Index: third_party/WebKit/Source/core/layout/LayoutGeometryMap.cpp |
diff --git a/third_party/WebKit/Source/core/layout/LayoutGeometryMap.cpp b/third_party/WebKit/Source/core/layout/LayoutGeometryMap.cpp |
index ab429de87f595005d8594201c6ad534697b5ecd0..8679808c9d3f08262f881b59e8cfd26c101f8ae9 100644 |
--- a/third_party/WebKit/Source/core/layout/LayoutGeometryMap.cpp |
+++ b/third_party/WebKit/Source/core/layout/LayoutGeometryMap.cpp |
@@ -52,7 +52,8 @@ LayoutGeometryMap::~LayoutGeometryMap() {} |
void LayoutGeometryMap::mapToAncestor( |
TransformState& transformState, |
const LayoutBoxModelObject* ancestor) const { |
- // If the mapping includes something like columns, we have to go via layoutObjects. |
+ // If the mapping includes something like columns, we have to go via |
+ // layoutObjects. |
if (hasNonUniformStep()) { |
m_mapping.last().m_layoutObject->mapLocalToAncestor( |
ancestor, transformState, ApplyContainerFlip | m_mapCoordinatesFlags); |
@@ -69,7 +70,8 @@ void LayoutGeometryMap::mapToAncestor( |
for (int i = m_mapping.size() - 1; i >= 0; --i) { |
const LayoutGeometryMapStep& currentStep = m_mapping[i]; |
- // If container is the root LayoutView (step 0) we want to apply its fixed position offset. |
+ // If container is the root LayoutView (step 0) we want to apply its fixed |
+ // position offset. |
if (i > 0 && currentStep.m_layoutObject == ancestor) { |
#if ENABLE(ASSERT) |
foundAncestor = true; |
@@ -89,7 +91,8 @@ void LayoutGeometryMap::mapToAncestor( |
ASSERT(!i == isTopmostLayoutView(currentStep.m_layoutObject)); |
if (!i) { |
- // A null container indicates mapping through the root LayoutView, so including its transform (the page scale). |
+ // A null container indicates mapping through the root LayoutView, so |
+ // including its transform (the page scale). |
if (!ancestor && currentStep.m_transform) |
transformState.applyTransform(*currentStep.m_transform.get()); |
} else { |
@@ -159,7 +162,8 @@ FloatQuad LayoutGeometryMap::mapToAncestor( |
->localToAncestorQuad(rect, ancestor, m_mapCoordinatesFlags) |
.boundingBox(); |
- // Inspector creates layoutObjects with negative width <https://bugs.webkit.org/show_bug.cgi?id=87194>. |
+ // Inspector creates layoutObjects with negative width |
+ // <https://bugs.webkit.org/show_bug.cgi?id=87194>. |
// Taking FloatQuad bounds avoids spurious assertions because of that. |
ASSERT(enclosingIntRect(layoutObjectMappedResult) == |
enclosingIntRect(result.boundingBox()) || |
@@ -174,7 +178,8 @@ FloatQuad LayoutGeometryMap::mapToAncestor( |
void LayoutGeometryMap::pushMappingsToAncestor( |
const LayoutObject* layoutObject, |
const LayoutBoxModelObject* ancestorLayoutObject) { |
- // We need to push mappings in reverse order here, so do insertions rather than appends. |
+ // We need to push mappings in reverse order here, so do insertions rather |
+ // than appends. |
AutoReset<size_t> positionChange(&m_insertionPosition, m_mapping.size()); |
do { |
layoutObject = |
@@ -214,8 +219,8 @@ void LayoutGeometryMap::pushMappingsToAncestor( |
layer->layoutObject()->frame() != ancestorLayer->layoutObject()->frame(); |
ASSERT(!crossDocument || m_mapCoordinatesFlags & TraverseDocumentBoundaries); |
- // We have to visit all the layoutObjects to detect flipped blocks. This might defeat the gains |
- // from mapping via layers. |
+ // We have to visit all the layoutObjects to detect flipped blocks. This might |
+ // defeat the gains from mapping via layers. |
bool canConvertInLayerTree = |
(ancestorLayer && !crossDocument) |
? canMapBetweenLayoutObjects(layer->layoutObject(), |