/* * Copyright (C) 2008 Apple 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. * 3. Neither the name of Apple Computer, Inc. ("Apple") nor the names of * its contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY APPLE AND ITS CONTRIBUTORS "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 OR ITS 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. */ #ifndef ProfileNode_h #define ProfileNode_h #include "CallIdentifier.h" #include <wtf/Vector.h> #include <wtf/RefCounted.h> #include <wtf/RefPtr.h> namespace JSC { class ProfileNode; typedef Vector<RefPtr<ProfileNode> >::const_iterator StackIterator; typedef HashCountedSet<UString::Rep*> FunctionCallHashCount; class ProfileNode : public RefCounted<ProfileNode> { public: static PassRefPtr<ProfileNode> create(const CallIdentifier& callIdentifier, ProfileNode* headNode, ProfileNode* parentNode) { return adoptRef(new ProfileNode(callIdentifier, headNode, parentNode)); } static PassRefPtr<ProfileNode> create(ProfileNode* headNode, ProfileNode* node) { return adoptRef(new ProfileNode(headNode, node)); } bool operator==(ProfileNode* node) { return m_callIdentifier == node->callIdentifier(); } ProfileNode* willExecute(const CallIdentifier&); ProfileNode* didExecute(); void stopProfiling(); // CallIdentifier members const CallIdentifier& callIdentifier() const { return m_callIdentifier; } const UString& functionName() const { return m_callIdentifier.m_name; } const UString& url() const { return m_callIdentifier.m_url; } unsigned lineNumber() const { return m_callIdentifier.m_lineNumber; } // Relationships ProfileNode* head() const { return m_head; } void setHead(ProfileNode* head) { m_head = head; } ProfileNode* parent() const { return m_parent; } void setParent(ProfileNode* parent) { m_parent = parent; } ProfileNode* nextSibling() const { return m_nextSibling; } void setNextSibling(ProfileNode* nextSibling) { m_nextSibling = nextSibling; } // Time members double startTime() const { return m_startTime; } void setStartTime(double startTime) { m_startTime = startTime; } double totalTime() const { return m_visibleTotalTime; } double actualTotalTime() const { return m_actualTotalTime; } void setTotalTime(double time) { m_actualTotalTime = time; m_visibleTotalTime = time; } void setActualTotalTime(double time) { m_actualTotalTime = time; } void setVisibleTotalTime(double time) { m_visibleTotalTime = time; } double selfTime() const { return m_visibleSelfTime; } double actualSelfTime() const { return m_actualSelfTime; } void setSelfTime(double time) {m_actualSelfTime = time; m_visibleSelfTime = time; } void setActualSelfTime(double time) { m_actualSelfTime = time; } void setVisibleSelfTime(double time) { m_visibleSelfTime = time; } double totalPercent() const { return (m_visibleTotalTime / (m_head ? m_head->totalTime() : totalTime())) * 100.0; } double selfPercent() const { return (m_visibleSelfTime / (m_head ? m_head->totalTime() : totalTime())) * 100.0; } unsigned numberOfCalls() const { return m_numberOfCalls; } void setNumberOfCalls(unsigned number) { m_numberOfCalls = number; } // Children members const Vector<RefPtr<ProfileNode> >& children() const { return m_children; } ProfileNode* firstChild() const { return m_children.size() ? m_children.first().get() : 0; } ProfileNode* lastChild() const { return m_children.size() ? m_children.last().get() : 0; } ProfileNode* findChild(ProfileNode*) const; void removeChild(ProfileNode*); void addChild(PassRefPtr<ProfileNode> prpChild); void insertNode(PassRefPtr<ProfileNode> prpNode); // Visiblity bool visible() const { return m_visible; } void setVisible(bool visible) { m_visible = visible; } static void setTreeVisible(ProfileNode*, bool visible); // Sorting ProfileNode* traverseNextNodePostOrder() const; ProfileNode* traverseNextNodePreOrder(bool processChildren = true) const; // Views void calculateVisibleTotalTime(); bool focus(const CallIdentifier&); void exclude(const CallIdentifier&); void restore(); void endAndRecordCall(); #ifndef NDEBUG const char* c_str() const { return m_callIdentifier; } void debugPrintData(int indentLevel) const; double debugPrintDataSampleStyle(int indentLevel, FunctionCallHashCount&) const; #endif private: ProfileNode(const CallIdentifier&, ProfileNode* headNode, ProfileNode* parentNode); ProfileNode(ProfileNode* headNode, ProfileNode* nodeToCopy); void startTimer(); void resetChildrensSiblings(); RefPtr<ProfileNode>* childrenBegin() { return m_children.begin(); } RefPtr<ProfileNode>* childrenEnd() { return m_children.end(); } // Sorting comparators static inline bool totalTimeDescendingComparator(const RefPtr<ProfileNode>& a, const RefPtr<ProfileNode>& b) { return a->totalTime() > b->totalTime(); } static inline bool totalTimeAscendingComparator(const RefPtr<ProfileNode>& a, const RefPtr<ProfileNode>& b) { return a->totalTime() < b->totalTime(); } static inline bool selfTimeDescendingComparator(const RefPtr<ProfileNode>& a, const RefPtr<ProfileNode>& b) { return a->selfTime() > b->selfTime(); } static inline bool selfTimeAscendingComparator(const RefPtr<ProfileNode>& a, const RefPtr<ProfileNode>& b) { return a->selfTime() < b->selfTime(); } static inline bool callsDescendingComparator(const RefPtr<ProfileNode>& a, const RefPtr<ProfileNode>& b) { return a->numberOfCalls() > b->numberOfCalls(); } static inline bool callsAscendingComparator(const RefPtr<ProfileNode>& a, const RefPtr<ProfileNode>& b) { return a->numberOfCalls() < b->numberOfCalls(); } static inline bool functionNameDescendingComparator(const RefPtr<ProfileNode>& a, const RefPtr<ProfileNode>& b) { return a->functionName() > b->functionName(); } static inline bool functionNameAscendingComparator(const RefPtr<ProfileNode>& a, const RefPtr<ProfileNode>& b) { return a->functionName() < b->functionName(); } CallIdentifier m_callIdentifier; ProfileNode* m_head; ProfileNode* m_parent; ProfileNode* m_nextSibling; double m_startTime; double m_actualTotalTime; double m_visibleTotalTime; double m_actualSelfTime; double m_visibleSelfTime; unsigned m_numberOfCalls; bool m_visible; Vector<RefPtr<ProfileNode> > m_children; }; } // namespace JSC #endif // ProfileNode_h