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pdfium / pdfium / 8964d1018a8412e2cabc1d8c3d41a01c62870cf9 / . / core / fpdfapi / parser / cpdf_document.cpp
blob: be04432c8b8807406995eb769f8e21602f4b35d0 [file] [log] [blame]
// 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 "core/fpdfapi/parser/cpdf_document.h"
#include <memory>
#include <set>
#include <utility>
#include <vector>
#include "build/build_config.h"
#include "core/fpdfapi/cpdf_modulemgr.h"
#include "core/fpdfapi/font/cpdf_fontencoding.h"
#include "core/fpdfapi/page/cpdf_docpagedata.h"
#include "core/fpdfapi/page/cpdf_iccprofile.h"
#include "core/fpdfapi/page/cpdf_pagemodule.h"
#include "core/fpdfapi/parser/cpdf_array.h"
#include "core/fpdfapi/parser/cpdf_dictionary.h"
#include "core/fpdfapi/parser/cpdf_linearized_header.h"
#include "core/fpdfapi/parser/cpdf_name.h"
#include "core/fpdfapi/parser/cpdf_number.h"
#include "core/fpdfapi/parser/cpdf_parser.h"
#include "core/fpdfapi/parser/cpdf_read_validator.h"
#include "core/fpdfapi/parser/cpdf_reference.h"
#include "core/fpdfapi/parser/cpdf_stream.h"
#include "core/fpdfapi/parser/cpdf_string.h"
#include "core/fpdfapi/render/cpdf_dibbase.h"
#include "core/fpdfapi/render/cpdf_docrenderdata.h"
#include "core/fxcodec/JBig2_DocumentContext.h"
#include "core/fxcrt/fx_codepage.h"
#include "core/fxge/cfx_fontmapper.h"
#include "core/fxge/cfx_substfont.h"
#include "core/fxge/cfx_unicodeencoding.h"
#include "core/fxge/fx_font.h"
#include "third_party/base/ptr_util.h"
#include "third_party/base/stl_util.h"
namespace {
const int kMaxPageLevel = 1024;
void InsertWidthArrayImpl(std::vector<int> widths, CPDF_Array* pWidthArray) {
size_t i;
for (i = 1; i < widths.size(); i++) {
if (widths[i] != widths[0])
break;
}
if (i == widths.size()) {
int first = pWidthArray->GetIntegerAt(pWidthArray->size() - 1);
pWidthArray->AddNew<CPDF_Number>(first + static_cast<int>(widths.size()) -
1);
pWidthArray->AddNew<CPDF_Number>(widths[0]);
return;
}
CPDF_Array* pWidthArray1 = pWidthArray->AddNew<CPDF_Array>();
for (int w : widths)
pWidthArray1->AddNew<CPDF_Number>(w);
}
#if defined(OS_WIN)
void InsertWidthArray(HDC hDC, int start, int end, CPDF_Array* pWidthArray) {
std::vector<int> widths(end - start + 1);
GetCharWidth(hDC, start, end, widths.data());
InsertWidthArrayImpl(std::move(widths), pWidthArray);
}
ByteString FPDF_GetPSNameFromTT(HDC hDC) {
ByteString result;
DWORD size = ::GetFontData(hDC, 'eman', 0, nullptr, 0);
if (size != GDI_ERROR) {
LPBYTE buffer = FX_Alloc(BYTE, size);
::GetFontData(hDC, 'eman', 0, buffer, size);
result = GetNameFromTT(buffer, size, 6);
FX_Free(buffer);
}
return result;
}
#endif // defined(OS_WIN)
void InsertWidthArray1(CFX_Font* pFont,
CFX_UnicodeEncoding* pEncoding,
wchar_t start,
wchar_t end,
CPDF_Array* pWidthArray) {
std::vector<int> widths(end - start + 1);
for (size_t i = 0; i < widths.size(); ++i) {
int glyph_index = pEncoding->GlyphFromCharCode(start + i);
widths[i] = pFont->GetGlyphWidth(glyph_index);
}
InsertWidthArrayImpl(std::move(widths), pWidthArray);
}
int CountPages(CPDF_Dictionary* pPages,
std::set<CPDF_Dictionary*>* visited_pages) {
int count = pPages->GetIntegerFor("Count");
if (count > 0 && count < CPDF_Document::kPageMaxNum)
return count;
CPDF_Array* pKidList = pPages->GetArrayFor("Kids");
if (!pKidList)
return 0;
count = 0;
for (size_t i = 0; i < pKidList->size(); i++) {
CPDF_Dictionary* pKid = pKidList->GetDictAt(i);
if (!pKid || pdfium::ContainsKey(*visited_pages, pKid))
continue;
if (pKid->KeyExist("Kids")) {
// Use |visited_pages| to help detect circular references of pages.
pdfium::ScopedSetInsertion<CPDF_Dictionary*> local_add(visited_pages,
pKid);
count += CountPages(pKid, visited_pages);
} else {
// This page is a leaf node.
count++;
}
}
pPages->SetNewFor<CPDF_Number>("Count", count);
return count;
}
int CalculateFlags(bool bold,
bool italic,
bool fixedPitch,
bool serif,
bool script,
bool symbolic) {
int flags = 0;
if (bold)
flags |= FXFONT_BOLD;
if (italic)
flags |= FXFONT_ITALIC;
if (fixedPitch)
flags |= FXFONT_FIXED_PITCH;
if (serif)
flags |= FXFONT_SERIF;
if (script)
flags |= FXFONT_SCRIPT;
if (symbolic)
flags |= FXFONT_SYMBOLIC;
else
flags |= FXFONT_NONSYMBOLIC;
return flags;
}
void ProcessNonbCJK(CPDF_Dictionary* pBaseDict,
bool bold,
bool italic,
ByteString basefont,
RetainPtr<CPDF_Array> pWidths) {
if (bold && italic)
basefont += ",BoldItalic";
else if (bold)
basefont += ",Bold";
else if (italic)
basefont += ",Italic";
pBaseDict->SetNewFor<CPDF_Name>("Subtype", "TrueType");
pBaseDict->SetNewFor<CPDF_Name>("BaseFont", basefont);
pBaseDict->SetNewFor<CPDF_Number>("FirstChar", 32);
pBaseDict->SetNewFor<CPDF_Number>("LastChar", 255);
pBaseDict->SetFor("Widths", std::move(pWidths));
}
RetainPtr<CPDF_Dictionary> CalculateFontDesc(CPDF_Document* pDoc,
ByteString basefont,
int flags,
int italicangle,
int ascend,
int descend,
RetainPtr<CPDF_Array> bbox,
int32_t stemV) {
auto pFontDesc = pDoc->New<CPDF_Dictionary>();
pFontDesc->SetNewFor<CPDF_Name>("Type", "FontDescriptor");
pFontDesc->SetNewFor<CPDF_Name>("FontName", basefont);
pFontDesc->SetNewFor<CPDF_Number>("Flags", flags);
pFontDesc->SetFor("FontBBox", std::move(bbox));
pFontDesc->SetNewFor<CPDF_Number>("ItalicAngle", italicangle);
pFontDesc->SetNewFor<CPDF_Number>("Ascent", ascend);
pFontDesc->SetNewFor<CPDF_Number>("Descent", descend);
pFontDesc->SetNewFor<CPDF_Number>("StemV", stemV);
return pFontDesc;
}
} // namespace
CPDF_Document::CPDF_Document()
: m_pDocRender(pdfium::MakeUnique<CPDF_DocRenderData>(this)),
m_pDocPage(pdfium::MakeUnique<CPDF_DocPageData>(this)),
m_StockFontClearer(this) {}
CPDF_Document::~CPDF_Document() = default;
RetainPtr<CPDF_Object> CPDF_Document::ParseIndirectObject(uint32_t objnum) {
return m_pParser ? m_pParser->ParseIndirectObject(objnum) : nullptr;
}
bool CPDF_Document::TryInit() {
SetLastObjNum(m_pParser->GetLastObjNum());
CPDF_Object* pRootObj = GetOrParseIndirectObject(m_pParser->GetRootObjNum());
if (pRootObj)
m_pRootDict.Reset(pRootObj->GetDict());
LoadPages();
return GetRoot() && GetPageCount() > 0;
}
CPDF_Parser::Error CPDF_Document::LoadDoc(
const RetainPtr<IFX_SeekableReadStream>& pFileAccess,
const char* password) {
if (!m_pParser)
SetParser(pdfium::MakeUnique<CPDF_Parser>(this));
return HandleLoadResult(m_pParser->StartParse(pFileAccess, password));
}
CPDF_Parser::Error CPDF_Document::LoadLinearizedDoc(
const RetainPtr<CPDF_ReadValidator>& validator,
const char* password) {
if (!m_pParser)
SetParser(pdfium::MakeUnique<CPDF_Parser>(this));
return HandleLoadResult(m_pParser->StartLinearizedParse(validator, password));
}
void CPDF_Document::LoadPages() {
const CPDF_LinearizedHeader* linearized_header =
m_pParser->GetLinearizedHeader();
if (!linearized_header) {
m_PageList.resize(RetrievePageCount());
return;
}
m_PageList.resize(linearized_header->GetPageCount());
ASSERT(linearized_header->GetFirstPageNo() < m_PageList.size());
m_PageList[linearized_header->GetFirstPageNo()] =
linearized_header->GetFirstPageObjNum();
}
CPDF_Dictionary* CPDF_Document::TraversePDFPages(int iPage,
int* nPagesToGo,
size_t level) {
if (*nPagesToGo < 0 || m_bReachedMaxPageLevel)
return nullptr;
CPDF_Dictionary* pPages = m_pTreeTraversal[level].first;
CPDF_Array* pKidList = pPages->GetArrayFor("Kids");
if (!pKidList) {
m_pTreeTraversal.pop_back();
if (*nPagesToGo != 1)
return nullptr;
m_PageList[iPage] = pPages->GetObjNum();
return pPages;
}
if (level >= kMaxPageLevel) {
m_pTreeTraversal.pop_back();
m_bReachedMaxPageLevel = true;
return nullptr;
}
CPDF_Dictionary* page = nullptr;
for (size_t i = m_pTreeTraversal[level].second; i < pKidList->size(); i++) {
if (*nPagesToGo == 0)
break;
pKidList->ConvertToIndirectObjectAt(i, this);
CPDF_Dictionary* pKid = pKidList->GetDictAt(i);
if (!pKid) {
(*nPagesToGo)--;
m_pTreeTraversal[level].second++;
continue;
}
if (pKid == pPages) {
m_pTreeTraversal[level].second++;
continue;
}
if (!pKid->KeyExist("Kids")) {
m_PageList[iPage - (*nPagesToGo) + 1] = pKid->GetObjNum();
(*nPagesToGo)--;
m_pTreeTraversal[level].second++;
if (*nPagesToGo == 0) {
page = pKid;
break;
}
} else {
// If the vector has size level+1, the child is not in yet
if (m_pTreeTraversal.size() == level + 1)
m_pTreeTraversal.push_back(std::make_pair(pKid, 0));
// Now m_pTreeTraversal[level+1] should exist and be equal to pKid.
CPDF_Dictionary* pageKid = TraversePDFPages(iPage, nPagesToGo, level + 1);
// Check if child was completely processed, i.e. it popped itself out
if (m_pTreeTraversal.size() == level + 1)
m_pTreeTraversal[level].second++;
// If child did not finish, no pages to go, or max level reached, end
if (m_pTreeTraversal.size() != level + 1 || *nPagesToGo == 0 ||
m_bReachedMaxPageLevel) {
page = pageKid;
break;
}
}
}
if (m_pTreeTraversal[level].second == pKidList->size())
m_pTreeTraversal.pop_back();
return page;
}
void CPDF_Document::ResetTraversal() {
m_iNextPageToTraverse = 0;
m_bReachedMaxPageLevel = false;
m_pTreeTraversal.clear();
}
void CPDF_Document::SetParser(std::unique_ptr<CPDF_Parser> pParser) {
ASSERT(!m_pParser);
m_pParser = std::move(pParser);
}
CPDF_Parser::Error CPDF_Document::HandleLoadResult(CPDF_Parser::Error error) {
if (error == CPDF_Parser::SUCCESS)
m_bHasValidCrossReferenceTable = !m_pParser->xref_table_rebuilt();
return error;
}
const CPDF_Dictionary* CPDF_Document::GetPagesDict() const {
const CPDF_Dictionary* pRoot = GetRoot();
return pRoot ? pRoot->GetDictFor("Pages") : nullptr;
}
CPDF_Dictionary* CPDF_Document::GetPagesDict() {
return const_cast<CPDF_Dictionary*>(
static_cast<const CPDF_Document*>(this)->GetPagesDict());
}
bool CPDF_Document::IsPageLoaded(int iPage) const {
return !!m_PageList[iPage];
}
CPDF_Dictionary* CPDF_Document::GetPageDictionary(int iPage) {
if (!pdfium::IndexInBounds(m_PageList, iPage))
return nullptr;
const uint32_t objnum = m_PageList[iPage];
if (objnum) {
CPDF_Dictionary* result = ToDictionary(GetOrParseIndirectObject(objnum));
if (result)
return result;
}
CPDF_Dictionary* pPages = GetPagesDict();
if (!pPages)
return nullptr;
if (m_pTreeTraversal.empty()) {
ResetTraversal();
m_pTreeTraversal.push_back(std::make_pair(pPages, 0));
}
int nPagesToGo = iPage - m_iNextPageToTraverse + 1;
CPDF_Dictionary* pPage = TraversePDFPages(iPage, &nPagesToGo, 0);
m_iNextPageToTraverse = iPage + 1;
return pPage;
}
void CPDF_Document::SetPageObjNum(int iPage, uint32_t objNum) {
m_PageList[iPage] = objNum;
}
int CPDF_Document::FindPageIndex(const CPDF_Dictionary* pNode,
uint32_t* skip_count,
uint32_t objnum,
int* index,
int level) const {
if (!pNode->KeyExist("Kids")) {
if (objnum == pNode->GetObjNum())
return *index;
if (*skip_count)
(*skip_count)--;
(*index)++;
return -1;
}
const CPDF_Array* pKidList = pNode->GetArrayFor("Kids");
if (!pKidList)
return -1;
if (level >= kMaxPageLevel)
return -1;
size_t count = pNode->GetIntegerFor("Count");
if (count <= *skip_count) {
(*skip_count) -= count;
(*index) += count;
return -1;
}
if (count && count == pKidList->size()) {
for (size_t i = 0; i < count; i++) {
const CPDF_Reference* pKid = ToReference(pKidList->GetObjectAt(i));
if (pKid && pKid->GetRefObjNum() == objnum)
return static_cast<int>(*index + i);
}
}
for (size_t i = 0; i < pKidList->size(); i++) {
const CPDF_Dictionary* pKid = pKidList->GetDictAt(i);
if (!pKid || pKid == pNode)
continue;
int found_index = FindPageIndex(pKid, skip_count, objnum, index, level + 1);
if (found_index >= 0)
return found_index;
}
return -1;
}
int CPDF_Document::GetPageIndex(uint32_t objnum) {
uint32_t nPages = m_PageList.size();
uint32_t skip_count = 0;
bool bSkipped = false;
for (uint32_t i = 0; i < nPages; i++) {
if (m_PageList[i] == objnum)
return i;
if (!bSkipped && m_PageList[i] == 0) {
skip_count = i;
bSkipped = true;
}
}
const CPDF_Dictionary* pPages = GetPagesDict();
if (!pPages)
return -1;
int start_index = 0;
int found_index = FindPageIndex(pPages, &skip_count, objnum, &start_index, 0);
// Corrupt page tree may yield out-of-range results.
if (!pdfium::IndexInBounds(m_PageList, found_index))
return -1;
m_PageList[found_index] = objnum;
return found_index;
}
int CPDF_Document::GetPageCount() const {
return pdfium::CollectionSize<int>(m_PageList);
}
int CPDF_Document::RetrievePageCount() {
CPDF_Dictionary* pPages = GetPagesDict();
if (!pPages)
return 0;
if (!pPages->KeyExist("Kids"))
return 1;
std::set<CPDF_Dictionary*> visited_pages;
visited_pages.insert(pPages);
return CountPages(pPages, &visited_pages);
}
uint32_t CPDF_Document::GetUserPermissions() const {
if (m_pParser)
return m_pParser->GetPermissions();
return m_pExtension ? m_pExtension->GetUserPermissions() : 0;
}
CPDF_Font* CPDF_Document::LoadFont(CPDF_Dictionary* pFontDict) {
ASSERT(pFontDict);
return m_pDocPage->GetFont(pFontDict);
}
RetainPtr<CPDF_StreamAcc> CPDF_Document::LoadFontFile(
const CPDF_Stream* pStream) {
return m_pDocPage->GetFontFileStreamAcc(pStream);
}
CPDF_ColorSpace* CPDF_Document::LoadColorSpace(
const CPDF_Object* pCSObj,
const CPDF_Dictionary* pResources) {
return m_pDocPage->GetColorSpace(pCSObj, pResources);
}
CPDF_Pattern* CPDF_Document::LoadPattern(CPDF_Object* pPatternObj,
bool bShading,
const CFX_Matrix& matrix) {
return m_pDocPage->GetPattern(pPatternObj, bShading, matrix);
}
RetainPtr<CPDF_IccProfile> CPDF_Document::LoadIccProfile(
const CPDF_Stream* pStream) {
return m_pDocPage->GetIccProfile(pStream);
}
RetainPtr<CPDF_Image> CPDF_Document::LoadImageFromPageData(
uint32_t dwStreamObjNum) {
ASSERT(dwStreamObjNum);
return m_pDocPage->GetImage(dwStreamObjNum);
}
void CPDF_Document::CreateNewDoc() {
ASSERT(!m_pRootDict);
ASSERT(!m_pInfoDict);
m_pRootDict.Reset(NewIndirect<CPDF_Dictionary>());
m_pRootDict->SetNewFor<CPDF_Name>("Type", "Catalog");
CPDF_Dictionary* pPages = NewIndirect<CPDF_Dictionary>();
pPages->SetNewFor<CPDF_Name>("Type", "Pages");
pPages->SetNewFor<CPDF_Number>("Count", 0);
pPages->SetNewFor<CPDF_Array>("Kids");
m_pRootDict->SetNewFor<CPDF_Reference>("Pages", this, pPages->GetObjNum());
m_pInfoDict.Reset(NewIndirect<CPDF_Dictionary>());
}
CPDF_Dictionary* CPDF_Document::CreateNewPage(int iPage) {
CPDF_Dictionary* pDict = NewIndirect<CPDF_Dictionary>();
pDict->SetNewFor<CPDF_Name>("Type", "Page");
uint32_t dwObjNum = pDict->GetObjNum();
if (!InsertNewPage(iPage, pDict)) {
DeleteIndirectObject(dwObjNum);
return nullptr;
}
return pDict;
}
bool CPDF_Document::InsertDeletePDFPage(CPDF_Dictionary* pPages,
int nPagesToGo,
CPDF_Dictionary* pPageDict,
bool bInsert,
std::set<CPDF_Dictionary*>* pVisited) {
CPDF_Array* pKidList = pPages->GetArrayFor("Kids");
if (!pKidList)
return false;
for (size_t i = 0; i < pKidList->size(); i++) {
CPDF_Dictionary* pKid = pKidList->GetDictAt(i);
if (pKid->GetStringFor("Type") == "Page") {
if (nPagesToGo != 0) {
nPagesToGo--;
continue;
}
if (bInsert) {
pKidList->InsertNewAt<CPDF_Reference>(i, this, pPageDict->GetObjNum());
pPageDict->SetNewFor<CPDF_Reference>("Parent", this,
pPages->GetObjNum());
} else {
pKidList->RemoveAt(i);
}
pPages->SetNewFor<CPDF_Number>(
"Count", pPages->GetIntegerFor("Count") + (bInsert ? 1 : -1));
ResetTraversal();
break;
}
int nPages = pKid->GetIntegerFor("Count");
if (nPagesToGo >= nPages) {
nPagesToGo -= nPages;
continue;
}
if (pdfium::ContainsKey(*pVisited, pKid))
return false;
pdfium::ScopedSetInsertion<CPDF_Dictionary*> insertion(pVisited, pKid);
if (!InsertDeletePDFPage(pKid, nPagesToGo, pPageDict, bInsert, pVisited))
return false;
pPages->SetNewFor<CPDF_Number>(
"Count", pPages->GetIntegerFor("Count") + (bInsert ? 1 : -1));
break;
}
return true;
}
bool CPDF_Document::InsertNewPage(int iPage, CPDF_Dictionary* pPageDict) {
CPDF_Dictionary* pRoot = GetRoot();
CPDF_Dictionary* pPages = pRoot ? pRoot->GetDictFor("Pages") : nullptr;
if (!pPages)
return false;
int nPages = GetPageCount();
if (iPage < 0 || iPage > nPages)
return false;
if (iPage == nPages) {
CPDF_Array* pPagesList = pPages->GetArrayFor("Kids");
if (!pPagesList)
pPagesList = pPages->SetNewFor<CPDF_Array>("Kids");
pPagesList->AddNew<CPDF_Reference>(this, pPageDict->GetObjNum());
pPages->SetNewFor<CPDF_Number>("Count", nPages + 1);
pPageDict->SetNewFor<CPDF_Reference>("Parent", this, pPages->GetObjNum());
ResetTraversal();
} else {
std::set<CPDF_Dictionary*> stack = {pPages};
if (!InsertDeletePDFPage(pPages, iPage, pPageDict, true, &stack))
return false;
}
m_PageList.insert(m_PageList.begin() + iPage, pPageDict->GetObjNum());
return true;
}
CPDF_Dictionary* CPDF_Document::GetInfo() {
if (m_pInfoDict)
return m_pInfoDict.Get();
if (!m_pParser || !m_pParser->GetInfoObjNum())
return nullptr;
auto ref =
pdfium::MakeRetain<CPDF_Reference>(this, m_pParser->GetInfoObjNum());
m_pInfoDict.Reset(ToDictionary(ref->GetDirect()));
return m_pInfoDict.Get();
}
void CPDF_Document::DeletePage(int iPage) {
CPDF_Dictionary* pPages = GetPagesDict();
if (!pPages)
return;
int nPages = pPages->GetIntegerFor("Count");
if (iPage < 0 || iPage >= nPages)
return;
std::set<CPDF_Dictionary*> stack = {pPages};
if (!InsertDeletePDFPage(pPages, iPage, nullptr, false, &stack))
return;
m_PageList.erase(m_PageList.begin() + iPage);
}
CPDF_Font* CPDF_Document::AddStandardFont(const char* font,
const CPDF_FontEncoding* pEncoding) {
ByteString name(font);
if (CFX_FontMapper::GetStandardFontName(&name) < 0)
return nullptr;
return GetPageData()->GetStandardFont(name, pEncoding);
}
size_t CPDF_Document::CalculateEncodingDict(int charset,
CPDF_Dictionary* pBaseDict) {
size_t i;
for (i = 0; i < FX_ArraySize(g_FX_CharsetUnicodes); ++i) {
if (g_FX_CharsetUnicodes[i].m_Charset == charset)
break;
}
if (i == FX_ArraySize(g_FX_CharsetUnicodes))
return i;
CPDF_Dictionary* pEncodingDict = NewIndirect<CPDF_Dictionary>();
pEncodingDict->SetNewFor<CPDF_Name>("BaseEncoding", "WinAnsiEncoding");
CPDF_Array* pArray = pEncodingDict->SetNewFor<CPDF_Array>("Differences");
pArray->AddNew<CPDF_Number>(128);
const uint16_t* pUnicodes = g_FX_CharsetUnicodes[i].m_pUnicodes;
for (int j = 0; j < 128; j++) {
ByteString name = PDF_AdobeNameFromUnicode(pUnicodes[j]);
pArray->AddNew<CPDF_Name>(name.IsEmpty() ? ".notdef" : name);
}
pBaseDict->SetNewFor<CPDF_Reference>("Encoding", this,
pEncodingDict->GetObjNum());
return i;
}
CPDF_Dictionary* CPDF_Document::ProcessbCJK(
CPDF_Dictionary* pBaseDict,
int charset,
ByteString basefont,
std::function<void(wchar_t, wchar_t, CPDF_Array*)> Insert) {
CPDF_Dictionary* pFontDict = NewIndirect<CPDF_Dictionary>();
ByteString cmap;
ByteString ordering;
int supplement = 0;
CPDF_Array* pWidthArray = pFontDict->SetNewFor<CPDF_Array>("W");
switch (charset) {
case FX_CHARSET_ChineseTraditional:
cmap = "ETenms-B5-H";
ordering = "CNS1";
supplement = 4;
pWidthArray->AddNew<CPDF_Number>(1);
Insert(0x20, 0x7e, pWidthArray);
break;
case FX_CHARSET_ChineseSimplified:
cmap = "GBK-EUC-H";
ordering = "GB1";
supplement = 2;
pWidthArray->AddNew<CPDF_Number>(7716);
Insert(0x20, 0x20, pWidthArray);
pWidthArray->AddNew<CPDF_Number>(814);
Insert(0x21, 0x7e, pWidthArray);
break;
case FX_CHARSET_Hangul:
cmap = "KSCms-UHC-H";
ordering = "Korea1";
supplement = 2;
pWidthArray->AddNew<CPDF_Number>(1);
Insert(0x20, 0x7e, pWidthArray);
break;
case FX_CHARSET_ShiftJIS:
cmap = "90ms-RKSJ-H";
ordering = "Japan1";
supplement = 5;
pWidthArray->AddNew<CPDF_Number>(231);
Insert(0x20, 0x7d, pWidthArray);
pWidthArray->AddNew<CPDF_Number>(326);
Insert(0xa0, 0xa0, pWidthArray);
pWidthArray->AddNew<CPDF_Number>(327);
Insert(0xa1, 0xdf, pWidthArray);
pWidthArray->AddNew<CPDF_Number>(631);
Insert(0x7e, 0x7e, pWidthArray);
break;
}
pBaseDict->SetNewFor<CPDF_Name>("Subtype", "Type0");
pBaseDict->SetNewFor<CPDF_Name>("BaseFont", basefont);
pBaseDict->SetNewFor<CPDF_Name>("Encoding", cmap);
pFontDict->SetNewFor<CPDF_Name>("Type", "Font");
pFontDict->SetNewFor<CPDF_Name>("Subtype", "CIDFontType2");
pFontDict->SetNewFor<CPDF_Name>("BaseFont", basefont);
CPDF_Dictionary* pCIDSysInfo =
pFontDict->SetNewFor<CPDF_Dictionary>("CIDSystemInfo");
pCIDSysInfo->SetNewFor<CPDF_String>("Registry", "Adobe", false);
pCIDSysInfo->SetNewFor<CPDF_String>("Ordering", ordering, false);
pCIDSysInfo->SetNewFor<CPDF_Number>("Supplement", supplement);
CPDF_Array* pArray = pBaseDict->SetNewFor<CPDF_Array>("DescendantFonts");
pArray->AddNew<CPDF_Reference>(this, pFontDict->GetObjNum());
return pFontDict;
}
CPDF_Font* CPDF_Document::AddFont(CFX_Font* pFont, int charset) {
if (!pFont)
return nullptr;
const bool bCJK = FX_CharSetIsCJK(charset);
ByteString basefont = pFont->GetFamilyName();
basefont.Replace(" ", "");
int flags =
CalculateFlags(pFont->IsBold(), pFont->IsItalic(), pFont->IsFixedWidth(),
false, false, charset == FX_CHARSET_Symbol);
CPDF_Dictionary* pBaseDict = NewIndirect<CPDF_Dictionary>();
pBaseDict->SetNewFor<CPDF_Name>("Type", "Font");
auto pEncoding = pdfium::MakeUnique<CFX_UnicodeEncoding>(pFont);
CPDF_Dictionary* pFontDict = pBaseDict;
if (!bCJK) {
auto pWidths = pdfium::MakeRetain<CPDF_Array>();
for (int charcode = 32; charcode < 128; charcode++) {
int glyph_index = pEncoding->GlyphFromCharCode(charcode);
int char_width = pFont->GetGlyphWidth(glyph_index);
pWidths->AddNew<CPDF_Number>(char_width);
}
if (charset == FX_CHARSET_ANSI || charset == FX_CHARSET_Default ||
charset == FX_CHARSET_Symbol) {
pBaseDict->SetNewFor<CPDF_Name>("Encoding", "WinAnsiEncoding");
for (int charcode = 128; charcode <= 255; charcode++) {
int glyph_index = pEncoding->GlyphFromCharCode(charcode);
int char_width = pFont->GetGlyphWidth(glyph_index);
pWidths->AddNew<CPDF_Number>(char_width);
}
} else {
size_t i = CalculateEncodingDict(charset, pBaseDict);
if (i < FX_ArraySize(g_FX_CharsetUnicodes)) {
const uint16_t* pUnicodes = g_FX_CharsetUnicodes[i].m_pUnicodes;
for (int j = 0; j < 128; j++) {
int glyph_index = pEncoding->GlyphFromCharCode(pUnicodes[j]);
int char_width = pFont->GetGlyphWidth(glyph_index);
pWidths->AddNew<CPDF_Number>(char_width);
}
}
}
ProcessNonbCJK(pBaseDict, pFont->IsBold(), pFont->IsItalic(), basefont,
std::move(pWidths));
} else {
pFontDict = ProcessbCJK(
pBaseDict, charset, basefont,
[pFont, &pEncoding](wchar_t start, wchar_t end, CPDF_Array* widthArr) {
InsertWidthArray1(pFont, pEncoding.get(), start, end, widthArr);
});
}
int italicangle =
pFont->GetSubstFont() ? pFont->GetSubstFont()->m_ItalicAngle : 0;
FX_RECT bbox;
pFont->GetBBox(&bbox);
auto pBBox = pdfium::MakeRetain<CPDF_Array>();
pBBox->AddNew<CPDF_Number>(bbox.left);
pBBox->AddNew<CPDF_Number>(bbox.bottom);
pBBox->AddNew<CPDF_Number>(bbox.right);
pBBox->AddNew<CPDF_Number>(bbox.top);
int32_t nStemV = 0;
if (pFont->GetSubstFont()) {
nStemV = pFont->GetSubstFont()->m_Weight / 5;
} else {
static const char stem_chars[] = {'i', 'I', '!', '1'};
const size_t count = FX_ArraySize(stem_chars);
uint32_t glyph = pEncoding->GlyphFromCharCode(stem_chars[0]);
nStemV = pFont->GetGlyphWidth(glyph);
for (size_t i = 1; i < count; i++) {
glyph = pEncoding->GlyphFromCharCode(stem_chars[i]);
int width = pFont->GetGlyphWidth(glyph);
if (width > 0 && width < nStemV)
nStemV = width;
}
}
CPDF_Dictionary* pFontDesc = ToDictionary(AddIndirectObject(
CalculateFontDesc(this, basefont, flags, italicangle, pFont->GetAscent(),
pFont->GetDescent(), std::move(pBBox), nStemV)));
pFontDict->SetNewFor<CPDF_Reference>("FontDescriptor", this,
pFontDesc->GetObjNum());
return LoadFont(pBaseDict);
}
#if defined(OS_WIN)
CPDF_Font* CPDF_Document::AddWindowsFont(LOGFONTA* pLogFont) {
pLogFont->lfHeight = -1000;
pLogFont->lfWidth = 0;
HGDIOBJ hFont = CreateFontIndirectA(pLogFont);
HDC hDC = CreateCompatibleDC(nullptr);
hFont = SelectObject(hDC, hFont);
int tm_size = GetOutlineTextMetrics(hDC, 0, nullptr);
if (tm_size == 0) {
hFont = SelectObject(hDC, hFont);
DeleteObject(hFont);
DeleteDC(hDC);
return nullptr;
}
LPBYTE tm_buf = FX_Alloc(BYTE, tm_size);
OUTLINETEXTMETRIC* ptm = reinterpret_cast<OUTLINETEXTMETRIC*>(tm_buf);
GetOutlineTextMetrics(hDC, tm_size, ptm);
int flags = CalculateFlags(false, pLogFont->lfItalic != 0,
(pLogFont->lfPitchAndFamily & 3) == FIXED_PITCH,
(pLogFont->lfPitchAndFamily & 0xf8) == FF_ROMAN,
(pLogFont->lfPitchAndFamily & 0xf8) == FF_SCRIPT,
pLogFont->lfCharSet == FX_CHARSET_Symbol);
const bool bCJK = FX_CharSetIsCJK(pLogFont->lfCharSet);
ByteString basefont;
if (bCJK)
basefont = FPDF_GetPSNameFromTT(hDC);
if (basefont.IsEmpty())
basefont = pLogFont->lfFaceName;
int italicangle = ptm->otmItalicAngle / 10;
int ascend = ptm->otmrcFontBox.top;
int descend = ptm->otmrcFontBox.bottom;
int capheight = ptm->otmsCapEmHeight;
int bbox[4] = {ptm->otmrcFontBox.left, ptm->otmrcFontBox.bottom,
ptm->otmrcFontBox.right, ptm->otmrcFontBox.top};
FX_Free(tm_buf);
basefont.Replace(" ", "");
CPDF_Dictionary* pBaseDict = NewIndirect<CPDF_Dictionary>();
pBaseDict->SetNewFor<CPDF_Name>("Type", "Font");
CPDF_Dictionary* pFontDict = pBaseDict;
if (!bCJK) {
if (pLogFont->lfCharSet == FX_CHARSET_ANSI ||
pLogFont->lfCharSet == FX_CHARSET_Default ||
pLogFont->lfCharSet == FX_CHARSET_Symbol) {
pBaseDict->SetNewFor<CPDF_Name>("Encoding", "WinAnsiEncoding");
} else {
CalculateEncodingDict(pLogFont->lfCharSet, pBaseDict);
}
int char_widths[224];
GetCharWidth(hDC, 32, 255, char_widths);
auto pWidths = pdfium::MakeRetain<CPDF_Array>();
for (size_t i = 0; i < 224; i++)
pWidths->AddNew<CPDF_Number>(char_widths[i]);
ProcessNonbCJK(pBaseDict, pLogFont->lfWeight > FW_MEDIUM,
pLogFont->lfItalic != 0, basefont, std::move(pWidths));
} else {
pFontDict =
ProcessbCJK(pBaseDict, pLogFont->lfCharSet, basefont,
[&hDC](wchar_t start, wchar_t end, CPDF_Array* widthArr) {
InsertWidthArray(hDC, start, end, widthArr);
});
}
auto pBBox = pdfium::MakeRetain<CPDF_Array>();
for (int i = 0; i < 4; i++)
pBBox->AddNew<CPDF_Number>(bbox[i]);
RetainPtr<CPDF_Dictionary> pFontDesc =
CalculateFontDesc(this, basefont, flags, italicangle, ascend, descend,
std::move(pBBox), pLogFont->lfWeight / 5);
pFontDesc->SetNewFor<CPDF_Number>("CapHeight", capheight);
pFontDict->SetFor(
"FontDescriptor",
AddIndirectObject(std::move(pFontDesc))->MakeReference(this));
hFont = SelectObject(hDC, hFont);
DeleteObject(hFont);
DeleteDC(hDC);
return LoadFont(pBaseDict);
}
#endif // defined(OS_WIN)
CPDF_Document::StockFontClearer::StockFontClearer(CPDF_Document* pDoc)
: m_pDoc(pDoc) {}
CPDF_Document::StockFontClearer::~StockFontClearer() {
CPDF_ModuleMgr::Get()->GetPageModule()->ClearStockFont(m_pDoc.Get());
}