicator = MapImeIndicators(event); const bool recording = sqt->recordingMacro; sqt->recordingMacro = false; for (unsigned int i = 0; i < preeditStrLen;) { const unsigned int ucWidth = preeditStr.at(i).isHighSurrogate() ? 2 : 1; const QString oneCharUTF16 = preeditStr.mid(i, ucWidth); const QByteArray oneChar = sqt->BytesForDocument(oneCharUTF16); const int oneCharLen = oneChar.length(); sqt->AddCharUTF(oneChar.data(), oneCharLen); DrawImeIndicator(imeIndicator[i], oneCharLen); i += ucWidth; } sqt->recordingMacro = recording; // Move IME carets. int imeCaretPos = GetImeCaretPos(event); int imeEndToImeCaretU16 = imeCaretPos - preeditStrLen; int imeCaretPosDoc = sqt->pdoc->GetRelativePositionUTF16(sqt->CurrentPosition(), imeEndToImeCaretU16); MoveImeCarets(- sqt->CurrentPosition() + imeCaretPosDoc); if (IsHangul(preeditStr.at(0))) { #ifndef Q_OS_WIN if (imeCaretPos > 0) { int oneCharBefore = sqt->pdoc->GetRelativePosition(sqt->CurrentPosition(), -1); MoveImeCarets(- sqt->CurrentPosition() + oneCharBefore); } #endif sqt->view.imeCaretBlockOverride = true; } // Set candidate box position for Qt::ImMicroFocus. preeditPos = sqt->CurrentPosition(); sqt->EnsureCaretVisible(); updateMicroFocus(); } sqt->ShowCaretAtCurrentPosition(); } QVariant ScintillaEditBase::inputMethodQuery(Qt::InputMethodQuery query) const { int pos = send(SCI_GETCURRENTPOS); int line = send(SCI_LINEFROMPOSITION, pos); switch (query) { case Qt::ImMicroFocus: { int startPos = (preeditPos >= 0) ? preeditPos : pos; Point pt = sqt->LocationFromPosition(startPos); int width = send(SCI_GETCARETWIDTH); int height = send(SCI_TEXTHEIGHT, line); return QRect(pt.x, pt.y, width, height); } case Qt::ImFont: { char fontName[64]; int style = send(SCI_GETSTYLEAT, pos); int len = send(SCI_STYLEGETFONT, style, (sptr_t)fontName); int size = send(SCI_STYLEGETSIZE, style); bool italic = send(SCI_STYLEGETITALIC, style); int weight = send(SCI_STYLEGETBOLD, style) ? QFont::Bold : -1; return QFont(QString::fromUtf8(fontName, len), size, weight, italic); } case Qt::ImCursorPosition: { int paraStart = sqt->pdoc->ParaUp(pos); return pos - paraStart; } case Qt::ImSurroundingText: { int paraStart = sqt->pdoc->ParaUp(pos); int paraEnd = sqt->pdoc->ParaDown(pos); QVarLengthArray buffer(paraEnd - paraStart + 1); Sci_CharacterRange charRange; charRange.cpMin = paraStart; charRange.cpMax = paraEnd; Sci_TextRange textRange; textRange.chrg = charRange; textRange.lpstrText = buffer.data(); send(SCI_GETTEXTRANGE, 0, (sptr_t)&textRange); return sqt->StringFromDocument(buffer.constData()); } case Qt::ImCurrentSelection: { QVarLengthArray buffer(send(SCI_GETSELTEXT)); send(SCI_GETSELTEXT, 0, (sptr_t)buffer.data()); return sqt->StringFromDocument(buffer.constData()); } default: return QVariant(); } } void ScintillaEditBase::notifyParent(SCNotification scn) { emit notify(&scn); switch (scn.nmhdr.code) { case SCN_STYLENEEDED: emit styleNeeded(scn.position); break; case SCN_CHARADDED: emit charAdded(scn.ch); break; case SCN_SAVEPOINTREACHED: emit savePointChanged(false); break; case SCN_SAVEPOINTLEFT: emit savePointChanged(true); break; case SCN_MODIFYATTEMPTRO: emit modifyAttemptReadOnly(); break; case SCN_KEY: emit key(scn.ch); break; case SCN_DOUBLECLICK: emit doubleClick(scn.position, scn.line); break; case SCN_UPDATEUI: emit updateUi(scn.updated); break; case SCN_MODIFIED: { bool added = scn.modificationType & SC_MOD_INSERTTEXT; bool deleted = scn.modificationType & SC_MOD_DELETETEXT; int length = send(SCI_GETTEXTLENGTH); bool firstLineAdded = (added && length == 1) || (deleted && length == 0); if (scn.linesAdded != 0) { emit linesAdded(scn.linesAdded); } else if (firstLineAdded) { emit linesAdded(added ? 1 : -1); } const QByteArray bytes = QByteArray::fromRawData(scn.text, scn.length); emit modified(scn.modificationType, scn.position, scn.length, scn.linesAdded, bytes, scn.line, scn.foldLevelNow, scn.foldLevelPrev); break; } case SCN_MACRORECORD: emit macroRecord(scn.message, scn.wParam, scn.lParam); break; case SCN_MARGINCLICK: emit marginClicked(scn.position, scn.modifiers, scn.margin); break; case SCN_NEEDSHOWN: emit needShown(scn.position, scn.length); break; case SCN_PAINTED: emit painted(); break; case SCN_USERLISTSELECTION: emit userListSelection(); break; case SCN_URIDROPPED: emit uriDropped(QString::fromUtf8(scn.text)); break; case SCN_DWELLSTART: emit dwellStart(scn.x, scn.y); break; case SCN_DWELLEND: emit dwellEnd(scn.x, scn.y); break; case SCN_ZOOM: emit zoom(send(SCI_GETZOOM)); break; case SCN_HOTSPOTCLICK: emit hotSpotClick(scn.position, scn.modifiers); break; case SCN_HOTSPOTDOUBLECLICK: emit hotSpotDoubleClick(scn.position, scn.modifiers); break; case SCN_CALLTIPCLICK: emit callTipClick(); break; case SCN_AUTOCSELECTION: emit autoCompleteSelection(scn.lParam, QString::fromUtf8(scn.text)); break; case SCN_AUTOCCANCELLED: emit autoCompleteCancelled(); break; case SCN_FOCUSIN: emit focusChanged(true); break; case SCN_FOCUSOUT: emit focusChanged(false); break; default: return; } } void ScintillaEditBase::event_command(uptr_t wParam, sptr_t lParam) { emit command(wParam, lParam); } int ScintillaEditBase::ModifiersOfKeyboard() const { const bool shift = QApplication::keyboardModifiers() & Qt::ShiftModifier; const bool ctrl = QApplication::keyboardModifiers() & Qt::ControlModifier; const bool alt = QApplication::keyboardModifiers() & Qt::AltModifier; return ScintillaQt::ModifierFlags(shift, ctrl, alt); }