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ara-mdk / platform / external / webkit / cac0f67c402d107cdb10971b95719e2ff9c7c76b / . / WebCore / editing / VisibleSelection.cpp
blob: 206de863342746727f987c99515b88fbced4353c [file] [log] [blame]
/*
* Copyright (C) 2004, 2005, 2006 Apple Computer, Inc. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY APPLE COMPUTER, INC. ``AS IS'' AND ANY
* EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE COMPUTER, INC. OR
* CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
* EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
* PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
* PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY
* OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include "config.h"
#include "VisibleSelection.h"
#include "CharacterNames.h"
#include "CString.h"
#include "Document.h"
#include "Element.h"
#include "htmlediting.h"
#include "TextIterator.h"
#include "VisiblePosition.h"
#include "visible_units.h"
#include "Range.h"
#include <wtf/Assertions.h>
#include <stdio.h>
namespace WebCore {
VisibleSelection::VisibleSelection()
: m_affinity(DOWNSTREAM)
, m_granularity(CharacterGranularity)
, m_selectionType(NoSelection)
, m_baseIsFirst(true)
{
}
VisibleSelection::VisibleSelection(const Position& pos, EAffinity affinity)
: m_base(pos)
, m_extent(pos)
, m_affinity(affinity)
, m_granularity(CharacterGranularity)
{
validate();
}
VisibleSelection::VisibleSelection(const Position& base, const Position& extent, EAffinity affinity)
: m_base(base)
, m_extent(extent)
, m_affinity(affinity)
, m_granularity(CharacterGranularity)
{
validate();
}
VisibleSelection::VisibleSelection(const VisiblePosition& pos)
: m_base(pos.deepEquivalent())
, m_extent(pos.deepEquivalent())
, m_affinity(pos.affinity())
, m_granularity(CharacterGranularity)
{
validate();
}
VisibleSelection::VisibleSelection(const VisiblePosition& base, const VisiblePosition& extent)
: m_base(base.deepEquivalent())
, m_extent(extent.deepEquivalent())
, m_affinity(base.affinity())
, m_granularity(CharacterGranularity)
{
validate();
}
VisibleSelection::VisibleSelection(const Range* range, EAffinity affinity)
: m_base(range->startPosition())
, m_extent(range->endPosition())
, m_affinity(affinity)
, m_granularity(CharacterGranularity)
{
validate();
}
VisibleSelection VisibleSelection::selectionFromContentsOfNode(Node* node)
{
return VisibleSelection(firstDeepEditingPositionForNode(node), lastDeepEditingPositionForNode(node), DOWNSTREAM);
}
void VisibleSelection::setBase(const Position& position)
{
m_base = position;
validate();
}
void VisibleSelection::setBase(const VisiblePosition& visiblePosition)
{
m_base = visiblePosition.deepEquivalent();
validate();
}
void VisibleSelection::setExtent(const Position& position)
{
m_extent = position;
validate();
}
void VisibleSelection::setExtent(const VisiblePosition& visiblePosition)
{
m_extent = visiblePosition.deepEquivalent();
validate();
}
PassRefPtr<Range> VisibleSelection::firstRange() const
{
if (isNone())
return 0;
Position start = rangeCompliantEquivalent(m_start);
Position end = rangeCompliantEquivalent(m_end);
return Range::create(start.node()->document(), start, end);
}
PassRefPtr<Range> VisibleSelection::toNormalizedRange() const
{
if (isNone())
return 0;
// Make sure we have an updated layout since this function is called
// in the course of running edit commands which modify the DOM.
// Failing to call this can result in equivalentXXXPosition calls returning
// incorrect results.
m_start.node()->document()->updateLayout();
// Check again, because updating layout can clear the selection.
if (isNone())
return 0;
Position s, e;
if (isCaret()) {
// If the selection is a caret, move the range start upstream. This helps us match
// the conventions of text editors tested, which make style determinations based
// on the character before the caret, if any.
s = rangeCompliantEquivalent(m_start.upstream());
e = s;
} else {
// If the selection is a range, select the minimum range that encompasses the selection.
// Again, this is to match the conventions of text editors tested, which make style
// determinations based on the first character of the selection.
// For instance, this operation helps to make sure that the "X" selected below is the
// only thing selected. The range should not be allowed to "leak" out to the end of the
// previous text node, or to the beginning of the next text node, each of which has a
// different style.
//
// On a treasure map, <b>X</b> marks the spot.
// ^ selected
//
ASSERT(isRange());
s = m_start.downstream();
e = m_end.upstream();
if (comparePositions(s, e) > 0) {
// Make sure the start is before the end.
// The end can wind up before the start if collapsed whitespace is the only thing selected.
Position tmp = s;
s = e;
e = tmp;
}
s = rangeCompliantEquivalent(s);
e = rangeCompliantEquivalent(e);
}
// VisibleSelections are supposed to always be valid. This constructor will ASSERT
// if a valid range could not be created, which is fine for this callsite.
return Range::create(s.node()->document(), s, e);
}
bool VisibleSelection::expandUsingGranularity(TextGranularity granularity)
{
if (isNone())
return false;
m_granularity = granularity;
validate();
return true;
}
static PassRefPtr<Range> makeSearchRange(const Position& pos)
{
Node* n = pos.node();
if (!n)
return 0;
Document* d = n->document();
Node* de = d->documentElement();
if (!de)
return 0;
Node* boundary = n->enclosingBlockFlowElement();
if (!boundary)
return 0;
RefPtr<Range> searchRange(Range::create(d));
ExceptionCode ec = 0;
Position start(rangeCompliantEquivalent(pos));
searchRange->selectNodeContents(boundary, ec);
searchRange->setStart(start.node(), start.deprecatedEditingOffset(), ec);
ASSERT(!ec);
if (ec)
return 0;
return searchRange.release();
}
bool VisibleSelection::isAll(StayInEditableContent stayInEditableContent) const
{
return !shadowTreeRootNode() && visibleStart().previous(stayInEditableContent).isNull() && visibleEnd().next(stayInEditableContent).isNull();
}
void VisibleSelection::appendTrailingWhitespace()
{
RefPtr<Range> searchRange = makeSearchRange(m_end);
if (!searchRange)
return;
CharacterIterator charIt(searchRange.get(), true);
for (; charIt.length(); charIt.advance(1)) {
UChar c = charIt.characters()[0];
if (!isSpaceOrNewline(c) && c != noBreakSpace || c == '\n')
break;
m_end = charIt.range()->endPosition();
}
}
void VisibleSelection::setBaseAndExtentToDeepEquivalents()
{
// Move the selection to rendered positions, if possible.
bool baseAndExtentEqual = m_base == m_extent;
if (m_base.isNotNull()) {
m_base = VisiblePosition(m_base, m_affinity).deepEquivalent();
if (baseAndExtentEqual)
m_extent = m_base;
}
if (m_extent.isNotNull() && !baseAndExtentEqual)
m_extent = VisiblePosition(m_extent, m_affinity).deepEquivalent();
// Make sure we do not have a dangling base or extent.
if (m_base.isNull() && m_extent.isNull())
m_baseIsFirst = true;
else if (m_base.isNull()) {
m_base = m_extent;
m_baseIsFirst = true;
} else if (m_extent.isNull()) {
m_extent = m_base;
m_baseIsFirst = true;
} else
m_baseIsFirst = comparePositions(m_base, m_extent) <= 0;
}
void VisibleSelection::setStartAndEndFromBaseAndExtentRespectingGranularity()
{
if (m_baseIsFirst) {
m_start = m_base;
m_end = m_extent;
} else {
m_start = m_extent;
m_end = m_base;
}
switch (m_granularity) {
case CharacterGranularity:
// Don't do any expansion.
break;
case WordGranularity: {
// General case: Select the word the caret is positioned inside of, or at the start of (RightWordIfOnBoundary).
// Edge case: If the caret is after the last word in a soft-wrapped line or the last word in
// the document, select that last word (LeftWordIfOnBoundary).
// Edge case: If the caret is after the last word in a paragraph, select from the the end of the
// last word to the line break (also RightWordIfOnBoundary);
VisiblePosition start = VisiblePosition(m_start, m_affinity);
VisiblePosition originalEnd(m_end, m_affinity);
EWordSide side = RightWordIfOnBoundary;
if (isEndOfDocument(start) || (isEndOfLine(start) && !isStartOfLine(start) && !isEndOfParagraph(start)))
side = LeftWordIfOnBoundary;
m_start = startOfWord(start, side).deepEquivalent();
side = RightWordIfOnBoundary;
if (isEndOfDocument(originalEnd) || (isEndOfLine(originalEnd) && !isStartOfLine(originalEnd) && !isEndOfParagraph(originalEnd)))
side = LeftWordIfOnBoundary;
VisiblePosition wordEnd(endOfWord(originalEnd, side));
VisiblePosition end(wordEnd);
if (isEndOfParagraph(originalEnd)) {
// Select the paragraph break (the space from the end of a paragraph to the start of
// the next one) to match TextEdit.
end = wordEnd.next();
if (Node* table = isFirstPositionAfterTable(end)) {
// The paragraph break after the last paragraph in the last cell of a block table ends
// at the start of the paragraph after the table.
if (isBlock(table))
end = end.next(true);
else
end = wordEnd;
}
if (end.isNull())
end = wordEnd;
}
m_end = end.deepEquivalent();
break;
}
case SentenceGranularity: {
m_start = startOfSentence(VisiblePosition(m_start, m_affinity)).deepEquivalent();
m_end = endOfSentence(VisiblePosition(m_end, m_affinity)).deepEquivalent();
break;
}
case LineGranularity: {
m_start = startOfLine(VisiblePosition(m_start, m_affinity)).deepEquivalent();
VisiblePosition end = endOfLine(VisiblePosition(m_end, m_affinity));
// If the end of this line is at the end of a paragraph, include the space
// after the end of the line in the selection.
if (isEndOfParagraph(end)) {
VisiblePosition next = end.next();
if (next.isNotNull())
end = next;
}
m_end = end.deepEquivalent();
break;
}
case LineBoundary:
m_start = startOfLine(VisiblePosition(m_start, m_affinity)).deepEquivalent();
m_end = endOfLine(VisiblePosition(m_end, m_affinity)).deepEquivalent();
break;
case ParagraphGranularity: {
VisiblePosition pos(m_start, m_affinity);
if (isStartOfLine(pos) && isEndOfDocument(pos))
pos = pos.previous();
m_start = startOfParagraph(pos).deepEquivalent();
VisiblePosition visibleParagraphEnd = endOfParagraph(VisiblePosition(m_end, m_affinity));
// Include the "paragraph break" (the space from the end of this paragraph to the start
// of the next one) in the selection.
VisiblePosition end(visibleParagraphEnd.next());
if (Node* table = isFirstPositionAfterTable(end)) {
// The paragraph break after the last paragraph in the last cell of a block table ends
// at the start of the paragraph after the table, not at the position just after the table.
if (isBlock(table))
end = end.next(true);
// There is no parargraph break after the last paragraph in the last cell of an inline table.
else
end = visibleParagraphEnd;
}
if (end.isNull())
end = visibleParagraphEnd;
m_end = end.deepEquivalent();
break;
}
case DocumentBoundary:
m_start = startOfDocument(VisiblePosition(m_start, m_affinity)).deepEquivalent();
m_end = endOfDocument(VisiblePosition(m_end, m_affinity)).deepEquivalent();
break;
case ParagraphBoundary:
m_start = startOfParagraph(VisiblePosition(m_start, m_affinity)).deepEquivalent();
m_end = endOfParagraph(VisiblePosition(m_end, m_affinity)).deepEquivalent();
break;
case SentenceBoundary:
m_start = startOfSentence(VisiblePosition(m_start, m_affinity)).deepEquivalent();
m_end = endOfSentence(VisiblePosition(m_end, m_affinity)).deepEquivalent();
break;
}
// Make sure we do not have a dangling start or end.
if (m_start.isNull())
m_start = m_end;
if (m_end.isNull())
m_end = m_start;
}
void VisibleSelection::updateSelectionType()
{
if (m_start.isNull()) {
ASSERT(m_end.isNull());
m_selectionType = NoSelection;
} else if (m_start == m_end || m_start.upstream() == m_end.upstream()) {
m_selectionType = CaretSelection;
} else
m_selectionType = RangeSelection;
// Affinity only makes sense for a caret
if (m_selectionType != CaretSelection)
m_affinity = DOWNSTREAM;
}
void VisibleSelection::validate()
{
setBaseAndExtentToDeepEquivalents();
setStartAndEndFromBaseAndExtentRespectingGranularity();
adjustSelectionToAvoidCrossingEditingBoundaries();
updateSelectionType();
if (selectionType() == RangeSelection) {
// "Constrain" the selection to be the smallest equivalent range of nodes.
// This is a somewhat arbitrary choice, but experience shows that it is
// useful to make to make the selection "canonical" (if only for
// purposes of comparing selections). This is an ideal point of the code
// to do this operation, since all selection changes that result in a RANGE
// come through here before anyone uses it.
// FIXME: Canonicalizing is good, but haven't we already done it (when we
// set these two positions to VisiblePosition deepEquivalent()s above)?
m_start = m_start.downstream();
m_end = m_end.upstream();
}
}
// FIXME: This function breaks the invariant of this class.
// But because we use VisibleSelection to store values in editing commands for use when
// undoing the command, we need to be able to create a selection that while currently
// invalid, will be valid once the changes are undone. This is a design problem.
// To fix it we either need to change the invariants of VisibleSelection or create a new
// class for editing to use that can manipulate selections that are not currently valid.
void VisibleSelection::setWithoutValidation(const Position& base, const Position& extent)
{
ASSERT(!base.isNull());
ASSERT(!extent.isNull());
ASSERT(base != extent);
ASSERT(m_affinity == DOWNSTREAM);
ASSERT(m_granularity == CharacterGranularity);
m_base = base;
m_extent = extent;
m_baseIsFirst = comparePositions(base, extent) <= 0;
if (m_baseIsFirst) {
m_start = base;
m_end = extent;
} else {
m_start = extent;
m_end = base;
}
m_selectionType = RangeSelection;
}
void VisibleSelection::adjustSelectionToAvoidCrossingEditingBoundaries()
{
if (m_base.isNull() || m_start.isNull() || m_end.isNull())
return;
Node* baseRoot = highestEditableRoot(m_base);
Node* startRoot = highestEditableRoot(m_start);
Node* endRoot = highestEditableRoot(m_end);
Node* baseEditableAncestor = lowestEditableAncestor(m_base.node());
// The base, start and end are all in the same region. No adjustment necessary.
if (baseRoot == startRoot && baseRoot == endRoot)
return;
// The selection is based in editable content.
if (baseRoot) {
// If the start is outside the base's editable root, cap it at the start of that root.
// If the start is in non-editable content that is inside the base's editable root, put it
// at the first editable position after start inside the base's editable root.
if (startRoot != baseRoot) {
VisiblePosition first = firstEditablePositionAfterPositionInRoot(m_start, baseRoot);
m_start = first.deepEquivalent();
if (m_start.isNull()) {
ASSERT_NOT_REACHED();
m_start = m_end;
}
}
// If the end is outside the base's editable root, cap it at the end of that root.
// If the end is in non-editable content that is inside the base's root, put it
// at the last editable position before the end inside the base's root.
if (endRoot != baseRoot) {
VisiblePosition last = lastEditablePositionBeforePositionInRoot(m_end, baseRoot);
m_end = last.deepEquivalent();
if (m_end.isNull()) {
ASSERT_NOT_REACHED();
m_end = m_start;
}
}
// The selection is based in non-editable content.
} else {
// FIXME: Non-editable pieces inside editable content should be atomic, in the same way that editable
// pieces in non-editable content are atomic.
// The selection ends in editable content or non-editable content inside a different editable ancestor,
// move backward until non-editable content inside the same lowest editable ancestor is reached.
Node* endEditableAncestor = lowestEditableAncestor(m_end.node());
if (endRoot || endEditableAncestor != baseEditableAncestor) {
Position p = previousVisuallyDistinctCandidate(m_end);
Node* shadowAncestor = endRoot ? endRoot->shadowAncestorNode() : 0;
if (p.isNull() && endRoot && (shadowAncestor != endRoot))
p = lastDeepEditingPositionForNode(shadowAncestor);
while (p.isNotNull() && !(lowestEditableAncestor(p.node()) == baseEditableAncestor && !isEditablePosition(p))) {
Node* root = editableRootForPosition(p);
shadowAncestor = root ? root->shadowAncestorNode() : 0;
p = isAtomicNode(p.node()) ? positionInParentBeforeNode(p.node()) : previousVisuallyDistinctCandidate(p);
if (p.isNull() && (shadowAncestor != root))
p = lastDeepEditingPositionForNode(shadowAncestor);
}
VisiblePosition previous(p);
if (previous.isNull()) {
// The selection crosses an Editing boundary. This is a
// programmer error in the editing code. Happy debugging!
ASSERT_NOT_REACHED();
m_base = Position();
m_extent = Position();
validate();
return;
}
m_end = previous.deepEquivalent();
}
// The selection starts in editable content or non-editable content inside a different editable ancestor,
// move forward until non-editable content inside the same lowest editable ancestor is reached.
Node* startEditableAncestor = lowestEditableAncestor(m_start.node());
if (startRoot || startEditableAncestor != baseEditableAncestor) {
Position p = nextVisuallyDistinctCandidate(m_start);
Node* shadowAncestor = startRoot ? startRoot->shadowAncestorNode() : 0;
if (p.isNull() && startRoot && (shadowAncestor != startRoot))
p = Position(shadowAncestor, 0);
while (p.isNotNull() && !(lowestEditableAncestor(p.node()) == baseEditableAncestor && !isEditablePosition(p))) {
Node* root = editableRootForPosition(p);
shadowAncestor = root ? root->shadowAncestorNode() : 0;
p = isAtomicNode(p.node()) ? positionInParentAfterNode(p.node()) : nextVisuallyDistinctCandidate(p);
if (p.isNull() && (shadowAncestor != root))
p = Position(shadowAncestor, 0);
}
VisiblePosition next(p);
if (next.isNull()) {
// The selection crosses an Editing boundary. This is a
// programmer error in the editing code. Happy debugging!
ASSERT_NOT_REACHED();
m_base = Position();
m_extent = Position();
validate();
return;
}
m_start = next.deepEquivalent();
}
}
// Correct the extent if necessary.
if (baseEditableAncestor != lowestEditableAncestor(m_extent.node()))
m_extent = m_baseIsFirst ? m_end : m_start;
}
bool VisibleSelection::isContentEditable() const
{
return isEditablePosition(start());
}
bool VisibleSelection::isContentRichlyEditable() const
{
return isRichlyEditablePosition(start());
}
Element* VisibleSelection::rootEditableElement() const
{
return editableRootForPosition(start());
}
Node* VisibleSelection::shadowTreeRootNode() const
{
return start().node() ? start().node()->shadowTreeRootNode() : 0;
}
void VisibleSelection::debugPosition() const
{
if (!m_start.node())
return;
fprintf(stderr, "VisibleSelection =================\n");
if (m_start == m_end) {
Position pos = m_start;
fprintf(stderr, "pos: %s %p:%d\n", pos.node()->nodeName().utf8().data(), pos.node(), pos.deprecatedEditingOffset());
} else {
Position pos = m_start;
fprintf(stderr, "start: %s %p:%d\n", pos.node()->nodeName().utf8().data(), pos.node(), pos.deprecatedEditingOffset());
fprintf(stderr, "-----------------------------------\n");
pos = m_end;
fprintf(stderr, "end: %s %p:%d\n", pos.node()->nodeName().utf8().data(), pos.node(), pos.deprecatedEditingOffset());
fprintf(stderr, "-----------------------------------\n");
}
fprintf(stderr, "================================\n");
}
#ifndef NDEBUG
void VisibleSelection::formatForDebugger(char* buffer, unsigned length) const
{
String result;
String s;
if (isNone()) {
result = "<none>";
} else {
const int FormatBufferSize = 1024;
char s[FormatBufferSize];
result += "from ";
start().formatForDebugger(s, FormatBufferSize);
result += s;
result += " to ";
end().formatForDebugger(s, FormatBufferSize);
result += s;
}
strncpy(buffer, result.utf8().data(), length - 1);
}
void VisibleSelection::showTreeForThis() const
{
if (start().node()) {
start().node()->showTreeAndMark(start().node(), "S", end().node(), "E");
fprintf(stderr, "start offset: %d, end offset: %d\n", start().deprecatedEditingOffset(), end().deprecatedEditingOffset());
}
}
#endif
} // namespace WebCore
#ifndef NDEBUG
void showTree(const WebCore::VisibleSelection& sel)
{
sel.showTreeForThis();
}
void showTree(const WebCore::VisibleSelection* sel)
{
if (sel)
sel->showTreeForThis();
}
#endif