// Copyright 2014 PDFium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. // Original code copyright 2014 Foxit Software Inc. http://www.foxitsoftware.com #include #include #include #include "core/fpdfapi/parser/cpdf_array.h" #include "core/fpdfapi/parser/cpdf_dictionary.h" #include "core/fpdfapi/parser/cpdf_document.h" #include "core/fpdfapi/parser/cpdf_name.h" #include "core/fpdfapi/parser/cpdf_number.h" #include "core/fpdfapi/parser/cpdf_reference.h" #include "core/fpdfapi/parser/cpdf_stream.h" #include "core/fpdfdoc/cpdf_numbertree.h" #include "core/fpdfdoc/fpdf_tagged.h" #include "core/fpdfdoc/tagged_int.h" #include "third_party/base/ptr_util.h" namespace { const int nMaxRecursion = 32; bool IsTagged(const CPDF_Document* pDoc) { CPDF_Dictionary* pCatalog = pDoc->GetRoot(); CPDF_Dictionary* pMarkInfo = pCatalog->GetDictFor("MarkInfo"); return pMarkInfo && pMarkInfo->GetIntegerFor("Marked"); } } // namespace CPDF_StructKid::CPDF_StructKid() : m_Type(Invalid), m_pDict(nullptr), m_PageObjNum(0), m_RefObjNum(0), m_ContentId(0) {} CPDF_StructKid::CPDF_StructKid(const CPDF_StructKid& that) = default; CPDF_StructKid::~CPDF_StructKid() {} // static std::unique_ptr IPDF_StructTree::LoadPage( const CPDF_Document* pDoc, const CPDF_Dictionary* pPageDict) { if (!IsTagged(pDoc)) return nullptr; auto pTree = pdfium::MakeUnique(pDoc); pTree->LoadPageTree(pPageDict); return std::move(pTree); } CPDF_StructTree::CPDF_StructTree(const CPDF_Document* pDoc) : m_pTreeRoot(pDoc->GetRoot()->GetDictFor("StructTreeRoot")), m_pRoleMap(m_pTreeRoot ? m_pTreeRoot->GetDictFor("RoleMap") : nullptr), m_pPage(nullptr) {} CPDF_StructTree::~CPDF_StructTree() {} int CPDF_StructTree::CountTopElements() const { return pdfium::CollectionSize(m_Kids); } IPDF_StructElement* CPDF_StructTree::GetTopElement(int i) const { return m_Kids[i].Get(); } void CPDF_StructTree::LoadPageTree(const CPDF_Dictionary* pPageDict) { m_pPage = pPageDict; if (!m_pTreeRoot) return; CPDF_Object* pKids = m_pTreeRoot->GetDirectObjectFor("K"); if (!pKids) return; uint32_t dwKids = 0; if (pKids->IsDictionary()) dwKids = 1; else if (CPDF_Array* pArray = pKids->AsArray()) dwKids = pArray->GetCount(); else return; m_Kids.clear(); m_Kids.resize(dwKids); CPDF_Dictionary* pParentTree = m_pTreeRoot->GetDictFor("ParentTree"); if (!pParentTree) return; CPDF_NumberTree parent_tree(pParentTree); int parents_id = pPageDict->GetIntegerFor("StructParents", -1); if (parents_id < 0) return; CPDF_Array* pParentArray = ToArray(parent_tree.LookupValue(parents_id)); if (!pParentArray) return; std::map> element_map; for (size_t i = 0; i < pParentArray->GetCount(); i++) { if (CPDF_Dictionary* pParent = pParentArray->GetDictAt(i)) AddPageNode(pParent, &element_map); } } CFX_RetainPtr CPDF_StructTree::AddPageNode( CPDF_Dictionary* pDict, std::map>* map, int nLevel) { if (nLevel > nMaxRecursion) return nullptr; auto it = map->find(pDict); if (it != map->end()) return it->second; auto pElement = pdfium::MakeRetain(this, nullptr, pDict); (*map)[pDict] = pElement; CPDF_Dictionary* pParent = pDict->GetDictFor("P"); if (!pParent || pParent->GetStringFor("Type") == "StructTreeRoot") { if (!AddTopLevelNode(pDict, pElement)) map->erase(pDict); return pElement; } CFX_RetainPtr pParentElement = AddPageNode(pParent, map, nLevel + 1); bool bSave = false; for (CPDF_StructKid& kid : *pParentElement->GetKids()) { if (kid.m_Type == CPDF_StructKid::Element && kid.m_pDict == pDict) { kid.m_pElement = pElement; bSave = true; } } if (!bSave) map->erase(pDict); return pElement; } bool CPDF_StructTree::AddTopLevelNode( CPDF_Dictionary* pDict, const CFX_RetainPtr& pElement) { CPDF_Object* pObj = m_pTreeRoot->GetDirectObjectFor("K"); if (!pObj) return false; if (pObj->IsDictionary()) { if (pObj->GetObjNum() != pDict->GetObjNum()) return false; m_Kids[0] = pElement; } if (CPDF_Array* pTopKids = pObj->AsArray()) { bool bSave = false; for (size_t i = 0; i < pTopKids->GetCount(); i++) { CPDF_Reference* pKidRef = ToReference(pTopKids->GetObjectAt(i)); if (pKidRef && pKidRef->GetRefObjNum() == pDict->GetObjNum()) { m_Kids[i] = pElement; bSave = true; } } if (!bSave) return false; } return true; } CPDF_StructElement::CPDF_StructElement(CPDF_StructTree* pTree, CPDF_StructElement* pParent, CPDF_Dictionary* pDict) : m_pTree(pTree), m_pParent(pParent), m_pDict(pDict), m_Type(pDict->GetStringFor("S")) { if (pTree->m_pRoleMap) { CFX_ByteString mapped = pTree->m_pRoleMap->GetStringFor(m_Type); if (!mapped.IsEmpty()) m_Type = mapped; } LoadKids(pDict); } IPDF_StructTree* CPDF_StructElement::GetTree() const { return m_pTree; } const CFX_ByteString& CPDF_StructElement::GetType() const { return m_Type; } IPDF_StructElement* CPDF_StructElement::GetParent() const { return m_pParent; } CPDF_Dictionary* CPDF_StructElement::GetDict() const { return m_pDict; } int CPDF_StructElement::CountKids() const { return pdfium::CollectionSize(m_Kids); } IPDF_StructElement* CPDF_StructElement::GetKidIfElement(int index) const { if (m_Kids[index].m_Type != CPDF_StructKid::Element) return nullptr; return m_Kids[index].m_pElement.Get(); } CPDF_StructElement::~CPDF_StructElement() {} void CPDF_StructElement::LoadKids(CPDF_Dictionary* pDict) { CPDF_Object* pObj = pDict->GetObjectFor("Pg"); uint32_t PageObjNum = 0; if (CPDF_Reference* pRef = ToReference(pObj)) PageObjNum = pRef->GetRefObjNum(); CPDF_Object* pKids = pDict->GetDirectObjectFor("K"); if (!pKids) return; m_Kids.clear(); if (CPDF_Array* pArray = pKids->AsArray()) { m_Kids.resize(pArray->GetCount()); for (uint32_t i = 0; i < pArray->GetCount(); i++) { CPDF_Object* pKid = pArray->GetDirectObjectAt(i); LoadKid(PageObjNum, pKid, &m_Kids[i]); } } else { m_Kids.resize(1); LoadKid(PageObjNum, pKids, &m_Kids[0]); } } void CPDF_StructElement::LoadKid(uint32_t PageObjNum, CPDF_Object* pKidObj, CPDF_StructKid* pKid) { pKid->m_Type = CPDF_StructKid::Invalid; if (!pKidObj) return; if (pKidObj->IsNumber()) { if (m_pTree->m_pPage && m_pTree->m_pPage->GetObjNum() != PageObjNum) { return; } pKid->m_Type = CPDF_StructKid::PageContent; pKid->m_ContentId = pKidObj->GetInteger(); pKid->m_PageObjNum = PageObjNum; return; } CPDF_Dictionary* pKidDict = pKidObj->AsDictionary(); if (!pKidDict) return; if (CPDF_Reference* pRef = ToReference(pKidDict->GetObjectFor("Pg"))) PageObjNum = pRef->GetRefObjNum(); CFX_ByteString type = pKidDict->GetStringFor("Type"); if (type == "MCR") { if (m_pTree->m_pPage && m_pTree->m_pPage->GetObjNum() != PageObjNum) { return; } pKid->m_Type = CPDF_StructKid::StreamContent; CPDF_Reference* pRef = ToReference(pKidDict->GetObjectFor("Stm")); pKid->m_RefObjNum = pRef ? pRef->GetRefObjNum() : 0; pKid->m_PageObjNum = PageObjNum; pKid->m_ContentId = pKidDict->GetIntegerFor("MCID"); } else if (type == "OBJR") { if (m_pTree->m_pPage && m_pTree->m_pPage->GetObjNum() != PageObjNum) { return; } pKid->m_Type = CPDF_StructKid::Object; CPDF_Reference* pObj = ToReference(pKidDict->GetObjectFor("Obj")); pKid->m_RefObjNum = pObj ? pObj->GetRefObjNum() : 0; pKid->m_PageObjNum = PageObjNum; } else { pKid->m_Type = CPDF_StructKid::Element; pKid->m_pDict = pKidDict; if (!m_pTree->m_pPage) { pKid->m_pElement = pdfium::MakeRetain(m_pTree, this, pKidDict); } else { pKid->m_pElement = nullptr; } } } static CPDF_Dictionary* FindAttrDict(CPDF_Object* pAttrs, const CFX_ByteStringC& owner, FX_FLOAT nLevel = 0.0F) { if (nLevel > nMaxRecursion) return nullptr; if (!pAttrs) return nullptr; CPDF_Dictionary* pDict = nullptr; if (pAttrs->IsDictionary()) { pDict = pAttrs->AsDictionary(); } else if (CPDF_Stream* pStream = pAttrs->AsStream()) { pDict = pStream->GetDict(); } else if (CPDF_Array* pArray = pAttrs->AsArray()) { for (uint32_t i = 0; i < pArray->GetCount(); i++) { CPDF_Object* pElement = pArray->GetDirectObjectAt(i); pDict = FindAttrDict(pElement, owner, nLevel + 1); if (pDict) return pDict; } } if (pDict && pDict->GetStringFor("O") == owner) return pDict; return nullptr; } CPDF_Object* CPDF_StructElement::GetAttr(const CFX_ByteStringC& owner, const CFX_ByteStringC& name, bool bInheritable, FX_FLOAT fLevel) { if (fLevel > nMaxRecursion) { return nullptr; } if (bInheritable) { CPDF_Object* pAttr = GetAttr(owner, name, false); if (pAttr) { return pAttr; } if (!m_pParent) { return nullptr; } return m_pParent->GetAttr(owner, name, true, fLevel + 1); } CPDF_Object* pA = m_pDict->GetDirectObjectFor("A"); if (pA) { CPDF_Dictionary* pAttrDict = FindAttrDict(pA, owner); if (pAttrDict) { CPDF_Object* pAttr = pAttrDict->GetDirectObjectFor(CFX_ByteString(name)); if (pAttr) { return pAttr; } } } CPDF_Object* pC = m_pDict->GetDirectObjectFor("C"); if (!pC) return nullptr; CPDF_Dictionary* pClassMap = m_pTree->m_pTreeRoot->GetDictFor("ClassMap"); if (!pClassMap) return nullptr; if (CPDF_Array* pArray = pC->AsArray()) { for (uint32_t i = 0; i < pArray->GetCount(); i++) { CFX_ByteString class_name = pArray->GetStringAt(i); CPDF_Dictionary* pClassDict = pClassMap->GetDictFor(class_name); if (pClassDict && pClassDict->GetStringFor("O") == owner) return pClassDict->GetDirectObjectFor(CFX_ByteString(name)); } return nullptr; } CFX_ByteString class_name = pC->GetString(); CPDF_Dictionary* pClassDict = pClassMap->GetDictFor(class_name); if (pClassDict && pClassDict->GetStringFor("O") == owner) return pClassDict->GetDirectObjectFor(CFX_ByteString(name)); return nullptr; } CPDF_Object* CPDF_StructElement::GetAttr(const CFX_ByteStringC& owner, const CFX_ByteStringC& name, bool bInheritable, int subindex) { CPDF_Object* pAttr = GetAttr(owner, name, bInheritable); CPDF_Array* pArray = ToArray(pAttr); if (!pArray || subindex == -1) return pAttr; if (subindex >= static_cast(pArray->GetCount())) return pAttr; return pArray->GetDirectObjectAt(subindex); } CFX_ByteString CPDF_StructElement::GetName(const CFX_ByteStringC& owner, const CFX_ByteStringC& name, const CFX_ByteStringC& default_value, bool bInheritable, int subindex) { CPDF_Object* pAttr = GetAttr(owner, name, bInheritable, subindex); if (ToName(pAttr)) return pAttr->GetString(); return CFX_ByteString(default_value); } FX_ARGB CPDF_StructElement::GetColor(const CFX_ByteStringC& owner, const CFX_ByteStringC& name, FX_ARGB default_value, bool bInheritable, int subindex) { CPDF_Array* pArray = ToArray(GetAttr(owner, name, bInheritable, subindex)); if (!pArray) return default_value; return 0xff000000 | ((int)(pArray->GetNumberAt(0) * 255) << 16) | ((int)(pArray->GetNumberAt(1) * 255) << 8) | (int)(pArray->GetNumberAt(2) * 255); } FX_FLOAT CPDF_StructElement::GetNumber(const CFX_ByteStringC& owner, const CFX_ByteStringC& name, FX_FLOAT default_value, bool bInheritable, int subindex) { CPDF_Object* pAttr = GetAttr(owner, name, bInheritable, subindex); return ToNumber(pAttr) ? pAttr->GetNumber() : default_value; } int CPDF_StructElement::GetInteger(const CFX_ByteStringC& owner, const CFX_ByteStringC& name, int default_value, bool bInheritable, int subindex) { CPDF_Object* pAttr = GetAttr(owner, name, bInheritable, subindex); return ToNumber(pAttr) ? pAttr->GetInteger() : default_value; }