/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ // vim:cindent:ai:sw=4:ts=4:et: /* 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/. */ /* implementation of CSS counters (for numbering things) */ #include "nsCounterManager.h" #include "nsBulletFrame.h" // legacy location for list style type to text code #include "nsContentUtils.h" #include "nsTArray.h" #include "mozilla/Likely.h" #include "nsIContent.h" using namespace mozilla; bool nsCounterUseNode::InitTextFrame(nsGenConList* aList, nsIFrame* aPseudoFrame, nsIFrame* aTextFrame) { nsCounterNode::InitTextFrame(aList, aPseudoFrame, aTextFrame); nsCounterList *counterList = static_cast(aList); counterList->Insert(this); bool dirty = counterList->IsDirty(); if (!dirty) { if (counterList->IsLast(this)) { Calc(counterList); nsAutoString contentString; GetText(contentString); aTextFrame->GetContent()->SetText(contentString, false); } else { // In all other cases (list already dirty or node not at the end), // just start with an empty string for now and when we recalculate // the list we'll change the value to the right one. counterList->SetDirty(); return true; } } return false; } CounterStyle* nsCounterUseNode::GetCounterStyle() { if (!mCounterStyle) { const nsCSSValue& style = mCounterFunction->Item(mAllCounters ? 2 : 1); mCounterStyle = mPresContext->CounterStyleManager()-> BuildCounterStyle(nsDependentString(style.GetStringBufferValue())); } return mCounterStyle; } // assign the correct |mValueAfter| value to a node that has been inserted // Should be called immediately after calling |Insert|. void nsCounterUseNode::Calc(nsCounterList *aList) { NS_ASSERTION(!aList->IsDirty(), "Why are we calculating with a dirty list?"); mValueAfter = aList->ValueBefore(this); } // assign the correct |mValueAfter| value to a node that has been inserted // Should be called immediately after calling |Insert|. void nsCounterChangeNode::Calc(nsCounterList *aList) { NS_ASSERTION(!aList->IsDirty(), "Why are we calculating with a dirty list?"); if (mType == RESET) { mValueAfter = mChangeValue; } else { NS_ASSERTION(mType == INCREMENT, "invalid type"); mValueAfter = nsCounterManager::IncrementCounter(aList->ValueBefore(this), mChangeValue); } } // The text that should be displayed for this counter. void nsCounterUseNode::GetText(nsString& aResult) { aResult.Truncate(); nsAutoTArray stack; stack.AppendElement(static_cast(this)); if (mAllCounters && mScopeStart) for (nsCounterNode *n = mScopeStart; n->mScopePrev; n = n->mScopeStart) stack.AppendElement(n->mScopePrev); const char16_t* separator; if (mAllCounters) separator = mCounterFunction->Item(1).GetStringBufferValue(); CounterStyle* style = GetCounterStyle(); for (uint32_t i = stack.Length() - 1;; --i) { nsCounterNode *n = stack[i]; nsAutoString text; bool isTextRTL; style->GetCounterText(n->mValueAfter, text, isTextRTL); aResult.Append(text); if (i == 0) break; NS_ASSERTION(mAllCounters, "yikes, separator is uninitialized"); aResult.Append(separator); } } void nsCounterList::SetScope(nsCounterNode *aNode) { // This function is responsible for setting |mScopeStart| and // |mScopePrev| (whose purpose is described in nsCounterManager.h). // We do this by starting from the node immediately preceding // |aNode| in content tree order, which is reasonably likely to be // the previous element in our scope (or, for a reset, the previous // element in the containing scope, which is what we want). If // we're not in the same scope that it is, then it's too deep in the // frame tree, so we walk up parent scopes until we find something // appropriate. if (aNode == First()) { aNode->mScopeStart = nullptr; aNode->mScopePrev = nullptr; return; } // Get the content node for aNode's rendering object's *parent*, // since scope includes siblings, so we want a descendant check on // parents. nsIContent *nodeContent = aNode->mPseudoFrame->GetContent()->GetParent(); for (nsCounterNode *prev = Prev(aNode), *start; prev; prev = start->mScopePrev) { // If |prev| starts a scope (because it's a real or implied // reset), we want it as the scope start rather than the start // of its enclosing scope. Otherwise, there's no enclosing // scope, so the next thing in prev's scope shares its scope // start. start = (prev->mType == nsCounterNode::RESET || !prev->mScopeStart) ? prev : prev->mScopeStart; // |startContent| is analogous to |nodeContent| (see above). nsIContent *startContent = start->mPseudoFrame->GetContent()->GetParent(); NS_ASSERTION(nodeContent || !startContent, "null check on startContent should be sufficient to " "null check nodeContent as well, since if nodeContent " "is for the root, startContent (which is before it) " "must be too"); // A reset's outer scope can't be a scope created by a sibling. if (!(aNode->mType == nsCounterNode::RESET && nodeContent == startContent) && // everything is inside the root (except the case above, // a second reset on the root) (!startContent || nsContentUtils::ContentIsDescendantOf(nodeContent, startContent))) { aNode->mScopeStart = start; aNode->mScopePrev = prev; return; } } aNode->mScopeStart = nullptr; aNode->mScopePrev = nullptr; } void nsCounterList::RecalcAll() { mDirty = false; nsCounterNode *node = First(); if (!node) return; do { SetScope(node); node->Calc(this); if (node->mType == nsCounterNode::USE) { nsCounterUseNode *useNode = node->UseNode(); // Null-check mText, since if the frame constructor isn't // batching, we could end up here while the node is being // constructed. if (useNode->mText) { nsAutoString text; useNode->GetText(text); useNode->mText->SetData(text); } } } while ((node = Next(node)) != First()); } nsCounterManager::nsCounterManager() : mNames(16) { } bool nsCounterManager::AddCounterResetsAndIncrements(nsIFrame *aFrame) { const nsStyleContent *styleContent = aFrame->StyleContent(); if (!styleContent->CounterIncrementCount() && !styleContent->CounterResetCount()) return false; // Add in order, resets first, so all the comparisons will be optimized // for addition at the end of the list. int32_t i, i_end; bool dirty = false; for (i = 0, i_end = styleContent->CounterResetCount(); i != i_end; ++i) dirty |= AddResetOrIncrement(aFrame, i, styleContent->GetCounterResetAt(i), nsCounterChangeNode::RESET); for (i = 0, i_end = styleContent->CounterIncrementCount(); i != i_end; ++i) dirty |= AddResetOrIncrement(aFrame, i, styleContent->GetCounterIncrementAt(i), nsCounterChangeNode::INCREMENT); return dirty; } bool nsCounterManager::AddResetOrIncrement(nsIFrame *aFrame, int32_t aIndex, const nsStyleCounterData *aCounterData, nsCounterNode::Type aType) { nsCounterChangeNode *node = new nsCounterChangeNode(aFrame, aType, aCounterData->mValue, aIndex); nsCounterList *counterList = CounterListFor(aCounterData->mCounter); if (!counterList) { NS_NOTREACHED("CounterListFor failed (should only happen on OOM)"); return false; } counterList->Insert(node); if (!counterList->IsLast(node)) { // Tell the caller it's responsible for recalculating the entire // list. counterList->SetDirty(); return true; } // Don't call Calc() if the list is already dirty -- it'll be recalculated // anyway, and trying to calculate with a dirty list doesn't work. if (MOZ_LIKELY(!counterList->IsDirty())) { node->Calc(counterList); } return false; } nsCounterList* nsCounterManager::CounterListFor(const nsSubstring& aCounterName) { // XXX Why doesn't nsTHashtable provide an API that allows us to use // get/put in one hashtable lookup? nsCounterList *counterList; if (!mNames.Get(aCounterName, &counterList)) { counterList = new nsCounterList(); mNames.Put(aCounterName, counterList); } return counterList; } static PLDHashOperator RecalcDirtyLists(const nsAString& aKey, nsCounterList* aList, void* aClosure) { if (aList->IsDirty()) aList->RecalcAll(); return PL_DHASH_NEXT; } void nsCounterManager::RecalcAll() { mNames.EnumerateRead(RecalcDirtyLists, nullptr); } static PLDHashOperator SetCounterStylesDirty(const nsAString& aKey, nsCounterList* aList, void* aClosure) { nsCounterNode* first = aList->First(); if (first) { bool changed = false; nsCounterNode* node = first; do { if (node->mType == nsCounterNode::USE) { node->UseNode()->SetCounterStyleDirty(); changed = true; } } while ((node = aList->Next(node)) != first); if (changed) { aList->SetDirty(); } } return PL_DHASH_NEXT; } void nsCounterManager::SetAllCounterStylesDirty() { mNames.EnumerateRead(SetCounterStylesDirty, nullptr); } struct DestroyNodesData { DestroyNodesData(nsIFrame *aFrame) : mFrame(aFrame) , mDestroyedAny(false) { } nsIFrame *mFrame; bool mDestroyedAny; }; static PLDHashOperator DestroyNodesInList(const nsAString& aKey, nsCounterList* aList, void* aClosure) { DestroyNodesData *data = static_cast(aClosure); if (aList->DestroyNodesFor(data->mFrame)) { data->mDestroyedAny = true; aList->SetDirty(); } return PL_DHASH_NEXT; } bool nsCounterManager::DestroyNodesFor(nsIFrame *aFrame) { DestroyNodesData data(aFrame); mNames.EnumerateRead(DestroyNodesInList, &data); return data.mDestroyedAny; } #ifdef DEBUG static PLDHashOperator DumpList(const nsAString& aKey, nsCounterList* aList, void* aClosure) { printf("Counter named \"%s\":\n", NS_ConvertUTF16toUTF8(aKey).get()); nsCounterNode *node = aList->First(); if (node) { int32_t i = 0; do { const char *types[] = { "RESET", "INCREMENT", "USE" }; printf(" Node #%d @%p frame=%p index=%d type=%s valAfter=%d\n" " scope-start=%p scope-prev=%p", i++, (void*)node, (void*)node->mPseudoFrame, node->mContentIndex, types[node->mType], node->mValueAfter, (void*)node->mScopeStart, (void*)node->mScopePrev); if (node->mType == nsCounterNode::USE) { nsAutoString text; node->UseNode()->GetText(text); printf(" text=%s", NS_ConvertUTF16toUTF8(text).get()); } printf("\n"); } while ((node = aList->Next(node)) != aList->First()); } return PL_DHASH_NEXT; } void nsCounterManager::Dump() { printf("\n\nCounter Manager Lists:\n"); mNames.EnumerateRead(DumpList, nullptr); printf("\n\n"); } #endif