// 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/fpdf_render/render_int.h" #include #include "core/fpdfapi/fpdf_font/cpdf_type3char.h" #include "core/fpdfapi/fpdf_font/cpdf_type3font.h" #include "core/fpdfapi/fpdf_page/cpdf_graphicstates.h" #include "core/fpdfapi/fpdf_page/include/cpdf_form.h" #include "core/fpdfapi/fpdf_page/include/cpdf_formobject.h" #include "core/fpdfapi/fpdf_page/include/cpdf_image.h" #include "core/fpdfapi/fpdf_page/include/cpdf_imageobject.h" #include "core/fpdfapi/fpdf_page/include/cpdf_page.h" #include "core/fpdfapi/fpdf_page/include/cpdf_pageobject.h" #include "core/fpdfapi/fpdf_page/include/cpdf_pathobject.h" #include "core/fpdfapi/fpdf_page/include/cpdf_textobject.h" #include "core/fpdfapi/fpdf_page/pageint.h" #include "core/fpdfapi/fpdf_parser/include/cpdf_array.h" #include "core/fpdfapi/fpdf_parser/include/cpdf_dictionary.h" #include "core/fpdfapi/fpdf_parser/include/cpdf_document.h" #include "core/fpdfapi/fpdf_render/cpdf_pagerendercache.h" #include "core/fpdfapi/fpdf_render/cpdf_type3cache.h" #include "core/fpdfapi/fpdf_render/include/cpdf_progressiverenderer.h" #include "core/fpdfapi/fpdf_render/include/cpdf_renderoptions.h" #include "core/fpdfapi/fpdf_render/include/cpdf_textrenderer.h" #include "core/fpdfapi/include/cpdf_modulemgr.h" #include "core/fpdfdoc/include/cpdf_occontext.h" #include "core/fxge/include/cfx_fxgedevice.h" #include "core/fxge/include/cfx_graphstatedata.h" #include "core/fxge/include/cfx_pathdata.h" #include "core/fxge/include/cfx_renderdevice.h" CPDF_DocRenderData::CPDF_DocRenderData(CPDF_Document* pPDFDoc) : m_pPDFDoc(pPDFDoc) {} CPDF_DocRenderData::~CPDF_DocRenderData() { Clear(TRUE); } void CPDF_DocRenderData::Clear(FX_BOOL bRelease) { for (auto it = m_Type3FaceMap.begin(); it != m_Type3FaceMap.end();) { auto curr_it = it++; CPDF_CountedObject* cache = curr_it->second; if (bRelease || cache->use_count() < 2) { delete cache->get(); delete cache; m_Type3FaceMap.erase(curr_it); } } for (auto it = m_TransferFuncMap.begin(); it != m_TransferFuncMap.end();) { auto curr_it = it++; CPDF_CountedObject* value = curr_it->second; if (bRelease || value->use_count() < 2) { delete value->get(); delete value; m_TransferFuncMap.erase(curr_it); } } } CPDF_Type3Cache* CPDF_DocRenderData::GetCachedType3(CPDF_Type3Font* pFont) { CPDF_CountedObject* pCache; auto it = m_Type3FaceMap.find(pFont); if (it == m_Type3FaceMap.end()) { CPDF_Type3Cache* pType3 = new CPDF_Type3Cache(pFont); pCache = new CPDF_CountedObject(pType3); m_Type3FaceMap[pFont] = pCache; } else { pCache = it->second; } return pCache->AddRef(); } void CPDF_DocRenderData::ReleaseCachedType3(CPDF_Type3Font* pFont) { auto it = m_Type3FaceMap.find(pFont); if (it != m_Type3FaceMap.end()) it->second->RemoveRef(); } CPDF_RenderOptions::CPDF_RenderOptions() : m_ColorMode(RENDER_COLOR_NORMAL), m_Flags(RENDER_CLEARTYPE), m_Interpolation(0), m_AddFlags(0), m_pOCContext(nullptr), m_dwLimitCacheSize(1024 * 1024 * 100), m_HalftoneLimit(-1), m_bDrawAnnots(false) {} CPDF_RenderOptions::CPDF_RenderOptions(const CPDF_RenderOptions& rhs) : m_ColorMode(rhs.m_ColorMode), m_BackColor(rhs.m_BackColor), m_ForeColor(rhs.m_ForeColor), m_Flags(rhs.m_Flags), m_Interpolation(rhs.m_Interpolation), m_AddFlags(rhs.m_AddFlags), m_pOCContext(rhs.m_pOCContext), m_dwLimitCacheSize(rhs.m_dwLimitCacheSize), m_HalftoneLimit(rhs.m_HalftoneLimit), m_bDrawAnnots(rhs.m_bDrawAnnots) {} FX_ARGB CPDF_RenderOptions::TranslateColor(FX_ARGB argb) const { if (m_ColorMode == RENDER_COLOR_NORMAL) { return argb; } if (m_ColorMode == RENDER_COLOR_ALPHA) { return argb; } int a, r, g, b; ArgbDecode(argb, a, r, g, b); int gray = FXRGB2GRAY(r, g, b); if (m_ColorMode == RENDER_COLOR_TWOCOLOR) { int color = (r - gray) * (r - gray) + (g - gray) * (g - gray) + (b - gray) * (b - gray); if (gray < 35 && color < 20) { return ArgbEncode(a, m_ForeColor); } if (gray > 221 && color < 20) { return ArgbEncode(a, m_BackColor); } return argb; } int fr = FXSYS_GetRValue(m_ForeColor); int fg = FXSYS_GetGValue(m_ForeColor); int fb = FXSYS_GetBValue(m_ForeColor); int br = FXSYS_GetRValue(m_BackColor); int bg = FXSYS_GetGValue(m_BackColor); int bb = FXSYS_GetBValue(m_BackColor); r = (br - fr) * gray / 255 + fr; g = (bg - fg) * gray / 255 + fg; b = (bb - fb) * gray / 255 + fb; return ArgbEncode(a, r, g, b); } // static int CPDF_RenderStatus::s_CurrentRecursionDepth = 0; CPDF_RenderStatus::CPDF_RenderStatus() : m_pFormResource(nullptr), m_pPageResource(nullptr), m_pContext(nullptr), m_bStopped(FALSE), m_pDevice(nullptr), m_pCurObj(nullptr), m_pStopObj(nullptr), m_HalftoneLimit(0), m_bPrint(FALSE), m_Transparency(0), m_bDropObjects(FALSE), m_bStdCS(FALSE), m_GroupFamily(0), m_bLoadMask(FALSE), m_pType3Char(nullptr), m_T3FillColor(0), m_curBlend(FXDIB_BLEND_NORMAL) {} CPDF_RenderStatus::~CPDF_RenderStatus() {} FX_BOOL CPDF_RenderStatus::Initialize(CPDF_RenderContext* pContext, CFX_RenderDevice* pDevice, const CFX_Matrix* pDeviceMatrix, const CPDF_PageObject* pStopObj, const CPDF_RenderStatus* pParentState, const CPDF_GraphicStates* pInitialStates, const CPDF_RenderOptions* pOptions, int transparency, FX_BOOL bDropObjects, CPDF_Dictionary* pFormResource, FX_BOOL bStdCS, CPDF_Type3Char* pType3Char, FX_ARGB fill_color, uint32_t GroupFamily, FX_BOOL bLoadMask) { m_pContext = pContext; m_pDevice = pDevice; m_bPrint = m_pDevice->GetDeviceClass() != FXDC_DISPLAY; if (pDeviceMatrix) { m_DeviceMatrix = *pDeviceMatrix; } m_pStopObj = pStopObj; if (pOptions) { m_Options = *pOptions; } m_bDropObjects = bDropObjects; m_bStdCS = bStdCS; m_T3FillColor = fill_color; m_pType3Char = pType3Char; m_GroupFamily = GroupFamily; m_bLoadMask = bLoadMask; m_pFormResource = pFormResource; m_pPageResource = m_pContext->GetPageResources(); if (pInitialStates && !m_pType3Char) { m_InitialStates.CopyStates(*pInitialStates); if (pParentState) { if (!m_InitialStates.m_ColorState.HasFillColor()) { m_InitialStates.m_ColorState.SetFillRGB( pParentState->m_InitialStates.m_ColorState.GetFillRGB()); m_InitialStates.m_ColorState.GetMutableFillColor()->Copy( pParentState->m_InitialStates.m_ColorState.GetFillColor()); } if (!m_InitialStates.m_ColorState.HasStrokeColor()) { m_InitialStates.m_ColorState.SetStrokeRGB( pParentState->m_InitialStates.m_ColorState.GetFillRGB()); m_InitialStates.m_ColorState.GetMutableStrokeColor()->Copy( pParentState->m_InitialStates.m_ColorState.GetStrokeColor()); } } } else { m_InitialStates.DefaultStates(); } m_pImageRenderer.reset(); m_Transparency = transparency; return TRUE; } void CPDF_RenderStatus::RenderObjectList( const CPDF_PageObjectHolder* pObjectHolder, const CFX_Matrix* pObj2Device) { #if defined _SKIA_SUPPORT_ DebugVerifyDeviceIsPreMultiplied(); #endif CFX_FloatRect clip_rect(m_pDevice->GetClipBox()); CFX_Matrix device2object; device2object.SetReverse(*pObj2Device); device2object.TransformRect(clip_rect); for (const auto& pCurObj : *pObjectHolder->GetPageObjectList()) { if (pCurObj.get() == m_pStopObj) { m_bStopped = TRUE; return; } if (!pCurObj) continue; if (pCurObj->m_Left > clip_rect.right || pCurObj->m_Right < clip_rect.left || pCurObj->m_Bottom > clip_rect.top || pCurObj->m_Top < clip_rect.bottom) { continue; } RenderSingleObject(pCurObj.get(), pObj2Device); if (m_bStopped) return; } #if defined _SKIA_SUPPORT_ DebugVerifyDeviceIsPreMultiplied(); #endif } void CPDF_RenderStatus::RenderSingleObject(CPDF_PageObject* pObj, const CFX_Matrix* pObj2Device) { #if defined _SKIA_SUPPORT_ DebugVerifyDeviceIsPreMultiplied(); #endif CFX_AutoRestorer restorer(&s_CurrentRecursionDepth); if (++s_CurrentRecursionDepth > kRenderMaxRecursionDepth) { return; } m_pCurObj = pObj; if (m_Options.m_pOCContext && pObj->m_ContentMark) { if (!m_Options.m_pOCContext->CheckObjectVisible(pObj)) { return; } } ProcessClipPath(pObj->m_ClipPath, pObj2Device); if (ProcessTransparency(pObj, pObj2Device)) { return; } ProcessObjectNoClip(pObj, pObj2Device); #if defined _SKIA_SUPPORT_ DebugVerifyDeviceIsPreMultiplied(); #endif } FX_BOOL CPDF_RenderStatus::ContinueSingleObject(CPDF_PageObject* pObj, const CFX_Matrix* pObj2Device, IFX_Pause* pPause) { if (m_pImageRenderer) { if (m_pImageRenderer->Continue(pPause)) return TRUE; if (!m_pImageRenderer->m_Result) DrawObjWithBackground(pObj, pObj2Device); m_pImageRenderer.reset(); return FALSE; } m_pCurObj = pObj; if (m_Options.m_pOCContext && pObj->m_ContentMark && !m_Options.m_pOCContext->CheckObjectVisible(pObj)) { return FALSE; } ProcessClipPath(pObj->m_ClipPath, pObj2Device); if (ProcessTransparency(pObj, pObj2Device)) return FALSE; if (pObj->IsImage()) { m_pImageRenderer.reset(new CPDF_ImageRenderer); if (!m_pImageRenderer->Start(this, pObj, pObj2Device, FALSE)) { if (!m_pImageRenderer->m_Result) DrawObjWithBackground(pObj, pObj2Device); m_pImageRenderer.reset(); return FALSE; } return ContinueSingleObject(pObj, pObj2Device, pPause); } ProcessObjectNoClip(pObj, pObj2Device); return FALSE; } FX_BOOL CPDF_RenderStatus::GetObjectClippedRect(const CPDF_PageObject* pObj, const CFX_Matrix* pObj2Device, FX_BOOL bLogical, FX_RECT& rect) const { rect = pObj->GetBBox(pObj2Device); FX_RECT rtClip = m_pDevice->GetClipBox(); if (!bLogical) { CFX_Matrix dCTM = m_pDevice->GetCTM(); FX_FLOAT a = FXSYS_fabs(dCTM.a); FX_FLOAT d = FXSYS_fabs(dCTM.d); if (a != 1.0f || d != 1.0f) { rect.right = rect.left + (int32_t)FXSYS_ceil((FX_FLOAT)rect.Width() * a); rect.bottom = rect.top + (int32_t)FXSYS_ceil((FX_FLOAT)rect.Height() * d); rtClip.right = rtClip.left + (int32_t)FXSYS_ceil((FX_FLOAT)rtClip.Width() * a); rtClip.bottom = rtClip.top + (int32_t)FXSYS_ceil((FX_FLOAT)rtClip.Height() * d); } } rect.Intersect(rtClip); return rect.IsEmpty(); } void CPDF_RenderStatus::ProcessObjectNoClip(CPDF_PageObject* pObj, const CFX_Matrix* pObj2Device) { #if defined _SKIA_SUPPORT_ DebugVerifyDeviceIsPreMultiplied(); #endif FX_BOOL bRet = FALSE; switch (pObj->GetType()) { case CPDF_PageObject::TEXT: bRet = ProcessText(pObj->AsText(), pObj2Device, nullptr); break; case CPDF_PageObject::PATH: bRet = ProcessPath(pObj->AsPath(), pObj2Device); break; case CPDF_PageObject::IMAGE: bRet = ProcessImage(pObj->AsImage(), pObj2Device); break; case CPDF_PageObject::SHADING: ProcessShading(pObj->AsShading(), pObj2Device); return; case CPDF_PageObject::FORM: bRet = ProcessForm(pObj->AsForm(), pObj2Device); break; } if (!bRet) DrawObjWithBackground(pObj, pObj2Device); #if defined _SKIA_SUPPORT_ DebugVerifyDeviceIsPreMultiplied(); #endif } FX_BOOL CPDF_RenderStatus::DrawObjWithBlend(CPDF_PageObject* pObj, const CFX_Matrix* pObj2Device) { FX_BOOL bRet = FALSE; switch (pObj->GetType()) { case CPDF_PageObject::PATH: bRet = ProcessPath(pObj->AsPath(), pObj2Device); break; case CPDF_PageObject::IMAGE: bRet = ProcessImage(pObj->AsImage(), pObj2Device); break; case CPDF_PageObject::FORM: bRet = ProcessForm(pObj->AsForm(), pObj2Device); break; default: break; } return bRet; } void CPDF_RenderStatus::GetScaledMatrix(CFX_Matrix& matrix) const { CFX_Matrix dCTM = m_pDevice->GetCTM(); matrix.a *= FXSYS_fabs(dCTM.a); matrix.d *= FXSYS_fabs(dCTM.d); } void CPDF_RenderStatus::DrawObjWithBackground(CPDF_PageObject* pObj, const CFX_Matrix* pObj2Device) { FX_RECT rect; if (GetObjectClippedRect(pObj, pObj2Device, FALSE, rect)) { return; } int res = 300; if (pObj->IsImage() && m_pDevice->GetDeviceCaps(FXDC_DEVICE_CLASS) == FXDC_PRINTER) { res = 0; } CPDF_ScaledRenderBuffer buffer; if (!buffer.Initialize(m_pContext, m_pDevice, rect, pObj, &m_Options, res)) { return; } CFX_Matrix matrix = *pObj2Device; matrix.Concat(*buffer.GetMatrix()); GetScaledMatrix(matrix); CPDF_Dictionary* pFormResource = nullptr; if (pObj->IsForm()) { const CPDF_FormObject* pFormObj = pObj->AsForm(); if (pFormObj->m_pForm && pFormObj->m_pForm->m_pFormDict) { pFormResource = pFormObj->m_pForm->m_pFormDict->GetDictFor("Resources"); } } CPDF_RenderStatus status; status.Initialize(m_pContext, buffer.GetDevice(), buffer.GetMatrix(), nullptr, nullptr, nullptr, &m_Options, m_Transparency, m_bDropObjects, pFormResource); status.RenderSingleObject(pObj, &matrix); buffer.OutputToDevice(); } FX_BOOL CPDF_RenderStatus::ProcessForm(const CPDF_FormObject* pFormObj, const CFX_Matrix* pObj2Device) { #if defined _SKIA_SUPPORT_ DebugVerifyDeviceIsPreMultiplied(); #endif CPDF_Dictionary* pOC = pFormObj->m_pForm->m_pFormDict->GetDictFor("OC"); if (pOC && m_Options.m_pOCContext && !m_Options.m_pOCContext->CheckOCGVisible(pOC)) { return TRUE; } CFX_Matrix matrix = pFormObj->m_FormMatrix; matrix.Concat(*pObj2Device); CPDF_Dictionary* pResources = nullptr; if (pFormObj->m_pForm && pFormObj->m_pForm->m_pFormDict) { pResources = pFormObj->m_pForm->m_pFormDict->GetDictFor("Resources"); } CPDF_RenderStatus status; status.Initialize(m_pContext, m_pDevice, nullptr, m_pStopObj, this, pFormObj, &m_Options, m_Transparency, m_bDropObjects, pResources, FALSE); status.m_curBlend = m_curBlend; m_pDevice->SaveState(); status.RenderObjectList(pFormObj->m_pForm.get(), &matrix); m_bStopped = status.m_bStopped; m_pDevice->RestoreState(false); #if defined _SKIA_SUPPORT_ DebugVerifyDeviceIsPreMultiplied(); #endif return TRUE; } FX_BOOL IsAvailableMatrix(const CFX_Matrix& matrix) { if (matrix.a == 0 || matrix.d == 0) { return matrix.b != 0 && matrix.c != 0; } if (matrix.b == 0 || matrix.c == 0) { return matrix.a != 0 && matrix.d != 0; } return TRUE; } FX_BOOL CPDF_RenderStatus::ProcessPath(CPDF_PathObject* pPathObj, const CFX_Matrix* pObj2Device) { int FillType = pPathObj->m_FillType; FX_BOOL bStroke = pPathObj->m_bStroke; ProcessPathPattern(pPathObj, pObj2Device, FillType, bStroke); if (FillType == 0 && !bStroke) return TRUE; uint32_t fill_argb = FillType ? GetFillArgb(pPathObj) : 0; uint32_t stroke_argb = bStroke ? GetStrokeArgb(pPathObj) : 0; CFX_Matrix path_matrix = pPathObj->m_Matrix; path_matrix.Concat(*pObj2Device); if (!IsAvailableMatrix(path_matrix)) return TRUE; if (FillType && (m_Options.m_Flags & RENDER_RECT_AA)) FillType |= FXFILL_RECT_AA; if (m_Options.m_Flags & RENDER_FILL_FULLCOVER) FillType |= FXFILL_FULLCOVER; if (m_Options.m_Flags & RENDER_NOPATHSMOOTH) FillType |= FXFILL_NOPATHSMOOTH; if (bStroke) FillType |= FX_FILL_STROKE; const CPDF_PageObject* pPageObj = static_cast(pPathObj); if (pPageObj->m_GeneralState.GetStrokeAdjust()) FillType |= FX_STROKE_ADJUST; if (m_pType3Char) FillType |= FX_FILL_TEXT_MODE; CFX_GraphState graphState = pPathObj->m_GraphState; if (m_Options.m_Flags & RENDER_THINLINE) graphState.SetLineWidth(0); return m_pDevice->DrawPathWithBlend( pPathObj->m_Path.GetObject(), &path_matrix, graphState.GetObject(), fill_argb, stroke_argb, FillType, m_curBlend); } CPDF_TransferFunc* CPDF_RenderStatus::GetTransferFunc(CPDF_Object* pObj) const { ASSERT(pObj); CPDF_DocRenderData* pDocCache = m_pContext->GetDocument()->GetRenderData(); return pDocCache ? pDocCache->GetTransferFunc(pObj) : nullptr; } FX_ARGB CPDF_RenderStatus::GetFillArgb(CPDF_PageObject* pObj, FX_BOOL bType3) const { const CPDF_ColorState* pColorState = &pObj->m_ColorState; if (m_pType3Char && !bType3 && (!m_pType3Char->m_bColored || (m_pType3Char->m_bColored && (!*pColorState || pColorState->GetFillColor()->IsNull())))) { return m_T3FillColor; } if (!*pColorState || pColorState->GetFillColor()->IsNull()) pColorState = &m_InitialStates.m_ColorState; FX_COLORREF rgb = pColorState->GetFillRGB(); if (rgb == (uint32_t)-1) return 0; int32_t alpha = static_cast((pObj->m_GeneralState.GetFillAlpha() * 255)); if (pObj->m_GeneralState.GetTR()) { if (!pObj->m_GeneralState.GetTransferFunc()) { pObj->m_GeneralState.SetTransferFunc( GetTransferFunc(pObj->m_GeneralState.GetTR())); } if (pObj->m_GeneralState.GetTransferFunc()) rgb = pObj->m_GeneralState.GetTransferFunc()->TranslateColor(rgb); } return m_Options.TranslateColor(ArgbEncode(alpha, rgb)); } FX_ARGB CPDF_RenderStatus::GetStrokeArgb(CPDF_PageObject* pObj) const { const CPDF_ColorState* pColorState = &pObj->m_ColorState; if (m_pType3Char && (!m_pType3Char->m_bColored || (m_pType3Char->m_bColored && (!*pColorState || pColorState->GetStrokeColor()->IsNull())))) { return m_T3FillColor; } if (!*pColorState || pColorState->GetStrokeColor()->IsNull()) pColorState = &m_InitialStates.m_ColorState; FX_COLORREF rgb = pColorState->GetStrokeRGB(); if (rgb == (uint32_t)-1) return 0; int32_t alpha = static_cast(pObj->m_GeneralState.GetStrokeAlpha() * 255); // not rounded. if (pObj->m_GeneralState.GetTR()) { if (!pObj->m_GeneralState.GetTransferFunc()) { pObj->m_GeneralState.SetTransferFunc( GetTransferFunc(pObj->m_GeneralState.GetTR())); } if (pObj->m_GeneralState.GetTransferFunc()) rgb = pObj->m_GeneralState.GetTransferFunc()->TranslateColor(rgb); } return m_Options.TranslateColor(ArgbEncode(alpha, rgb)); } void CPDF_RenderStatus::ProcessClipPath(CPDF_ClipPath ClipPath, const CFX_Matrix* pObj2Device) { if (!ClipPath) { if (m_LastClipPath) { m_pDevice->RestoreState(true); m_LastClipPath.SetNull(); } return; } if (m_LastClipPath == ClipPath) return; m_LastClipPath = ClipPath; m_pDevice->RestoreState(true); int nClipPath = ClipPath.GetPathCount(); for (int i = 0; i < nClipPath; ++i) { const CFX_PathData* pPathData = ClipPath.GetPath(i).GetObject(); if (!pPathData) continue; if (pPathData->GetPointCount() == 0) { CFX_PathData EmptyPath; EmptyPath.AppendRect(-1, -1, 0, 0); int fill_mode = FXFILL_WINDING; m_pDevice->SetClip_PathFill(&EmptyPath, nullptr, fill_mode); } else { int ClipType = ClipPath.GetClipType(i); m_pDevice->SetClip_PathFill(pPathData, pObj2Device, ClipType); } } int textcount = ClipPath.GetTextCount(); if (textcount == 0) return; if (m_pDevice->GetDeviceClass() == FXDC_DISPLAY && !(m_pDevice->GetDeviceCaps(FXDC_RENDER_CAPS) & FXRC_SOFT_CLIP)) { return; } std::unique_ptr pTextClippingPath; for (int i = 0; i < textcount; ++i) { CPDF_TextObject* pText = ClipPath.GetText(i); if (pText) { if (!pTextClippingPath) pTextClippingPath.reset(new CFX_PathData); ProcessText(pText, pObj2Device, pTextClippingPath.get()); continue; } if (!pTextClippingPath) continue; int fill_mode = FXFILL_WINDING; if (m_Options.m_Flags & RENDER_NOTEXTSMOOTH) fill_mode |= FXFILL_NOPATHSMOOTH; m_pDevice->SetClip_PathFill(pTextClippingPath.get(), nullptr, fill_mode); pTextClippingPath.reset(); } } void CPDF_RenderStatus::DrawClipPath(CPDF_ClipPath ClipPath, const CFX_Matrix* pObj2Device) { if (!ClipPath) return; int fill_mode = 0; if (m_Options.m_Flags & RENDER_NOPATHSMOOTH) { fill_mode |= FXFILL_NOPATHSMOOTH; } int nClipPath = ClipPath.GetPathCount(); int i; for (i = 0; i < nClipPath; i++) { const CFX_PathData* pPathData = ClipPath.GetPath(i).GetObject(); if (!pPathData) { continue; } CFX_GraphStateData stroke_state; if (m_Options.m_Flags & RENDER_THINLINE) { stroke_state.m_LineWidth = 0; } m_pDevice->DrawPath(pPathData, pObj2Device, &stroke_state, 0, 0xffff0000, fill_mode); } } FX_BOOL CPDF_RenderStatus::SelectClipPath(const CPDF_PathObject* pPathObj, const CFX_Matrix* pObj2Device, FX_BOOL bStroke) { CFX_Matrix path_matrix = pPathObj->m_Matrix; path_matrix.Concat(*pObj2Device); if (bStroke) { CFX_GraphState graphState = pPathObj->m_GraphState; if (m_Options.m_Flags & RENDER_THINLINE) graphState.SetLineWidth(0); return m_pDevice->SetClip_PathStroke(pPathObj->m_Path.GetObject(), &path_matrix, graphState.GetObject()); } int fill_mode = pPathObj->m_FillType; if (m_Options.m_Flags & RENDER_NOPATHSMOOTH) { fill_mode |= FXFILL_NOPATHSMOOTH; } return m_pDevice->SetClip_PathFill(pPathObj->m_Path.GetObject(), &path_matrix, fill_mode); } FX_BOOL CPDF_RenderStatus::ProcessTransparency(CPDF_PageObject* pPageObj, const CFX_Matrix* pObj2Device) { #if defined _SKIA_SUPPORT_ DebugVerifyDeviceIsPreMultiplied(); #endif int blend_type = pPageObj->m_GeneralState.GetBlendType(); if (blend_type == FXDIB_BLEND_UNSUPPORTED) return TRUE; CPDF_Dictionary* pSMaskDict = ToDictionary(pPageObj->m_GeneralState.GetSoftMask()); if (pSMaskDict) { if (pPageObj->IsImage() && pPageObj->AsImage()->GetImage()->GetDict()->KeyExist("SMask")) { pSMaskDict = nullptr; } } CPDF_Dictionary* pFormResource = nullptr; FX_FLOAT group_alpha = 1.0f; int Transparency = m_Transparency; FX_BOOL bGroupTransparent = FALSE; if (pPageObj->IsForm()) { const CPDF_FormObject* pFormObj = pPageObj->AsForm(); group_alpha = pFormObj->m_GeneralState.GetFillAlpha(); Transparency = pFormObj->m_pForm->m_Transparency; bGroupTransparent = !!(Transparency & PDFTRANS_ISOLATED); if (pFormObj->m_pForm->m_pFormDict) { pFormResource = pFormObj->m_pForm->m_pFormDict->GetDictFor("Resources"); } } bool bTextClip = (pPageObj->m_ClipPath && pPageObj->m_ClipPath.GetTextCount() && m_pDevice->GetDeviceClass() == FXDC_DISPLAY && !(m_pDevice->GetDeviceCaps(FXDC_RENDER_CAPS) & FXRC_SOFT_CLIP)); if ((m_Options.m_Flags & RENDER_OVERPRINT) && pPageObj->IsImage() && pPageObj->m_GeneralState.GetFillOP() && pPageObj->m_GeneralState.GetStrokeOP()) { CPDF_Document* pDocument = nullptr; CPDF_Page* pPage = nullptr; if (m_pContext->GetPageCache()) { pPage = m_pContext->GetPageCache()->GetPage(); pDocument = pPage->m_pDocument; } else { pDocument = pPageObj->AsImage()->GetImage()->GetDocument(); } CPDF_Dictionary* pPageResources = pPage ? pPage->m_pPageResources : nullptr; CPDF_Object* pCSObj = pPageObj->AsImage() ->GetImage() ->GetStream() ->GetDict() ->GetDirectObjectFor("ColorSpace"); CPDF_ColorSpace* pColorSpace = pDocument->LoadColorSpace(pCSObj, pPageResources); if (pColorSpace) { int format = pColorSpace->GetFamily(); if (format == PDFCS_DEVICECMYK || format == PDFCS_SEPARATION || format == PDFCS_DEVICEN) { blend_type = FXDIB_BLEND_DARKEN; } pDocument->GetPageData()->ReleaseColorSpace(pCSObj); } } if (!pSMaskDict && group_alpha == 1.0f && blend_type == FXDIB_BLEND_NORMAL && !bTextClip && !bGroupTransparent) { return FALSE; } bool isolated = !!(Transparency & PDFTRANS_ISOLATED); if (m_bPrint) { FX_BOOL bRet = FALSE; int rendCaps = m_pDevice->GetRenderCaps(); if (!((Transparency & PDFTRANS_ISOLATED) || pSMaskDict || bTextClip) && (rendCaps & FXRC_BLEND_MODE)) { int oldBlend = m_curBlend; m_curBlend = blend_type; bRet = DrawObjWithBlend(pPageObj, pObj2Device); m_curBlend = oldBlend; } if (!bRet) { DrawObjWithBackground(pPageObj, pObj2Device); } return TRUE; } FX_RECT rect = pPageObj->GetBBox(pObj2Device); rect.Intersect(m_pDevice->GetClipBox()); if (rect.IsEmpty()) { return TRUE; } CFX_Matrix deviceCTM = m_pDevice->GetCTM(); FX_FLOAT scaleX = FXSYS_fabs(deviceCTM.a); FX_FLOAT scaleY = FXSYS_fabs(deviceCTM.d); int width = FXSYS_round((FX_FLOAT)rect.Width() * scaleX); int height = FXSYS_round((FX_FLOAT)rect.Height() * scaleY); CFX_FxgeDevice bitmap_device; std::unique_ptr oriDevice; if (!isolated && (m_pDevice->GetRenderCaps() & FXRC_GET_BITS)) { oriDevice.reset(new CFX_DIBitmap); if (!m_pDevice->CreateCompatibleBitmap(oriDevice.get(), width, height)) return TRUE; m_pDevice->GetDIBits(oriDevice.get(), rect.left, rect.top); } if (!bitmap_device.Create(width, height, FXDIB_Argb, oriDevice.get())) return TRUE; CFX_DIBitmap* bitmap = bitmap_device.GetBitmap(); bitmap->Clear(0); CFX_Matrix new_matrix = *pObj2Device; new_matrix.TranslateI(-rect.left, -rect.top); new_matrix.Scale(scaleX, scaleY); std::unique_ptr pTextMask; if (bTextClip) { pTextMask.reset(new CFX_DIBitmap); if (!pTextMask->Create(width, height, FXDIB_8bppMask)) return TRUE; pTextMask->Clear(0); CFX_FxgeDevice text_device; text_device.Attach(pTextMask.get(), false, nullptr, false); for (uint32_t i = 0; i < pPageObj->m_ClipPath.GetTextCount(); i++) { CPDF_TextObject* textobj = pPageObj->m_ClipPath.GetText(i); if (!textobj) { break; } CFX_Matrix text_matrix; textobj->GetTextMatrix(&text_matrix); CPDF_TextRenderer::DrawTextPath( &text_device, textobj->m_nChars, textobj->m_pCharCodes, textobj->m_pCharPos, textobj->m_TextState.GetFont(), textobj->m_TextState.GetFontSize(), &text_matrix, &new_matrix, textobj->m_GraphState.GetObject(), (FX_ARGB)-1, 0, nullptr, 0); } } CPDF_RenderStatus bitmap_render; bitmap_render.Initialize(m_pContext, &bitmap_device, nullptr, m_pStopObj, nullptr, nullptr, &m_Options, 0, m_bDropObjects, pFormResource, TRUE); bitmap_render.ProcessObjectNoClip(pPageObj, &new_matrix); m_bStopped = bitmap_render.m_bStopped; if (pSMaskDict) { CFX_Matrix smask_matrix = *pPageObj->m_GeneralState.GetSMaskMatrix(); smask_matrix.Concat(*pObj2Device); std::unique_ptr pSMaskSource( LoadSMask(pSMaskDict, &rect, &smask_matrix)); if (pSMaskSource) bitmap->MultiplyAlpha(pSMaskSource.get()); } if (pTextMask) { bitmap->MultiplyAlpha(pTextMask.get()); pTextMask.reset(); } int32_t blitAlpha = 255; if (Transparency & PDFTRANS_GROUP && group_alpha != 1.0f) { blitAlpha = (int32_t)(group_alpha * 255); #ifndef _SKIA_SUPPORT_ bitmap->MultiplyAlpha(blitAlpha); blitAlpha = 255; #endif } Transparency = m_Transparency; if (pPageObj->IsForm()) { Transparency |= PDFTRANS_GROUP; } CompositeDIBitmap(bitmap, rect.left, rect.top, 0, blitAlpha, blend_type, Transparency); #if defined _SKIA_SUPPORT_ DebugVerifyDeviceIsPreMultiplied(); #endif return TRUE; } CFX_DIBitmap* CPDF_RenderStatus::GetBackdrop(const CPDF_PageObject* pObj, const FX_RECT& rect, int& left, int& top, FX_BOOL bBackAlphaRequired) { FX_RECT bbox = rect; bbox.Intersect(m_pDevice->GetClipBox()); left = bbox.left; top = bbox.top; CFX_Matrix deviceCTM = m_pDevice->GetCTM(); FX_FLOAT scaleX = FXSYS_fabs(deviceCTM.a); FX_FLOAT scaleY = FXSYS_fabs(deviceCTM.d); int width = FXSYS_round(bbox.Width() * scaleX); int height = FXSYS_round(bbox.Height() * scaleY); std::unique_ptr pBackdrop(new CFX_DIBitmap); if (bBackAlphaRequired && !m_bDropObjects) pBackdrop->Create(width, height, FXDIB_Argb); else m_pDevice->CreateCompatibleBitmap(pBackdrop.get(), width, height); if (!pBackdrop->GetBuffer()) return nullptr; FX_BOOL bNeedDraw; if (pBackdrop->HasAlpha()) bNeedDraw = !(m_pDevice->GetRenderCaps() & FXRC_ALPHA_OUTPUT); else bNeedDraw = !(m_pDevice->GetRenderCaps() & FXRC_GET_BITS); if (!bNeedDraw) { m_pDevice->GetDIBits(pBackdrop.get(), left, top); return pBackdrop.release(); } CFX_Matrix FinalMatrix = m_DeviceMatrix; FinalMatrix.TranslateI(-left, -top); FinalMatrix.Scale(scaleX, scaleY); pBackdrop->Clear(pBackdrop->HasAlpha() ? 0 : 0xffffffff); CFX_FxgeDevice device; device.Attach(pBackdrop.get(), false, nullptr, false); m_pContext->Render(&device, pObj, &m_Options, &FinalMatrix); return pBackdrop.release(); } void CPDF_RenderContext::GetBackground(CFX_DIBitmap* pBuffer, const CPDF_PageObject* pObj, const CPDF_RenderOptions* pOptions, CFX_Matrix* pFinalMatrix) { CFX_FxgeDevice device; device.Attach(pBuffer, false, nullptr, false); FX_RECT rect(0, 0, device.GetWidth(), device.GetHeight()); device.FillRect(&rect, 0xffffffff); Render(&device, pObj, pOptions, pFinalMatrix); } CPDF_GraphicStates* CPDF_RenderStatus::CloneObjStates( const CPDF_GraphicStates* pSrcStates, FX_BOOL bStroke) { if (!pSrcStates) return nullptr; CPDF_GraphicStates* pStates = new CPDF_GraphicStates; pStates->CopyStates(*pSrcStates); const CPDF_Color* pObjColor = bStroke ? pSrcStates->m_ColorState.GetStrokeColor() : pSrcStates->m_ColorState.GetFillColor(); if (!pObjColor->IsNull()) { pStates->m_ColorState.SetFillRGB( bStroke ? pSrcStates->m_ColorState.GetStrokeRGB() : pSrcStates->m_ColorState.GetFillRGB()); pStates->m_ColorState.SetStrokeRGB(pStates->m_ColorState.GetFillRGB()); } return pStates; } CPDF_RenderContext::CPDF_RenderContext(CPDF_Page* pPage) : m_pDocument(pPage->m_pDocument), m_pPageResources(pPage->m_pPageResources), m_pPageCache(pPage->GetRenderCache()) {} CPDF_RenderContext::CPDF_RenderContext(CPDF_Document* pDoc, CPDF_PageRenderCache* pPageCache) : m_pDocument(pDoc), m_pPageResources(nullptr), m_pPageCache(pPageCache) {} CPDF_RenderContext::~CPDF_RenderContext() {} void CPDF_RenderContext::AppendLayer(CPDF_PageObjectHolder* pObjectHolder, const CFX_Matrix* pObject2Device) { Layer* pLayer = m_Layers.AddSpace(); pLayer->m_pObjectHolder = pObjectHolder; if (pObject2Device) { pLayer->m_Matrix = *pObject2Device; } else { pLayer->m_Matrix.SetIdentity(); } } void CPDF_RenderContext::Render(CFX_RenderDevice* pDevice, const CPDF_RenderOptions* pOptions, const CFX_Matrix* pLastMatrix) { Render(pDevice, nullptr, pOptions, pLastMatrix); } void CPDF_RenderContext::Render(CFX_RenderDevice* pDevice, const CPDF_PageObject* pStopObj, const CPDF_RenderOptions* pOptions, const CFX_Matrix* pLastMatrix) { int count = m_Layers.GetSize(); for (int j = 0; j < count; j++) { pDevice->SaveState(); Layer* pLayer = m_Layers.GetDataPtr(j); if (pLastMatrix) { CFX_Matrix FinalMatrix = pLayer->m_Matrix; FinalMatrix.Concat(*pLastMatrix); CPDF_RenderStatus status; status.Initialize(this, pDevice, pLastMatrix, pStopObj, nullptr, nullptr, pOptions, pLayer->m_pObjectHolder->m_Transparency, FALSE, nullptr); status.RenderObjectList(pLayer->m_pObjectHolder, &FinalMatrix); if (status.m_Options.m_Flags & RENDER_LIMITEDIMAGECACHE) { m_pPageCache->CacheOptimization(status.m_Options.m_dwLimitCacheSize); } if (status.m_bStopped) { pDevice->RestoreState(false); break; } } else { CPDF_RenderStatus status; status.Initialize(this, pDevice, nullptr, pStopObj, nullptr, nullptr, pOptions, pLayer->m_pObjectHolder->m_Transparency, FALSE, nullptr); status.RenderObjectList(pLayer->m_pObjectHolder, &pLayer->m_Matrix); if (status.m_Options.m_Flags & RENDER_LIMITEDIMAGECACHE) { m_pPageCache->CacheOptimization(status.m_Options.m_dwLimitCacheSize); } if (status.m_bStopped) { pDevice->RestoreState(false); break; } } pDevice->RestoreState(false); } } CPDF_ProgressiveRenderer::CPDF_ProgressiveRenderer( CPDF_RenderContext* pContext, CFX_RenderDevice* pDevice, const CPDF_RenderOptions* pOptions) : m_Status(Ready), m_pContext(pContext), m_pDevice(pDevice), m_pOptions(pOptions), m_LayerIndex(0), m_pCurrentLayer(nullptr) {} CPDF_ProgressiveRenderer::~CPDF_ProgressiveRenderer() { if (m_pRenderStatus) m_pDevice->RestoreState(false); } void CPDF_ProgressiveRenderer::Start(IFX_Pause* pPause) { if (!m_pContext || !m_pDevice || m_Status != Ready) { m_Status = Failed; return; } m_Status = ToBeContinued; Continue(pPause); } void CPDF_ProgressiveRenderer::Continue(IFX_Pause* pPause) { while (m_Status == ToBeContinued) { if (!m_pCurrentLayer) { if (m_LayerIndex >= m_pContext->CountLayers()) { m_Status = Done; return; } m_pCurrentLayer = m_pContext->GetLayer(m_LayerIndex); m_LastObjectRendered = m_pCurrentLayer->m_pObjectHolder->GetPageObjectList()->end(); m_pRenderStatus.reset(new CPDF_RenderStatus()); m_pRenderStatus->Initialize( m_pContext, m_pDevice, nullptr, nullptr, nullptr, nullptr, m_pOptions, m_pCurrentLayer->m_pObjectHolder->m_Transparency, FALSE, nullptr); m_pDevice->SaveState(); m_ClipRect = CFX_FloatRect(m_pDevice->GetClipBox()); CFX_Matrix device2object; device2object.SetReverse(m_pCurrentLayer->m_Matrix); device2object.TransformRect(m_ClipRect); } CPDF_PageObjectList::iterator iter; CPDF_PageObjectList::iterator iterEnd = m_pCurrentLayer->m_pObjectHolder->GetPageObjectList()->end(); if (m_LastObjectRendered != iterEnd) { iter = m_LastObjectRendered; ++iter; } else { iter = m_pCurrentLayer->m_pObjectHolder->GetPageObjectList()->begin(); } int nObjsToGo = kStepLimit; while (iter != iterEnd) { CPDF_PageObject* pCurObj = iter->get(); if (pCurObj && pCurObj->m_Left <= m_ClipRect.right && pCurObj->m_Right >= m_ClipRect.left && pCurObj->m_Bottom <= m_ClipRect.top && pCurObj->m_Top >= m_ClipRect.bottom) { if (m_pRenderStatus->ContinueSingleObject( pCurObj, &m_pCurrentLayer->m_Matrix, pPause)) { return; } if (pCurObj->IsImage() && m_pRenderStatus->m_Options.m_Flags & RENDER_LIMITEDIMAGECACHE) { m_pContext->GetPageCache()->CacheOptimization( m_pRenderStatus->m_Options.m_dwLimitCacheSize); } if (pCurObj->IsForm() || pCurObj->IsShading()) { nObjsToGo = 0; } else { --nObjsToGo; } } m_LastObjectRendered = iter; if (nObjsToGo == 0) { if (pPause && pPause->NeedToPauseNow()) return; nObjsToGo = kStepLimit; } ++iter; } if (m_pCurrentLayer->m_pObjectHolder->IsParsed()) { m_pRenderStatus.reset(); m_pDevice->RestoreState(false); m_pCurrentLayer = nullptr; m_LayerIndex++; if (pPause && pPause->NeedToPauseNow()) { return; } } else { m_pCurrentLayer->m_pObjectHolder->ContinueParse(pPause); if (!m_pCurrentLayer->m_pObjectHolder->IsParsed()) return; } } } CPDF_TransferFunc* CPDF_DocRenderData::GetTransferFunc(CPDF_Object* pObj) { if (!pObj) return nullptr; auto it = m_TransferFuncMap.find(pObj); if (it != m_TransferFuncMap.end()) { CPDF_CountedObject* pTransferCounter = it->second; return pTransferCounter->AddRef(); } std::unique_ptr pFuncs[3]; FX_BOOL bUniTransfer = TRUE; FX_BOOL bIdentity = TRUE; if (CPDF_Array* pArray = pObj->AsArray()) { bUniTransfer = FALSE; if (pArray->GetCount() < 3) return nullptr; for (uint32_t i = 0; i < 3; ++i) { pFuncs[2 - i] = CPDF_Function::Load(pArray->GetDirectObjectAt(i)); if (!pFuncs[2 - i]) return nullptr; } } else { pFuncs[0] = CPDF_Function::Load(pObj); if (!pFuncs[0]) return nullptr; } CPDF_TransferFunc* pTransfer = new CPDF_TransferFunc(m_pPDFDoc); CPDF_CountedObject* pTransferCounter = new CPDF_CountedObject(pTransfer); m_TransferFuncMap[pObj] = pTransferCounter; static const int kMaxOutputs = 16; FX_FLOAT output[kMaxOutputs]; FXSYS_memset(output, 0, sizeof(output)); FX_FLOAT input; int noutput; for (int v = 0; v < 256; ++v) { input = (FX_FLOAT)v / 255.0f; if (bUniTransfer) { if (pFuncs[0] && pFuncs[0]->CountOutputs() <= kMaxOutputs) pFuncs[0]->Call(&input, 1, output, noutput); int o = FXSYS_round(output[0] * 255); if (o != v) bIdentity = FALSE; for (int i = 0; i < 3; ++i) { pTransfer->m_Samples[i * 256 + v] = o; } } else { for (int i = 0; i < 3; ++i) { if (pFuncs[i] && pFuncs[i]->CountOutputs() <= kMaxOutputs) { pFuncs[i]->Call(&input, 1, output, noutput); int o = FXSYS_round(output[0] * 255); if (o != v) bIdentity = FALSE; pTransfer->m_Samples[i * 256 + v] = o; } else { pTransfer->m_Samples[i * 256 + v] = v; } } } } pTransfer->m_bIdentity = bIdentity; return pTransferCounter->AddRef(); } void CPDF_DocRenderData::ReleaseTransferFunc(CPDF_Object* pObj) { auto it = m_TransferFuncMap.find(pObj); if (it != m_TransferFuncMap.end()) it->second->RemoveRef(); } CPDF_DeviceBuffer::CPDF_DeviceBuffer() : m_pDevice(nullptr), m_pContext(nullptr), m_pObject(nullptr) {} CPDF_DeviceBuffer::~CPDF_DeviceBuffer() {} FX_BOOL CPDF_DeviceBuffer::Initialize(CPDF_RenderContext* pContext, CFX_RenderDevice* pDevice, FX_RECT* pRect, const CPDF_PageObject* pObj, int max_dpi) { m_pDevice = pDevice; m_pContext = pContext; m_Rect = *pRect; m_pObject = pObj; m_Matrix.TranslateI(-pRect->left, -pRect->top); #if _FXM_PLATFORM_ != _FXM_PLATFORM_APPLE_ int horz_size = pDevice->GetDeviceCaps(FXDC_HORZ_SIZE); int vert_size = pDevice->GetDeviceCaps(FXDC_VERT_SIZE); if (horz_size && vert_size && max_dpi) { int dpih = pDevice->GetDeviceCaps(FXDC_PIXEL_WIDTH) * 254 / (horz_size * 10); int dpiv = pDevice->GetDeviceCaps(FXDC_PIXEL_HEIGHT) * 254 / (vert_size * 10); if (dpih > max_dpi) { m_Matrix.Scale((FX_FLOAT)(max_dpi) / dpih, 1.0f); } if (dpiv > max_dpi) { m_Matrix.Scale(1.0f, (FX_FLOAT)(max_dpi) / (FX_FLOAT)dpiv); } } #endif CFX_Matrix ctm = m_pDevice->GetCTM(); FX_FLOAT fScaleX = FXSYS_fabs(ctm.a); FX_FLOAT fScaleY = FXSYS_fabs(ctm.d); m_Matrix.Concat(fScaleX, 0, 0, fScaleY, 0, 0); CFX_FloatRect rect(*pRect); m_Matrix.TransformRect(rect); FX_RECT bitmap_rect = rect.GetOuterRect(); m_pBitmap.reset(new CFX_DIBitmap); m_pBitmap->Create(bitmap_rect.Width(), bitmap_rect.Height(), FXDIB_Argb); return TRUE; } void CPDF_DeviceBuffer::OutputToDevice() { if (m_pDevice->GetDeviceCaps(FXDC_RENDER_CAPS) & FXRC_GET_BITS) { if (m_Matrix.a == 1.0f && m_Matrix.d == 1.0f) { m_pDevice->SetDIBits(m_pBitmap.get(), m_Rect.left, m_Rect.top); } else { m_pDevice->StretchDIBits(m_pBitmap.get(), m_Rect.left, m_Rect.top, m_Rect.Width(), m_Rect.Height()); } } else { CFX_DIBitmap buffer; m_pDevice->CreateCompatibleBitmap(&buffer, m_pBitmap->GetWidth(), m_pBitmap->GetHeight()); m_pContext->GetBackground(&buffer, m_pObject, nullptr, &m_Matrix); buffer.CompositeBitmap(0, 0, buffer.GetWidth(), buffer.GetHeight(), m_pBitmap.get(), 0, 0); m_pDevice->StretchDIBits(&buffer, m_Rect.left, m_Rect.top, m_Rect.Width(), m_Rect.Height()); } } CPDF_ScaledRenderBuffer::CPDF_ScaledRenderBuffer() {} CPDF_ScaledRenderBuffer::~CPDF_ScaledRenderBuffer() {} #define _FPDFAPI_IMAGESIZE_LIMIT_ (30 * 1024 * 1024) FX_BOOL CPDF_ScaledRenderBuffer::Initialize(CPDF_RenderContext* pContext, CFX_RenderDevice* pDevice, const FX_RECT& pRect, const CPDF_PageObject* pObj, const CPDF_RenderOptions* pOptions, int max_dpi) { m_pDevice = pDevice; if (m_pDevice->GetDeviceCaps(FXDC_RENDER_CAPS) & FXRC_GET_BITS) { return TRUE; } m_pContext = pContext; m_Rect = pRect; m_pObject = pObj; m_Matrix.TranslateI(-pRect.left, -pRect.top); int horz_size = pDevice->GetDeviceCaps(FXDC_HORZ_SIZE); int vert_size = pDevice->GetDeviceCaps(FXDC_VERT_SIZE); if (horz_size && vert_size && max_dpi) { int dpih = pDevice->GetDeviceCaps(FXDC_PIXEL_WIDTH) * 254 / (horz_size * 10); int dpiv = pDevice->GetDeviceCaps(FXDC_PIXEL_HEIGHT) * 254 / (vert_size * 10); if (dpih > max_dpi) { m_Matrix.Scale((FX_FLOAT)(max_dpi) / dpih, 1.0f); } if (dpiv > max_dpi) { m_Matrix.Scale(1.0f, (FX_FLOAT)(max_dpi) / (FX_FLOAT)dpiv); } } m_pBitmapDevice.reset(new CFX_FxgeDevice); FXDIB_Format dibFormat = FXDIB_Rgb; int32_t bpp = 24; if (m_pDevice->GetDeviceCaps(FXDC_RENDER_CAPS) & FXRC_ALPHA_OUTPUT) { dibFormat = FXDIB_Argb; bpp = 32; } while (1) { CFX_FloatRect rect(pRect); m_Matrix.TransformRect(rect); FX_RECT bitmap_rect = rect.GetOuterRect(); int32_t iWidth = bitmap_rect.Width(); int32_t iHeight = bitmap_rect.Height(); int32_t iPitch = (iWidth * bpp + 31) / 32 * 4; if (iWidth * iHeight < 1) return FALSE; if (iPitch * iHeight <= _FPDFAPI_IMAGESIZE_LIMIT_ && m_pBitmapDevice->Create(iWidth, iHeight, dibFormat, nullptr)) { break; } m_Matrix.Scale(0.5f, 0.5f); } m_pContext->GetBackground(m_pBitmapDevice->GetBitmap(), m_pObject, pOptions, &m_Matrix); return TRUE; } void CPDF_ScaledRenderBuffer::OutputToDevice() { if (m_pBitmapDevice) { m_pDevice->StretchDIBits(m_pBitmapDevice->GetBitmap(), m_Rect.left, m_Rect.top, m_Rect.Width(), m_Rect.Height()); } } #if defined _SKIA_SUPPORT_ void CPDF_RenderStatus::DebugVerifyDeviceIsPreMultiplied() const { m_pDevice->DebugVerifyBitmapIsPreMultiplied(); } #endif