void InsertParagraphSeparatorCommand::doApply() { if (!endingSelection().isNonOrphanedCaretOrRange()) return; Position insertionPosition = endingSelection().start(); EAffinity affinity = endingSelection().affinity(); // Delete the current selection. if (endingSelection().isRange()) { calculateStyleBeforeInsertion(insertionPosition); deleteSelection(false, true); insertionPosition = endingSelection().start(); affinity = endingSelection().affinity(); } // FIXME: The parentAnchoredEquivalent conversion needs to be moved into enclosingBlock. RefPtr<Element> startBlock = enclosingBlock(insertionPosition.parentAnchoredEquivalent().containerNode()); Position canonicalPos = VisiblePosition(insertionPosition).deepEquivalent(); if (!startBlock || !startBlock->nonShadowBoundaryParentNode() // FIXME: If the node is hidden, we don't have a canonical position so we will do the wrong thing for tables and <hr>. https://bugs.webkit.org/show_bug.cgi?id=40342 || (!canonicalPos.isNull() && isRenderedTableElement(canonicalPos.deprecatedNode()))) { applyCommandToComposite(InsertLineBreakCommand::create(document())); return; } // Use the leftmost candidate. insertionPosition = insertionPosition.upstream(); if (!insertionPosition.isCandidate()) insertionPosition = insertionPosition.downstream(); // Adjust the insertion position after the delete insertionPosition = positionAvoidingSpecialElementBoundary(insertionPosition); VisiblePosition visiblePos(insertionPosition, affinity); calculateStyleBeforeInsertion(insertionPosition); //--------------------------------------------------------------------- // Handle special case of typing return on an empty list item if (breakOutOfEmptyListItem()) return; //--------------------------------------------------------------------- // Prepare for more general cases. bool isFirstInBlock = isStartOfBlock(visiblePos); bool isLastInBlock = isEndOfBlock(visiblePos); bool nestNewBlock = false; // Create block to be inserted. RefPtr<Element> blockToInsert = nullptr; if (startBlock->isRootEditableElement()) { blockToInsert = createDefaultParagraphElement(document()); nestNewBlock = true; } else if (shouldUseDefaultParagraphElement(startBlock.get())) { blockToInsert = createDefaultParagraphElement(document()); } else { blockToInsert = startBlock->cloneElementWithoutChildren(); } //--------------------------------------------------------------------- // Handle case when position is in the last visible position in its block, // including when the block is empty. if (isLastInBlock) { if (nestNewBlock) { if (isFirstInBlock && !lineBreakExistsAtVisiblePosition(visiblePos)) { // The block is empty. Create an empty block to // represent the paragraph that we're leaving. RefPtr<HTMLElement> extraBlock = createDefaultParagraphElement(document()); appendNode(extraBlock, startBlock); } appendNode(blockToInsert, startBlock); } else { // Most of the time we want to stay at the nesting level of the startBlock (e.g., when nesting within lists). However, // for div nodes, this can result in nested div tags that are hard to break out of. Element* siblingElement = startBlock.get(); insertNodeAfter(blockToInsert, siblingElement); } // Recreate the same structure in the new paragraph. Vector<RefPtr<Element> > ancestors; getAncestorsInsideBlock(positionOutsideTabSpan(insertionPosition).deprecatedNode(), startBlock.get(), ancestors); RefPtr<Element> parent = cloneHierarchyUnderNewBlock(ancestors, blockToInsert); setEndingSelection(VisibleSelection(firstPositionInNode(parent.get()), DOWNSTREAM, endingSelection().isDirectional())); return; } //--------------------------------------------------------------------- // Handle case when position is in the first visible position in its block, and // similar case where previous position is in another, presumeably nested, block. if (isFirstInBlock || !inSameBlock(visiblePos, visiblePos.previous())) { Node* refNode = 0; insertionPosition = positionOutsideTabSpan(insertionPosition); if (isFirstInBlock && !nestNewBlock) { refNode = startBlock.get(); } else if (isFirstInBlock && nestNewBlock) { // startBlock should always have children, otherwise isLastInBlock would be true and it's handled above. ASSERT(startBlock->hasChildren()); refNode = startBlock->firstChild(); } else if (insertionPosition.deprecatedNode() == startBlock && nestNewBlock) { refNode = NodeTraversal::childAt(*startBlock, insertionPosition.deprecatedEditingOffset()); ASSERT(refNode); // must be true or we'd be in the end of block case } else refNode = insertionPosition.deprecatedNode(); // find ending selection position easily before inserting the paragraph insertionPosition = insertionPosition.downstream(); if (refNode) insertNodeBefore(blockToInsert, refNode); // Recreate the same structure in the new paragraph. Vector<RefPtr<Element> > ancestors; getAncestorsInsideBlock(positionAvoidingSpecialElementBoundary(positionOutsideTabSpan(insertionPosition)).deprecatedNode(), startBlock.get(), ancestors); // In this case, we need to set the new ending selection. setEndingSelection(VisibleSelection(insertionPosition, DOWNSTREAM, endingSelection().isDirectional())); return; } //--------------------------------------------------------------------- // Handle the (more complicated) general case, // Move downstream. Typing style code will take care of carrying along the // style of the upstream position. insertionPosition = insertionPosition.downstream(); // At this point, the insertionPosition's node could be a container, and we want to make sure we include // all of the correct nodes when building the ancestor list. So this needs to be the deepest representation of the position // before we walk the DOM tree. insertionPosition = positionOutsideTabSpan(VisiblePosition(insertionPosition).deepEquivalent()); // If the returned position lies either at the end or at the start of an element that is ignored by editing // we should move to its upstream or downstream position. if (editingIgnoresContent(insertionPosition.deprecatedNode())) { if (insertionPosition.atLastEditingPositionForNode()) insertionPosition = insertionPosition.downstream(); else if (insertionPosition.atFirstEditingPositionForNode()) insertionPosition = insertionPosition.upstream(); } // Make sure we do not cause a rendered space to become unrendered. // FIXME: We need the affinity for pos, but pos.downstream() does not give it Position leadingWhitespace = leadingWhitespacePosition(insertionPosition, VP_DEFAULT_AFFINITY); // FIXME: leadingWhitespacePosition is returning the position before preserved newlines for positions // after the preserved newline, causing the newline to be turned into a nbsp. if (leadingWhitespace.isNotNull() && leadingWhitespace.deprecatedNode()->isTextNode()) { Text* textNode = toText(leadingWhitespace.deprecatedNode()); ASSERT(!textNode->renderer() || textNode->renderer()->style()->collapseWhiteSpace()); replaceTextInNodePreservingMarkers(textNode, leadingWhitespace.deprecatedEditingOffset(), 1, nonBreakingSpaceString()); } // Split at pos if in the middle of a text node. Position positionAfterSplit; if (insertionPosition.anchorType() == Position::PositionIsOffsetInAnchor && insertionPosition.containerNode()->isTextNode()) { RefPtr<Text> textNode = toText(insertionPosition.containerNode()); bool atEnd = static_cast<unsigned>(insertionPosition.offsetInContainerNode()) >= textNode->length(); if (insertionPosition.deprecatedEditingOffset() > 0 && !atEnd) { splitTextNode(textNode, insertionPosition.offsetInContainerNode()); positionAfterSplit = firstPositionInNode(textNode.get()); insertionPosition.moveToPosition(textNode->previousSibling(), insertionPosition.offsetInContainerNode()); visiblePos = VisiblePosition(insertionPosition); } } // If we got detached due to mutation events, just bail out. if (!startBlock->parentNode()) return; // Put the added block in the tree. if (nestNewBlock) { appendNode(blockToInsert.get(), startBlock); } else { insertNodeAfter(blockToInsert.get(), startBlock); } document().updateLayoutIgnorePendingStylesheets(); // Move the start node and the siblings of the start node. if (VisiblePosition(insertionPosition) != VisiblePosition(positionBeforeNode(blockToInsert.get()))) { Node* n; if (insertionPosition.containerNode() == startBlock) n = insertionPosition.computeNodeAfterPosition(); else { Node* splitTo = insertionPosition.containerNode(); if (splitTo->isTextNode() && insertionPosition.offsetInContainerNode() >= caretMaxOffset(splitTo)) splitTo = NodeTraversal::next(*splitTo, startBlock.get()); ASSERT(splitTo); splitTreeToNode(splitTo, startBlock.get()); for (n = startBlock->firstChild(); n; n = n->nextSibling()) { VisiblePosition beforeNodePosition(positionBeforeNode(n)); if (!beforeNodePosition.isNull() && comparePositions(VisiblePosition(insertionPosition), beforeNodePosition) <= 0) break; } } moveRemainingSiblingsToNewParent(n, blockToInsert.get(), blockToInsert); } // Handle whitespace that occurs after the split if (positionAfterSplit.isNotNull()) { document().updateLayoutIgnorePendingStylesheets(); if (!positionAfterSplit.isRenderedCharacter()) { // Clear out all whitespace and insert one non-breaking space ASSERT(!positionAfterSplit.containerNode()->renderer() || positionAfterSplit.containerNode()->renderer()->style()->collapseWhiteSpace()); deleteInsignificantTextDownstream(positionAfterSplit); if (positionAfterSplit.deprecatedNode()->isTextNode()) insertTextIntoNode(toText(positionAfterSplit.containerNode()), 0, nonBreakingSpaceString()); } } setEndingSelection(VisibleSelection(firstPositionInNode(blockToInsert.get()), DOWNSTREAM, endingSelection().isDirectional())); }
void TypingCommand::deleteKeyPressed(TextGranularity granularity) { Selection selectionToDelete; Selection selectionAfterUndo; switch (endingSelection().state()) { case Selection::RANGE: selectionToDelete = endingSelection(); selectionAfterUndo = selectionToDelete; break; case Selection::CARET: { m_smartDelete = false; SelectionController selection; selection.setSelection(endingSelection()); selection.modify(SelectionController::EXTEND, SelectionController::BACKWARD, granularity); // When the caret is at the start of the editable area in an empty list item, break out of the list item. if (endingSelection().visibleStart().previous(true).isNull()) { if (breakOutOfEmptyListItem()) { typingAddedToOpenCommand(); return; } } VisiblePosition visibleStart(endingSelection().visibleStart()); // If the caret is at the start of a paragraph after a table, move content into the last table cell. if (isStartOfParagraph(visibleStart) && isFirstPositionAfterTable(visibleStart.previous(true))) { // Unless the caret is just before a table. We don't want to move a table into the last table cell. if (isLastPositionBeforeTable(visibleStart)) return; // Extend the selection backward into the last cell, then deletion will handle the move. selection.modify(SelectionController::EXTEND, SelectionController::BACKWARD, granularity); // If the caret is just after a table, select the table and don't delete anything. } else if (Node* table = isFirstPositionAfterTable(visibleStart)) { setEndingSelection(Selection(Position(table, 0), endingSelection().start(), DOWNSTREAM)); typingAddedToOpenCommand(); return; } selectionToDelete = selection.selection(); if (!startingSelection().isRange() || selectionToDelete.base() != startingSelection().start()) selectionAfterUndo = selectionToDelete; else // It's a little tricky to compute what the starting selection would have been in the original document. // We can't let the Selection class's validation kick in or it'll adjust for us based on // the current state of the document and we'll get the wrong result. selectionAfterUndo.setWithoutValidation(startingSelection().end(), selectionToDelete.extent()); break; } case Selection::NONE: ASSERT_NOT_REACHED(); break; } if (selectionToDelete.isCaretOrRange() && document()->frame()->shouldDeleteSelection(selectionToDelete)) { // Make undo select everything that has been deleted, unless an undo will undo more than just this deletion. // FIXME: This behaves like TextEdit except for the case where you open with text insertion and then delete // more text than you insert. In that case all of the text that was around originally should be selected. if (m_openedByBackwardDelete) setStartingSelection(selectionAfterUndo); CompositeEditCommand::deleteSelection(selectionToDelete, m_smartDelete); setSmartDelete(false); typingAddedToOpenCommand(); } }