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// Copyright 2016 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/edit/cpdf_pagecontentgenerator.h"
#include <map>
#include <memory>
#include <set>
#include <tuple>
#include <utility>
#include "core/fpdfapi/edit/cpdf_pagecontentmanager.h"
#include "core/fpdfapi/edit/cpdf_stringarchivestream.h"
#include "core/fpdfapi/font/cpdf_font.h"
#include "core/fpdfapi/page/cpdf_contentmarks.h"
#include "core/fpdfapi/page/cpdf_docpagedata.h"
#include "core/fpdfapi/page/cpdf_image.h"
#include "core/fpdfapi/page/cpdf_imageobject.h"
#include "core/fpdfapi/page/cpdf_page.h"
#include "core/fpdfapi/page/cpdf_path.h"
#include "core/fpdfapi/page/cpdf_pathobject.h"
#include "core/fpdfapi/page/cpdf_textobject.h"
#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/fpdfapi/parser/fpdf_parser_decode.h"
#include "core/fpdfapi/parser/fpdf_parser_utility.h"
#include "third_party/base/ptr_util.h"
#include "third_party/base/stl_util.h"
#include "third_party/skia_shared/SkFloatToDecimal.h"
namespace {
std::ostream& operator<<(std::ostream& ar, const CFX_Matrix& matrix) {
ar << matrix.a << " " << matrix.b << " " << matrix.c << " " << matrix.d << " "
<< matrix.e << " " << matrix.f;
return ar;
}
bool GetColor(const CPDF_Color* pColor, float* rgb) {
int intRGB[3];
if (!pColor || !pColor->IsColorSpaceRGB() ||
!pColor->GetRGB(&intRGB[0], &intRGB[1], &intRGB[2])) {
return false;
}
rgb[0] = intRGB[0] / 255.0f;
rgb[1] = intRGB[1] / 255.0f;
rgb[2] = intRGB[2] / 255.0f;
return true;
}
} // namespace
CPDF_PageContentGenerator::CPDF_PageContentGenerator(
CPDF_PageObjectHolder* pObjHolder)
: m_pObjHolder(pObjHolder), m_pDocument(pObjHolder->GetDocument()) {
for (const auto& pObj : *pObjHolder->GetPageObjectList()) {
if (pObj)
m_pageObjects.emplace_back(pObj.get());
}
}
CPDF_PageContentGenerator::~CPDF_PageContentGenerator() {}
void CPDF_PageContentGenerator::GenerateContent() {
ASSERT(m_pObjHolder->IsPage());
std::map<int32_t, std::unique_ptr<std::ostringstream>> stream =
GenerateModifiedStreams();
UpdateContentStreams(&stream);
}
std::map<int32_t, std::unique_ptr<std::ostringstream>>
CPDF_PageContentGenerator::GenerateModifiedStreams() {
// Make sure default graphics are created.
GetOrCreateDefaultGraphics();
// Figure out which streams are dirty.
std::set<int32_t> all_dirty_streams;
for (auto& pPageObj : m_pageObjects) {
if (pPageObj->IsDirty())
all_dirty_streams.insert(pPageObj->GetContentStream());
}
const std::set<int32_t>& marked_dirty_streams =
m_pObjHolder->GetDirtyStreams();
all_dirty_streams.insert(marked_dirty_streams.begin(),
marked_dirty_streams.end());
// Start regenerating dirty streams.
std::map<int32_t, std::unique_ptr<std::ostringstream>> streams;
std::set<int32_t> empty_streams;
std::unique_ptr<const CPDF_ContentMarks> empty_content_marks =
pdfium::MakeUnique<CPDF_ContentMarks>();
std::map<int32_t, const CPDF_ContentMarks*> current_content_marks;
for (int32_t dirty_stream : all_dirty_streams) {
std::unique_ptr<std::ostringstream> buf =
pdfium::MakeUnique<std::ostringstream>();
// Set the default graphic state values
*buf << "q\n";
if (!m_pObjHolder->GetLastCTM().IsIdentity())
*buf << m_pObjHolder->GetLastCTM().GetInverse() << " cm\n";
ProcessDefaultGraphics(buf.get());
streams[dirty_stream] = std::move(buf);
empty_streams.insert(dirty_stream);
current_content_marks[dirty_stream] = empty_content_marks.get();
}
// Process the page objects, write into each dirty stream.
for (auto& pPageObj : m_pageObjects) {
int stream_index = pPageObj->GetContentStream();
auto it = streams.find(stream_index);
if (it == streams.end())
continue;
std::ostringstream* buf = it->second.get();
empty_streams.erase(stream_index);
current_content_marks[stream_index] = ProcessContentMarks(
buf, pPageObj.Get(), current_content_marks[stream_index]);
ProcessPageObject(buf, pPageObj.Get());
}
// Finish dirty streams.
for (int32_t dirty_stream : all_dirty_streams) {
std::ostringstream* buf = streams[dirty_stream].get();
if (pdfium::ContainsKey(empty_streams, dirty_stream)) {
// Clear to show that this stream needs to be deleted.
buf->str("");
} else {
FinishMarks(buf, current_content_marks[dirty_stream]);
// Return graphics to original state
*buf << "Q\n";
}
}
// Clear dirty streams in m_pObjHolder
m_pObjHolder->ClearDirtyStreams();
return streams;
}
void CPDF_PageContentGenerator::UpdateContentStreams(
std::map<int32_t, std::unique_ptr<std::ostringstream>>* new_stream_data) {
// If no streams were regenerated or removed, nothing to do here.
if (new_stream_data->empty())
return;
CPDF_PageContentManager page_content_manager(m_pObjHolder.Get());
for (auto& pair : *new_stream_data) {
int32_t stream_index = pair.first;
std::ostringstream* buf = pair.second.get();
if (stream_index == CPDF_PageObject::kNoContentStream) {
int new_stream_index = page_content_manager.AddStream(buf);
UpdateStreamlessPageObjects(new_stream_index);
continue;
}
CPDF_Stream* old_stream =
page_content_manager.GetStreamByIndex(stream_index);
ASSERT(old_stream);
// If buf is now empty, remove the stream instead of setting the data.
if (buf->tellp() <= 0)
page_content_manager.ScheduleRemoveStreamByIndex(stream_index);
else
old_stream->SetDataFromStringstream(buf);
}
page_content_manager.ExecuteScheduledRemovals();
}
ByteString CPDF_PageContentGenerator::RealizeResource(
const CPDF_Object* pResource,
const ByteString& bsType) const {
ASSERT(pResource);
if (!m_pObjHolder->m_pResources) {
m_pObjHolder->m_pResources = m_pDocument->NewIndirect<CPDF_Dictionary>();
m_pObjHolder->GetDict()->SetFor(
"Resources",
m_pObjHolder->m_pResources->MakeReference(m_pDocument.Get()));
}
CPDF_Dictionary* pResList = m_pObjHolder->m_pResources->GetDictFor(bsType);
if (!pResList)
pResList = m_pObjHolder->m_pResources->SetNewFor<CPDF_Dictionary>(bsType);
ByteString name;
int idnum = 1;
while (1) {
name = ByteString::Format("FX%c%d", bsType[0], idnum);
if (!pResList->KeyExist(name))
break;
idnum++;
}
pResList->SetFor(name, pResource->MakeReference(m_pDocument.Get()));
return name;
}
bool CPDF_PageContentGenerator::ProcessPageObjects(std::ostringstream* buf) {
bool bDirty = false;
std::unique_ptr<const CPDF_ContentMarks> empty_content_marks =
pdfium::MakeUnique<CPDF_ContentMarks>();
const CPDF_ContentMarks* content_marks = empty_content_marks.get();
for (auto& pPageObj : m_pageObjects) {
if (m_pObjHolder->IsPage() && !pPageObj->IsDirty())
continue;
bDirty = true;
content_marks = ProcessContentMarks(buf, pPageObj.Get(), content_marks);
ProcessPageObject(buf, pPageObj.Get());
}
FinishMarks(buf, content_marks);
return bDirty;
}
void CPDF_PageContentGenerator::UpdateStreamlessPageObjects(
int new_content_stream_index) {
for (auto& pPageObj : m_pageObjects) {
if (pPageObj->GetContentStream() == CPDF_PageObject::kNoContentStream)
pPageObj->SetContentStream(new_content_stream_index);
}
}
const CPDF_ContentMarks* CPDF_PageContentGenerator::ProcessContentMarks(
std::ostringstream* buf,
const CPDF_PageObject* pPageObj,
const CPDF_ContentMarks* pPrev) {
const CPDF_ContentMarks* pNext = &pPageObj->m_ContentMarks;
size_t first_different = pPrev->FindFirstDifference(pNext);
// Close all marks that are in prev but not in next.
// Technically we should iterate backwards to close from the top to the
// bottom, but since the EMC operators do not identify which mark they are
// closing, it does not matter.
for (size_t i = first_different; i < pPrev->CountItems(); ++i)
*buf << "EMC\n";
// Open all marks that are in next but not in prev.
for (size_t i = first_different; i < pNext->CountItems(); ++i) {
const CPDF_ContentMarkItem* item = pNext->GetItem(i);
// Write mark tag.
*buf << "/" << PDF_NameEncode(item->GetName()) << " ";
// If there are no parameters, write a BMC (begin marked content) operator.
if (item->GetParamType() == CPDF_ContentMarkItem::None) {
*buf << "BMC\n";
continue;
}
// If there are parameters, write properties, direct or indirect.
switch (item->GetParamType()) {
case CPDF_ContentMarkItem::DirectDict: {
CPDF_StringArchiveStream archive_stream(buf);
item->GetParam()->WriteTo(&archive_stream, nullptr);
*buf << " ";
break;
}
case CPDF_ContentMarkItem::PropertiesDict: {
*buf << "/" << item->GetPropertyName() << " ";
break;
}
default:
NOTREACHED();
break;
}
// Write BDC (begin dictionary content) operator.
*buf << "BDC\n";
}
return pNext;
}
void CPDF_PageContentGenerator::FinishMarks(
std::ostringstream* buf,
const CPDF_ContentMarks* pContentMarks) {
// Technically we should iterate backwards to close from the top to the
// bottom, but since the EMC operators do not identify which mark they are
// closing, it does not matter.
for (size_t i = 0; i < pContentMarks->CountItems(); ++i)
*buf << "EMC\n";
}
void CPDF_PageContentGenerator::ProcessPageObject(std::ostringstream* buf,
CPDF_PageObject* pPageObj) {
if (CPDF_ImageObject* pImageObject = pPageObj->AsImage())
ProcessImage(buf, pImageObject);
else if (CPDF_PathObject* pPathObj = pPageObj->AsPath())
ProcessPath(buf, pPathObj);
else if (CPDF_TextObject* pTextObj = pPageObj->AsText())
ProcessText(buf, pTextObj);
pPageObj->SetDirty(false);
}
void CPDF_PageContentGenerator::ProcessImage(std::ostringstream* buf,
CPDF_ImageObject* pImageObj) {
if ((pImageObj->matrix().a == 0 && pImageObj->matrix().b == 0) ||
(pImageObj->matrix().c == 0 && pImageObj->matrix().d == 0)) {
return;
}
*buf << "q " << pImageObj->matrix() << " cm ";
RetainPtr<CPDF_Image> pImage = pImageObj->GetImage();
if (pImage->IsInline())
return;
CPDF_Stream* pStream = pImage->GetStream();
if (!pStream)
return;
bool bWasInline = pStream->IsInline();
if (bWasInline)
pImage->ConvertStreamToIndirectObject();
ByteString name = RealizeResource(pStream, "XObject");
if (bWasInline)
pImageObj->SetImage(
m_pDocument->GetPageData()->GetImage(pStream->GetObjNum()));
*buf << "/" << PDF_NameEncode(name) << " Do Q\n";
}
// Processing path with operators from Tables 4.9 and 4.10 of PDF spec 1.7:
// "re" appends a rectangle (here, used only if the whole path is a rectangle)
// "m" moves current point to the given coordinates
// "l" creates a line from current point to the new point
// "c" adds a Bezier curve from current to last point, using the two other
// points as the Bezier control points
// Note: "l", "c" change the current point
// "h" closes the subpath (appends a line from current to starting point)
// Path painting operators: "S", "n", "B", "f", "B*", "f*", depending on
// the filling mode and whether we want stroking the path or not.
// "Q" restores the graphics state imposed by the ProcessGraphics method.
void CPDF_PageContentGenerator::ProcessPath(std::ostringstream* buf,
CPDF_PathObject* pPathObj) {
ProcessGraphics(buf, pPathObj);
*buf << pPathObj->matrix() << " cm ";
const auto& pPoints = pPathObj->path().GetPoints();
if (pPathObj->path().IsRect()) {
CFX_PointF diff = pPoints[2].m_Point - pPoints[0].m_Point;
*buf << pPoints[0].m_Point.x << " " << pPoints[0].m_Point.y << " " << diff.x
<< " " << diff.y << " re";
} else {
for (size_t i = 0; i < pPoints.size(); i++) {
if (i > 0)
*buf << " ";
char buffer[pdfium::skia::kMaximumSkFloatToDecimalLength];
unsigned size =
pdfium::skia::SkFloatToDecimal(pPoints[i].m_Point.x, buffer);
buf->write(buffer, size) << " ";
size = pdfium::skia::SkFloatToDecimal(pPoints[i].m_Point.y, buffer);
buf->write(buffer, size);
FXPT_TYPE pointType = pPoints[i].m_Type;
if (pointType == FXPT_TYPE::MoveTo) {
*buf << " m";
} else if (pointType == FXPT_TYPE::LineTo) {
*buf << " l";
} else if (pointType == FXPT_TYPE::BezierTo) {
if (i + 2 >= pPoints.size() ||
!pPoints[i].IsTypeAndOpen(FXPT_TYPE::BezierTo) ||
!pPoints[i + 1].IsTypeAndOpen(FXPT_TYPE::BezierTo) ||
pPoints[i + 2].m_Type != FXPT_TYPE::BezierTo) {
// If format is not supported, close the path and paint
*buf << " h";
break;
}
*buf << " " << pPoints[i + 1].m_Point.x << " "
<< pPoints[i + 1].m_Point.y << " " << pPoints[i + 2].m_Point.x
<< " " << pPoints[i + 2].m_Point.y << " c";
i += 2;
}
if (pPoints[i].m_CloseFigure)
*buf << " h";
}
}
if (pPathObj->filltype() == 0)
*buf << (pPathObj->stroke() ? " S" : " n");
else if (pPathObj->filltype() == FXFILL_WINDING)
*buf << (pPathObj->stroke() ? " B" : " f");
else if (pPathObj->filltype() == FXFILL_ALTERNATE)
*buf << (pPathObj->stroke() ? " B*" : " f*");
*buf << " Q\n";
}
// This method supports color operators rg and RGB from Table 4.24 of PDF spec
// 1.7. A color will not be set if the colorspace is not DefaultRGB or the RGB
// values cannot be obtained. The method also adds an external graphics
// dictionary, as described in Section 4.3.4.
// "rg" sets the fill color, "RG" sets the stroke color (using DefaultRGB)
// "w" sets the stroke line width.
// "ca" sets the fill alpha, "CA" sets the stroke alpha.
// "q" saves the graphics state, so that the settings can later be reversed
void CPDF_PageContentGenerator::ProcessGraphics(std::ostringstream* buf,
CPDF_PageObject* pPageObj) {
*buf << "q ";
float fillColor[3];
if (GetColor(pPageObj->m_ColorState.GetFillColor(), fillColor)) {
*buf << fillColor[0] << " " << fillColor[1] << " " << fillColor[2]
<< " rg ";
}
float strokeColor[3];
if (GetColor(pPageObj->m_ColorState.GetStrokeColor(), strokeColor)) {
*buf << strokeColor[0] << " " << strokeColor[1] << " " << strokeColor[2]
<< " RG ";
}
float lineWidth = pPageObj->m_GraphState.GetLineWidth();
if (lineWidth != 1.0f)
*buf << lineWidth << " w ";
CFX_GraphStateData::LineCap lineCap = pPageObj->m_GraphState.GetLineCap();
if (lineCap != CFX_GraphStateData::LineCapButt)
*buf << static_cast<int>(lineCap) << " J ";
CFX_GraphStateData::LineJoin lineJoin = pPageObj->m_GraphState.GetLineJoin();
if (lineJoin != CFX_GraphStateData::LineJoinMiter)
*buf << static_cast<int>(lineJoin) << " j ";
GraphicsData graphD;
graphD.fillAlpha = pPageObj->m_GeneralState.GetFillAlpha();
graphD.strokeAlpha = pPageObj->m_GeneralState.GetStrokeAlpha();
graphD.blendType = pPageObj->m_GeneralState.GetBlendType();
if (graphD.fillAlpha == 1.0f && graphD.strokeAlpha == 1.0f &&
graphD.blendType == BlendMode::kNormal) {
return;
}
ByteString name;
auto it = m_pObjHolder->m_GraphicsMap.find(graphD);
if (it != m_pObjHolder->m_GraphicsMap.end()) {
name = it->second;
} else {
auto gsDict = pdfium::MakeUnique<CPDF_Dictionary>();
if (graphD.fillAlpha != 1.0f)
gsDict->SetNewFor<CPDF_Number>("ca", graphD.fillAlpha);
if (graphD.strokeAlpha != 1.0f)
gsDict->SetNewFor<CPDF_Number>("CA", graphD.strokeAlpha);
if (graphD.blendType != BlendMode::kNormal) {
gsDict->SetNewFor<CPDF_Name>("BM",
pPageObj->m_GeneralState.GetBlendMode());
}
CPDF_Object* pDict = m_pDocument->AddIndirectObject(std::move(gsDict));
name = RealizeResource(pDict, "ExtGState");
m_pObjHolder->m_GraphicsMap[graphD] = name;
}
*buf << "/" << PDF_NameEncode(name) << " gs ";
}
void CPDF_PageContentGenerator::ProcessDefaultGraphics(
std::ostringstream* buf) {
*buf << "0 0 0 RG 0 0 0 rg 1 w "
<< static_cast<int>(CFX_GraphStateData::LineCapButt) << " J "
<< static_cast<int>(CFX_GraphStateData::LineJoinMiter) << " j\n";
ByteString name = GetOrCreateDefaultGraphics();
*buf << "/" << PDF_NameEncode(name) << " gs ";
}
ByteString CPDF_PageContentGenerator::GetOrCreateDefaultGraphics() const {
GraphicsData defaultGraphics;
defaultGraphics.fillAlpha = 1.0f;
defaultGraphics.strokeAlpha = 1.0f;
defaultGraphics.blendType = BlendMode::kNormal;
auto it = m_pObjHolder->m_GraphicsMap.find(defaultGraphics);
// If default graphics already exists, return it.
if (it != m_pObjHolder->m_GraphicsMap.end())
return it->second;
// Otherwise, create them.
auto gsDict = pdfium::MakeUnique<CPDF_Dictionary>();
gsDict->SetNewFor<CPDF_Number>("ca", defaultGraphics.fillAlpha);
gsDict->SetNewFor<CPDF_Number>("CA", defaultGraphics.strokeAlpha);
gsDict->SetNewFor<CPDF_Name>("BM", "Normal");
CPDF_Object* pDict = m_pDocument->AddIndirectObject(std::move(gsDict));
ByteString name = RealizeResource(pDict, "ExtGState");
m_pObjHolder->m_GraphicsMap[defaultGraphics] = name;
return name;
}
// This method adds text to the buffer, BT begins the text object, ET ends it.
// Tm sets the text matrix (allows positioning and transforming text).
// Tf sets the font name (from Font in Resources) and font size.
// Tj sets the actual text, <####...> is used when specifying charcodes.
void CPDF_PageContentGenerator::ProcessText(std::ostringstream* buf,
CPDF_TextObject* pTextObj) {
ProcessGraphics(buf, pTextObj);
*buf << "BT " << pTextObj->GetTextMatrix() << " Tm ";
CPDF_Font* pFont = pTextObj->GetFont();
if (!pFont)
pFont = CPDF_Font::GetStockFont(m_pDocument.Get(), "Helvetica");
FontData fontD;
if (pFont->IsType1Font())
fontD.type = "Type1";
else if (pFont->IsTrueTypeFont())
fontD.type = "TrueType";
else if (pFont->IsCIDFont())
fontD.type = "Type0";
else
return;
fontD.baseFont = pFont->GetBaseFont();
auto it = m_pObjHolder->m_FontsMap.find(fontD);
ByteString dictName;
if (it != m_pObjHolder->m_FontsMap.end()) {
dictName = it->second;
} else {
CPDF_Object* pIndirectFont = pFont->GetFontDict();
if (pIndirectFont->IsInline()) {
// In this case we assume it must be a standard font
auto fontDict = pdfium::MakeUnique<CPDF_Dictionary>();
fontDict->SetNewFor<CPDF_Name>("Type", "Font");
fontDict->SetNewFor<CPDF_Name>("Subtype", fontD.type);
fontDict->SetNewFor<CPDF_Name>("BaseFont", fontD.baseFont);
pIndirectFont = m_pDocument->AddIndirectObject(std::move(fontDict));
}
dictName = RealizeResource(pIndirectFont, "Font");
m_pObjHolder->m_FontsMap[fontD] = dictName;
}
*buf << "/" << PDF_NameEncode(dictName) << " " << pTextObj->GetFontSize()
<< " Tf ";
ByteString text;
for (uint32_t charcode : pTextObj->GetCharCodes()) {
if (charcode != CPDF_Font::kInvalidCharCode)
pFont->AppendChar(&text, charcode);
}
*buf << PDF_EncodeString(text, true) << " Tj ET";
*buf << " Q\n";
}
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