tenfourfox/dom/base/ChildIterator.cpp

/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim: set ts=8 sts=2 et sw=2 tw=80: */
/* This Source Code Form is subject to the terms of the Mozilla Public
 * License, v. 2.0. If a copy of the MPL was not distributed with this file,
 * You can obtain one at http://mozilla.org/MPL/2.0/. */

#include "ChildIterator.h"
#include "nsContentUtils.h"
#include "mozilla/dom/XBLChildrenElement.h"
#include "mozilla/dom/HTMLContentElement.h"
#include "mozilla/dom/HTMLShadowElement.h"
#include "mozilla/dom/ShadowRoot.h"
#include "nsIAnonymousContentCreator.h"
#include "nsIFrame.h"

namespace mozilla {
namespace dom {

class MatchedNodes {
public:
  explicit MatchedNodes(HTMLContentElement* aInsertionPoint)
    : mIsContentElement(true), mContentElement(aInsertionPoint) {}

  explicit MatchedNodes(XBLChildrenElement* aInsertionPoint)
    : mIsContentElement(false), mChildrenElement(aInsertionPoint) {}

  uint32_t Length() const
  {
    return mIsContentElement ? mContentElement->MatchedNodes().Length()
                             : mChildrenElement->InsertedChildrenLength();
  }

  nsIContent* operator[](int32_t aIndex) const
  {
    return mIsContentElement ? mContentElement->MatchedNodes()[aIndex]
                             : mChildrenElement->InsertedChild(aIndex);
  }

  bool IsEmpty() const
  {
    return mIsContentElement ? mContentElement->MatchedNodes().IsEmpty()
                             : !mChildrenElement->HasInsertedChildren();
  }
protected:
  bool mIsContentElement;
  union {
    HTMLContentElement* mContentElement;
    XBLChildrenElement* mChildrenElement;
  };
};

static inline MatchedNodes
GetMatchedNodesForPoint(nsIContent* aContent)
{
  if (aContent->NodeInfo()->Equals(nsGkAtoms::children, kNameSpaceID_XBL)) {
    // XBL case
    return MatchedNodes(static_cast<XBLChildrenElement*>(aContent));
  }

  // Web components case
  MOZ_ASSERT(aContent->IsHTMLElement(nsGkAtoms::content));
  return MatchedNodes(static_cast<HTMLContentElement*>(aContent));
}

nsIContent*
ExplicitChildIterator::GetNextChild()
{
  // If we're already in the inserted-children array, look there first
  if (mIndexInInserted) {
    MOZ_ASSERT(mChild);
    MOZ_ASSERT(nsContentUtils::IsContentInsertionPoint(mChild));
    MOZ_ASSERT(!mDefaultChild);

    MatchedNodes assignedChildren = GetMatchedNodesForPoint(mChild);
    if (mIndexInInserted < assignedChildren.Length()) {
      return assignedChildren[mIndexInInserted++];
    }
    mIndexInInserted = 0;
    mChild = mChild->GetNextSibling();
  } else if (mShadowIterator) {
    // If we're inside of a <shadow> element, look through the
    // explicit children of the projected ShadowRoot via
    // the mShadowIterator.
    nsIContent* nextChild = mShadowIterator->GetNextChild();
    if (nextChild) {
      return nextChild;
    }

    mShadowIterator = nullptr;
    mChild = mChild->GetNextSibling();
  } else if (mDefaultChild) {
    // If we're already in default content, check if there are more nodes there
    MOZ_ASSERT(mChild);
    MOZ_ASSERT(nsContentUtils::IsContentInsertionPoint(mChild));

    mDefaultChild = mDefaultChild->GetNextSibling();
    if (mDefaultChild) {
      return mDefaultChild;
    }

    mChild = mChild->GetNextSibling();
  } else if (mIsFirst) {  // at the beginning of the child list
    mChild = mParent->GetFirstChild();
    mIsFirst = false;
  } else if (mChild) { // in the middle of the child list
    mChild = mChild->GetNextSibling();
  }

  // Iterate until we find a non-insertion point, or an insertion point with
  // content.
  while (mChild) {
    // If the current child being iterated is a shadow insertion point then
    // the iterator needs to go into the projected ShadowRoot.
    if (ShadowRoot::IsShadowInsertionPoint(mChild)) {
      // Look for the next child in the projected ShadowRoot for the <shadow>
      // element.
      HTMLShadowElement* shadowElem = static_cast<HTMLShadowElement*>(mChild);
      ShadowRoot* projectedShadow = shadowElem->GetOlderShadowRoot();
      if (projectedShadow) {
        mShadowIterator = new ExplicitChildIterator(projectedShadow);
        nsIContent* nextChild = mShadowIterator->GetNextChild();
        if (nextChild) {
          return nextChild;
        }
        mShadowIterator = nullptr;
      }
      mChild = mChild->GetNextSibling();
    } else if (nsContentUtils::IsContentInsertionPoint(mChild)) {
      // If the current child being iterated is a content insertion point
      // then the iterator needs to return the nodes distributed into
      // the content insertion point.
      MatchedNodes assignedChildren = GetMatchedNodesForPoint(mChild);
      if (!assignedChildren.IsEmpty()) {
        // Iterate through elements projected on insertion point.
        mIndexInInserted = 1;
        return assignedChildren[0];
      }

      // Insertion points inside fallback/default content
      // are considered inactive and do not get assigned nodes.
      mDefaultChild = mChild->GetFirstChild();
      if (mDefaultChild) {
        return mDefaultChild;
      }

      // If we have an insertion point with no assigned nodes and
      // no default content, move on to the next node.
      mChild = mChild->GetNextSibling();
    } else {
      // mChild is not an insertion point, thus it is the next node to
      // return from this iterator.
      break;
    }
  }

  return mChild;
}

void
FlattenedChildIterator::Init(bool aIgnoreXBL)
{
  if (aIgnoreXBL) {
    return;
  }

  nsXBLBinding* binding =
    mParent->OwnerDoc()->BindingManager()->GetBindingWithContent(mParent);

  if (binding) {
    nsIContent* anon = binding->GetAnonymousContent();
    if (anon) {
      mParent = anon;
      mXBLInvolved = true;
    }
  }

  // We set mXBLInvolved to true if either:
  // - The node we're iterating has a binding with content attached to it.
  // - The node is generated XBL content and has an <xbl:children> child.
  if (!mXBLInvolved && mParent->GetBindingParent()) {
    for (nsIContent* child = mParent->GetFirstChild();
         child;
         child = child->GetNextSibling()) {
      if (child->NodeInfo()->Equals(nsGkAtoms::children, kNameSpaceID_XBL)) {
        MOZ_ASSERT(child->GetBindingParent());
        mXBLInvolved = true;
        break;
      }
    }
  }
}

void
ExplicitChildIterator::Seek(nsIContent* aChildToFind)
{
  if (aChildToFind->GetParent() == mParent &&
      !aChildToFind->IsRootOfAnonymousSubtree()) {
    // Fast path: just point ourselves to aChildToFind, which is a
    // normal DOM child of ours.
    MOZ_ASSERT(!ShadowRoot::IsShadowInsertionPoint(aChildToFind));
    MOZ_ASSERT(!nsContentUtils::IsContentInsertionPoint(aChildToFind));
    mChild = aChildToFind;
    mIndexInInserted = 0;
    mShadowIterator = nullptr;
    mDefaultChild = nullptr;
    mIsFirst = false;
    return;
  }

  // Can we add more fast paths here based on whether the parent of aChildToFind
  // is a shadow insertion point or content insertion point?

  // Slow path: just walk all our kids.
  Seek(aChildToFind, nullptr);
}

nsIContent*
ExplicitChildIterator::Get()
{
  MOZ_ASSERT(!mIsFirst);

  if (mIndexInInserted) {
    MatchedNodes assignedChildren = GetMatchedNodesForPoint(mChild);
    return assignedChildren[mIndexInInserted - 1];
  } else if (mShadowIterator)  {
    return mShadowIterator->Get();
  }
  return mDefaultChild ? mDefaultChild : mChild;
}

nsIContent*
ExplicitChildIterator::GetPreviousChild()
{
  // If we're already in the inserted-children array, look there first
  if (mIndexInInserted) {
    // NB: mIndexInInserted points one past the last returned child so we need
    // to look *two* indices back in order to return the previous child.
    MatchedNodes assignedChildren = GetMatchedNodesForPoint(mChild);
    if (--mIndexInInserted) {
      return assignedChildren[mIndexInInserted - 1];
    }
    mChild = mChild->GetPreviousSibling();
  } else if (mShadowIterator) {
    nsIContent* previousChild = mShadowIterator->GetPreviousChild();
    if (previousChild) {
      return previousChild;
    }
    mShadowIterator = nullptr;
    mChild = mChild->GetPreviousSibling();
  } else if (mDefaultChild) {
    // If we're already in default content, check if there are more nodes there
    mDefaultChild = mDefaultChild->GetPreviousSibling();
    if (mDefaultChild) {
      return mDefaultChild;
    }

    mChild = mChild->GetPreviousSibling();
  } else if (mIsFirst) { // at the beginning of the child list
    return nullptr;
  } else if (mChild) { // in the middle of the child list
    mChild = mChild->GetPreviousSibling();
  } else { // at the end of the child list
    mChild = mParent->GetLastChild();
  }

  // Iterate until we find a non-insertion point, or an insertion point with
  // content.
  while (mChild) {
    if (ShadowRoot::IsShadowInsertionPoint(mChild)) {
      // If the current child being iterated is a shadow insertion point then
      // the iterator needs to go into the projected ShadowRoot.
      HTMLShadowElement* shadowElem = static_cast<HTMLShadowElement*>(mChild);
      ShadowRoot* projectedShadow = shadowElem->GetOlderShadowRoot();
      if (projectedShadow) {
        // Create a ExplicitChildIterator that begins iterating from the end.
        mShadowIterator = new ExplicitChildIterator(projectedShadow, false);
        nsIContent* previousChild = mShadowIterator->GetPreviousChild();
        if (previousChild) {
          return previousChild;
        }
        mShadowIterator = nullptr;
      }
      mChild = mChild->GetPreviousSibling();
    } else if (nsContentUtils::IsContentInsertionPoint(mChild)) {
      // If the current child being iterated is a content insertion point
      // then the iterator needs to return the nodes distributed into
      // the content insertion point.
      MatchedNodes assignedChildren = GetMatchedNodesForPoint(mChild);
      if (!assignedChildren.IsEmpty()) {
        mIndexInInserted = assignedChildren.Length();
        return assignedChildren[mIndexInInserted - 1];
      }

      mDefaultChild = mChild->GetLastChild();
      if (mDefaultChild) {
        return mDefaultChild;
      }

      mChild = mChild->GetPreviousSibling();
    } else {
      // mChild is not an insertion point, thus it is the next node to
      // return from this iterator.
      break;
    }
  }

  if (!mChild) {
    mIsFirst = true;
  }

  return mChild;
}

nsIContent*
AllChildrenIterator::GetNextChild()
{
  if (mPhase == eNeedBeforeKid) {
    mPhase = eNeedExplicitKids;
    nsIFrame* frame = mOriginalContent->GetPrimaryFrame();
    if (frame) {
      nsIFrame* beforeFrame = nsLayoutUtils::GetBeforeFrame(frame);
      if (beforeFrame) {
        return beforeFrame->GetContent();
      }
    }
  }

  if (mPhase == eNeedExplicitKids) {
    nsIContent* kid = ExplicitChildIterator::GetNextChild();
    if (kid) {
      return kid;
    }

    mPhase = eNeedAnonKids;
  }

  if (mPhase == eNeedAnonKids) {
    if (mAnonKids.IsEmpty()) {
      nsIAnonymousContentCreator* ac =
        do_QueryFrame(mOriginalContent->GetPrimaryFrame());
      if (ac) {
        ac->AppendAnonymousContentTo(mAnonKids, mFlags);
      }
    }

    if (!mAnonKids.IsEmpty()) {
      nsIContent* nextKid = mAnonKids[0];
      mAnonKids.RemoveElementAt(0);
      if (mAnonKids.IsEmpty()) {
        mPhase = eNeedAfterKid;
      }

      return nextKid;
    }

    mPhase = eNeedAfterKid;
  }

  if (mPhase == eNeedAfterKid) {
    mPhase = eDone;
    nsIFrame* frame = mOriginalContent->GetPrimaryFrame();
    if (frame) {
      nsIFrame* afterFrame = nsLayoutUtils::GetAfterFrame(frame);
      if (afterFrame) {
        return afterFrame->GetContent();
      }
    }
  }

  return nullptr;
}

} // namespace dom
} // namespace mozilla