core/fpdfapi/page/cpdf_pageimagecache.cpp - pdfium - Git at Google

 // Copyright 2016 The PDFium Authors
 // 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/page/cpdf_pageimagecache.h"

 #include <stddef.h>
 #include <stdint.h>

 #include <algorithm>
 #include <utility>
 #include <vector>

 #include "core/fpdfapi/page/cpdf_dib.h"
 #include "core/fpdfapi/page/cpdf_image.h"
 #include "core/fpdfapi/page/cpdf_page.h"
 #include "core/fpdfapi/parser/cpdf_dictionary.h"
 #include "core/fpdfapi/parser/cpdf_document.h"
 #include "core/fpdfapi/parser/cpdf_stream.h"
 #include "core/fxcrt/check.h"
 #include "core/fxcrt/retain_ptr.h"
 #include "core/fxcrt/stl_util.h"
 #include "core/fxge/dib/cfx_dibbase.h"
 #include "core/fxge/dib/cfx_dibitmap.h"

 #if defined(PDF_USE_SKIA)
 #include "core/fxcrt/data_vector.h"
 #include "core/fxge/cfx_defaultrenderdevice.h"
 #include "third_party/skia/include/core/SkImage.h"   // nogncheck
 #include "third_party/skia/include/core/SkRefCnt.h"  // nogncheck
 #endif

 namespace {

 struct CacheInfo {
   CacheInfo(uint32_t t, RetainPtr<const CPDF_Stream> stream)
       : time(t), pStream(std::move(stream)) {}

   uint32_t time;
   RetainPtr<const CPDF_Stream> pStream;

   bool operator<(const CacheInfo& other) const { return time < other.time; }
 };

 #if defined(PDF_USE_SKIA)
 // Wrapper around a `CFX_DIBBase` that memoizes `RealizeSkImage()`. This is only
 // safe if the underlying `CFX_DIBBase` is not mutable.
 class CachedImage final : public CFX_DIBBase {
  public:
   explicit CachedImage(RetainPtr<CFX_DIBBase> image)
       : image_(std::move(image)) {
     m_Format = image_->GetFormat();
     m_Width = image_->GetWidth();
     m_Height = image_->GetHeight();
     m_Pitch = image_->GetPitch();

     if (image_->HasPalette()) {
       pdfium::span<const uint32_t> palette = image_->GetPaletteSpan();
       m_palette = DataVector<uint32_t>(palette.begin(), palette.end());
     }
   }

   pdfium::span<const uint8_t> GetScanline(int line) const override {
     // TODO(crbug.com/pdfium/2050): Still needed for `Realize()` call in
     // `CPDF_ImageRenderer`.
     return image_->GetScanline(line);
   }

   bool SkipToScanline(int line, PauseIndicatorIface* pause) const override {
     return image_->SkipToScanline(line, pause);
   }

   size_t GetEstimatedImageMemoryBurden() const override {
     // A better estimate would account for realizing the `SkImage`.
     return image_->GetEstimatedImageMemoryBurden();
   }

 #if BUILDFLAG(IS_WIN) || defined(PDF_USE_SKIA)
   RetainPtr<const CFX_DIBitmap> RealizeIfNeeded() const override {
     return image_->RealizeIfNeeded();
   }
 #endif

   sk_sp<SkImage> RealizeSkImage() const override {
     if (!cached_skia_image_) {
       cached_skia_image_ = image_->RealizeSkImage();
     }
     return cached_skia_image_;
   }

  private:
   RetainPtr<CFX_DIBBase> image_;
   mutable sk_sp<SkImage> cached_skia_image_;
 };
 #endif  // defined(PDF_USE_SKIA)

 // Makes a `CachedImage` backed by `image` if Skia is the default renderer,
 // otherwise return the image itself. `realize_hint` indicates whether it would
 // be beneficial to realize `image` before caching.
 RetainPtr<CFX_DIBBase> MakeCachedImage(RetainPtr<CFX_DIBBase> image,
                                        bool realize_hint) {
 #if defined(PDF_USE_SKIA)
   if (CFX_DefaultRenderDevice::UseSkiaRenderer()) {
     // Ignore `realize_hint`, as `RealizeSkImage()` doesn't benefit from it.
     return pdfium::MakeRetain<CachedImage>(std::move(image));
   }
 #endif  // defined(PDF_USE_SKIA)
   return realize_hint ? image->Realize() : image;
 }

 }  // namespace

 CPDF_PageImageCache::CPDF_PageImageCache(CPDF_Page* pPage) : m_pPage(pPage) {}

 CPDF_PageImageCache::~CPDF_PageImageCache() = default;

 void CPDF_PageImageCache::CacheOptimization(int32_t dwLimitCacheSize) {
   if (m_nCacheSize <= (uint32_t)dwLimitCacheSize)
     return;

   uint32_t nCount = fxcrt::CollectionSize<uint32_t>(m_ImageCache);
   std::vector<CacheInfo> cache_info;
   cache_info.reserve(nCount);
   for (const auto& it : m_ImageCache) {
     cache_info.emplace_back(it.second->GetTimeCount(),
                             it.second->GetImage()->GetStream());
   }
   std::sort(cache_info.begin(), cache_info.end());

   // Check if time value is about to roll over and reset all entries.
   // The comparison is legal because uint32_t is an unsigned type.
   uint32_t nTimeCount = m_nTimeCount;
   if (nTimeCount + 1 < nTimeCount) {
     for (uint32_t i = 0; i < nCount; i++)
       m_ImageCache[cache_info[i].pStream]->SetTimeCount(i);
     m_nTimeCount = nCount;
   }

   size_t i = 0;
   while (i + 15 < nCount)
     ClearImageCacheEntry(cache_info[i++].pStream);

   while (i < nCount && m_nCacheSize > (uint32_t)dwLimitCacheSize)
     ClearImageCacheEntry(cache_info[i++].pStream);
 }

 void CPDF_PageImageCache::ClearImageCacheEntry(const CPDF_Stream* pStream) {
   auto it = m_ImageCache.find(pStream);
   if (it == m_ImageCache.end())
     return;

   m_nCacheSize -= it->second->EstimateSize();

   // Avoid leaving `m_pCurImageCacheEntry` as a dangling pointer when `it` is
   // about to be deleted.
   if (m_pCurImageCacheEntry.Get() == it->second.get()) {
     DCHECK(!m_pCurImageCacheEntry.IsOwned());
     m_pCurImageCacheEntry.Reset();
   }
   m_ImageCache.erase(it);
 }

 bool CPDF_PageImageCache::StartGetCachedBitmap(
     RetainPtr<CPDF_Image> pImage,
     const CPDF_Dictionary* pFormResources,
     const CPDF_Dictionary* pPageResources,
     bool bStdCS,
     CPDF_ColorSpace::Family eFamily,
     bool bLoadMask,
     const CFX_Size& max_size_required) {
   // A cross-document image may have come from the embedder.
   if (m_pPage->GetDocument() != pImage->GetDocument())
     return false;

   RetainPtr<const CPDF_Stream> pStream = pImage->GetStream();
   const auto it = m_ImageCache.find(pStream);
   m_bCurFindCache = it != m_ImageCache.end();
   if (m_bCurFindCache) {
     m_pCurImageCacheEntry = it->second.get();
   } else {
     m_pCurImageCacheEntry = std::make_unique<Entry>(std::move(pImage));
   }
   CPDF_DIB::LoadState ret = m_pCurImageCacheEntry->StartGetCachedBitmap(
       this, pFormResources, pPageResources, bStdCS, eFamily, bLoadMask,
       max_size_required);
   if (ret == CPDF_DIB::LoadState::kContinue)
     return true;

   m_nTimeCount++;
   if (!m_bCurFindCache)
     m_ImageCache[pStream] = m_pCurImageCacheEntry.Release();

   if (ret == CPDF_DIB::LoadState::kFail)
     m_nCacheSize += m_pCurImageCacheEntry->EstimateSize();

   return false;
 }

 bool CPDF_PageImageCache::Continue(PauseIndicatorIface* pPause) {
   bool ret = m_pCurImageCacheEntry->Continue(pPause, this);
   if (ret)
     return true;

   m_nTimeCount++;
   if (!m_bCurFindCache) {
     m_ImageCache[m_pCurImageCacheEntry->GetImage()->GetStream()] =
         m_pCurImageCacheEntry.Release();
   }
   m_nCacheSize += m_pCurImageCacheEntry->EstimateSize();
   return false;
 }

 void CPDF_PageImageCache::ResetBitmapForImage(RetainPtr<CPDF_Image> pImage) {
   RetainPtr<const CPDF_Stream> pStream = pImage->GetStream();
   const auto it = m_ImageCache.find(pStream);
   if (it == m_ImageCache.end())
     return;

   Entry* pEntry = it->second.get();
   m_nCacheSize -= pEntry->EstimateSize();
   pEntry->Reset();
   m_nCacheSize += pEntry->EstimateSize();
 }

 uint32_t CPDF_PageImageCache::GetCurMatteColor() const {
   return m_pCurImageCacheEntry->GetMatteColor();
 }

 RetainPtr<CFX_DIBBase> CPDF_PageImageCache::DetachCurBitmap() {
   return m_pCurImageCacheEntry->DetachBitmap();
 }

 RetainPtr<CFX_DIBBase> CPDF_PageImageCache::DetachCurMask() {
   return m_pCurImageCacheEntry->DetachMask();
 }

 CPDF_PageImageCache::Entry::Entry(RetainPtr<CPDF_Image> pImage)
     : m_pImage(std::move(pImage)) {}

 CPDF_PageImageCache::Entry::~Entry() = default;

 void CPDF_PageImageCache::Entry::Reset() {
   m_pCachedBitmap.Reset();
   CalcSize();
 }

 RetainPtr<CFX_DIBBase> CPDF_PageImageCache::Entry::DetachBitmap() {
   return std::move(m_pCurBitmap);
 }

 RetainPtr<CFX_DIBBase> CPDF_PageImageCache::Entry::DetachMask() {
   return std::move(m_pCurMask);
 }

 CPDF_DIB::LoadState CPDF_PageImageCache::Entry::StartGetCachedBitmap(
     CPDF_PageImageCache* pPageImageCache,
     const CPDF_Dictionary* pFormResources,
     const CPDF_Dictionary* pPageResources,
     bool bStdCS,
     CPDF_ColorSpace::Family eFamily,
     bool bLoadMask,
     const CFX_Size& max_size_required) {
   if (m_pCachedBitmap && IsCacheValid(max_size_required)) {
     m_pCurBitmap = m_pCachedBitmap;
     m_pCurMask = m_pCachedMask;
     return CPDF_DIB::LoadState::kSuccess;
   }

   m_pCurBitmap = m_pImage->CreateNewDIB();
   CPDF_DIB::LoadState ret = m_pCurBitmap.AsRaw<CPDF_DIB>()->StartLoadDIBBase(
       true, pFormResources, pPageResources, bStdCS, eFamily, bLoadMask,
       max_size_required);
   m_bCachedSetMaxSizeRequired =
       (max_size_required.width != 0 && max_size_required.height != 0);
   if (ret == CPDF_DIB::LoadState::kContinue)
     return CPDF_DIB::LoadState::kContinue;

   if (ret == CPDF_DIB::LoadState::kSuccess)
     ContinueGetCachedBitmap(pPageImageCache);
   else
     m_pCurBitmap.Reset();
   return CPDF_DIB::LoadState::kFail;
 }

 bool CPDF_PageImageCache::Entry::Continue(
     PauseIndicatorIface* pPause,
     CPDF_PageImageCache* pPageImageCache) {
   CPDF_DIB::LoadState ret =
       m_pCurBitmap.AsRaw<CPDF_DIB>()->ContinueLoadDIBBase(pPause);
   if (ret == CPDF_DIB::LoadState::kContinue)
     return true;

   if (ret == CPDF_DIB::LoadState::kSuccess)
     ContinueGetCachedBitmap(pPageImageCache);
   else
     m_pCurBitmap.Reset();
   return false;
 }

 void CPDF_PageImageCache::Entry::ContinueGetCachedBitmap(
     CPDF_PageImageCache* pPageImageCache) {
   m_MatteColor = m_pCurBitmap.AsRaw<CPDF_DIB>()->GetMatteColor();
   m_pCurMask = m_pCurBitmap.AsRaw<CPDF_DIB>()->DetachMask();
   m_dwTimeCount = pPageImageCache->GetTimeCount();
   if (m_pCurBitmap->GetPitch() * m_pCurBitmap->GetHeight() < kHugeImageSize) {
     m_pCachedBitmap = MakeCachedImage(m_pCurBitmap, /*realize_hint=*/true);
     m_pCurBitmap.Reset();
   } else {
     m_pCachedBitmap = MakeCachedImage(m_pCurBitmap, /*realize_hint=*/false);
   }
   if (m_pCurMask) {
     m_pCachedMask = MakeCachedImage(m_pCurMask, /*realize_hint=*/true);
     m_pCurMask.Reset();
   }
   m_pCurBitmap = m_pCachedBitmap;
   m_pCurMask = m_pCachedMask;
   CalcSize();
 }

 void CPDF_PageImageCache::Entry::CalcSize() {
   m_dwCacheSize = 0;
   if (m_pCachedBitmap)
     m_dwCacheSize += m_pCachedBitmap->GetEstimatedImageMemoryBurden();
   if (m_pCachedMask)
     m_dwCacheSize += m_pCachedMask->GetEstimatedImageMemoryBurden();
 }

 bool CPDF_PageImageCache::Entry::IsCacheValid(
     const CFX_Size& max_size_required) const {
   if (!m_bCachedSetMaxSizeRequired) {
     return true;
   }
   if (max_size_required.width == 0 && max_size_required.height == 0) {
     return false;
   }

   return (m_pCachedBitmap->GetWidth() >= max_size_required.width) &&
          (m_pCachedBitmap->GetHeight() >= max_size_required.height);
 }
	// Copyright 2016 The PDFium Authors
	// 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/page/cpdf_pageimagecache.h"

	#include <stddef.h>
	#include <stdint.h>

	#include <algorithm>
	#include <utility>
	#include <vector>

	#include "core/fpdfapi/page/cpdf_dib.h"
	#include "core/fpdfapi/page/cpdf_image.h"
	#include "core/fpdfapi/page/cpdf_page.h"
	#include "core/fpdfapi/parser/cpdf_dictionary.h"
	#include "core/fpdfapi/parser/cpdf_document.h"
	#include "core/fpdfapi/parser/cpdf_stream.h"
	#include "core/fxcrt/check.h"
	#include "core/fxcrt/retain_ptr.h"
	#include "core/fxcrt/stl_util.h"
	#include "core/fxge/dib/cfx_dibbase.h"
	#include "core/fxge/dib/cfx_dibitmap.h"

	#if defined(PDF_USE_SKIA)
	#include "core/fxcrt/data_vector.h"
	#include "core/fxge/cfx_defaultrenderdevice.h"
	#include "third_party/skia/include/core/SkImage.h" // nogncheck
	#include "third_party/skia/include/core/SkRefCnt.h" // nogncheck
	#endif

	namespace {

	struct CacheInfo {
	CacheInfo(uint32_t t, RetainPtr<const CPDF_Stream> stream)
	: time(t), pStream(std::move(stream)) {}

	uint32_t time;
	RetainPtr<const CPDF_Stream> pStream;

	bool operator<(const CacheInfo& other) const { return time < other.time; }
	};

	#if defined(PDF_USE_SKIA)
	// Wrapper around a `CFX_DIBBase` that memoizes `RealizeSkImage()`. This is only
	// safe if the underlying `CFX_DIBBase` is not mutable.
	class CachedImage final : public CFX_DIBBase {
	public:
	explicit CachedImage(RetainPtr<CFX_DIBBase> image)
	: image_(std::move(image)) {
	m_Format = image_->GetFormat();
	m_Width = image_->GetWidth();
	m_Height = image_->GetHeight();
	m_Pitch = image_->GetPitch();

	if (image_->HasPalette()) {
	pdfium::span<const uint32_t> palette = image_->GetPaletteSpan();
	m_palette = DataVector<uint32_t>(palette.begin(), palette.end());
	}
	}

	pdfium::span<const uint8_t> GetScanline(int line) const override {
	// TODO(crbug.com/pdfium/2050): Still needed for `Realize()` call in
	// `CPDF_ImageRenderer`.
	return image_->GetScanline(line);
	}

	bool SkipToScanline(int line, PauseIndicatorIface* pause) const override {
	return image_->SkipToScanline(line, pause);
	}

	size_t GetEstimatedImageMemoryBurden() const override {
	// A better estimate would account for realizing the `SkImage`.
	return image_->GetEstimatedImageMemoryBurden();
	}

	#if BUILDFLAG(IS_WIN) \|\| defined(PDF_USE_SKIA)
	RetainPtr<const CFX_DIBitmap> RealizeIfNeeded() const override {
	return image_->RealizeIfNeeded();
	}
	#endif

	sk_sp<SkImage> RealizeSkImage() const override {
	if (!cached_skia_image_) {
	cached_skia_image_ = image_->RealizeSkImage();
	}
	return cached_skia_image_;
	}

	private:
	RetainPtr<CFX_DIBBase> image_;
	mutable sk_sp<SkImage> cached_skia_image_;
	};
	#endif // defined(PDF_USE_SKIA)

	// Makes a `CachedImage` backed by `image` if Skia is the default renderer,
	// otherwise return the image itself. `realize_hint` indicates whether it would
	// be beneficial to realize `image` before caching.
	RetainPtr<CFX_DIBBase> MakeCachedImage(RetainPtr<CFX_DIBBase> image,
	bool realize_hint) {
	#if defined(PDF_USE_SKIA)
	if (CFX_DefaultRenderDevice::UseSkiaRenderer()) {
	// Ignore `realize_hint`, as `RealizeSkImage()` doesn't benefit from it.
	return pdfium::MakeRetain<CachedImage>(std::move(image));
	}
	#endif // defined(PDF_USE_SKIA)
	return realize_hint ? image->Realize() : image;
	}

	} // namespace

	CPDF_PageImageCache::CPDF_PageImageCache(CPDF_Page* pPage) : m_pPage(pPage) {}

	CPDF_PageImageCache::~CPDF_PageImageCache() = default;

	void CPDF_PageImageCache::CacheOptimization(int32_t dwLimitCacheSize) {
	if (m_nCacheSize <= (uint32_t)dwLimitCacheSize)
	return;

	uint32_t nCount = fxcrt::CollectionSize<uint32_t>(m_ImageCache);
	std::vector<CacheInfo> cache_info;
	cache_info.reserve(nCount);
	for (const auto& it : m_ImageCache) {
	cache_info.emplace_back(it.second->GetTimeCount(),
	it.second->GetImage()->GetStream());
	}
	std::sort(cache_info.begin(), cache_info.end());

	// Check if time value is about to roll over and reset all entries.
	// The comparison is legal because uint32_t is an unsigned type.
	uint32_t nTimeCount = m_nTimeCount;
	if (nTimeCount + 1 < nTimeCount) {
	for (uint32_t i = 0; i < nCount; i++)
	m_ImageCache[cache_info[i].pStream]->SetTimeCount(i);
	m_nTimeCount = nCount;
	}

	size_t i = 0;
	while (i + 15 < nCount)
	ClearImageCacheEntry(cache_info[i++].pStream);

	while (i < nCount && m_nCacheSize > (uint32_t)dwLimitCacheSize)
	ClearImageCacheEntry(cache_info[i++].pStream);
	}

	void CPDF_PageImageCache::ClearImageCacheEntry(const CPDF_Stream* pStream) {
	auto it = m_ImageCache.find(pStream);
	if (it == m_ImageCache.end())
	return;

	m_nCacheSize -= it->second->EstimateSize();

	// Avoid leaving `m_pCurImageCacheEntry` as a dangling pointer when `it` is
	// about to be deleted.
	if (m_pCurImageCacheEntry.Get() == it->second.get()) {
	DCHECK(!m_pCurImageCacheEntry.IsOwned());
	m_pCurImageCacheEntry.Reset();
	}
	m_ImageCache.erase(it);
	}

	bool CPDF_PageImageCache::StartGetCachedBitmap(
	RetainPtr<CPDF_Image> pImage,
	const CPDF_Dictionary* pFormResources,
	const CPDF_Dictionary* pPageResources,
	bool bStdCS,
	CPDF_ColorSpace::Family eFamily,
	bool bLoadMask,
	const CFX_Size& max_size_required) {
	// A cross-document image may have come from the embedder.
	if (m_pPage->GetDocument() != pImage->GetDocument())
	return false;

	RetainPtr<const CPDF_Stream> pStream = pImage->GetStream();
	const auto it = m_ImageCache.find(pStream);
	m_bCurFindCache = it != m_ImageCache.end();
	if (m_bCurFindCache) {
	m_pCurImageCacheEntry = it->second.get();
	} else {
	m_pCurImageCacheEntry = std::make_unique<Entry>(std::move(pImage));
	}
	CPDF_DIB::LoadState ret = m_pCurImageCacheEntry->StartGetCachedBitmap(
	this, pFormResources, pPageResources, bStdCS, eFamily, bLoadMask,
	max_size_required);
	if (ret == CPDF_DIB::LoadState::kContinue)
	return true;

	m_nTimeCount++;
	if (!m_bCurFindCache)
	m_ImageCache[pStream] = m_pCurImageCacheEntry.Release();

	if (ret == CPDF_DIB::LoadState::kFail)
	m_nCacheSize += m_pCurImageCacheEntry->EstimateSize();

	return false;
	}

	bool CPDF_PageImageCache::Continue(PauseIndicatorIface* pPause) {
	bool ret = m_pCurImageCacheEntry->Continue(pPause, this);
	if (ret)
	return true;

	m_nTimeCount++;
	if (!m_bCurFindCache) {
	m_ImageCache[m_pCurImageCacheEntry->GetImage()->GetStream()] =
	m_pCurImageCacheEntry.Release();
	}
	m_nCacheSize += m_pCurImageCacheEntry->EstimateSize();
	return false;
	}

	void CPDF_PageImageCache::ResetBitmapForImage(RetainPtr<CPDF_Image> pImage) {
	RetainPtr<const CPDF_Stream> pStream = pImage->GetStream();
	const auto it = m_ImageCache.find(pStream);
	if (it == m_ImageCache.end())
	return;

	Entry* pEntry = it->second.get();
	m_nCacheSize -= pEntry->EstimateSize();
	pEntry->Reset();
	m_nCacheSize += pEntry->EstimateSize();
	}

	uint32_t CPDF_PageImageCache::GetCurMatteColor() const {
	return m_pCurImageCacheEntry->GetMatteColor();
	}

	RetainPtr<CFX_DIBBase> CPDF_PageImageCache::DetachCurBitmap() {
	return m_pCurImageCacheEntry->DetachBitmap();
	}

	RetainPtr<CFX_DIBBase> CPDF_PageImageCache::DetachCurMask() {
	return m_pCurImageCacheEntry->DetachMask();
	}

	CPDF_PageImageCache::Entry::Entry(RetainPtr<CPDF_Image> pImage)
	: m_pImage(std::move(pImage)) {}

	CPDF_PageImageCache::Entry::~Entry() = default;

	void CPDF_PageImageCache::Entry::Reset() {
	m_pCachedBitmap.Reset();
	CalcSize();
	}

	RetainPtr<CFX_DIBBase> CPDF_PageImageCache::Entry::DetachBitmap() {
	return std::move(m_pCurBitmap);
	}

	RetainPtr<CFX_DIBBase> CPDF_PageImageCache::Entry::DetachMask() {
	return std::move(m_pCurMask);
	}

	CPDF_DIB::LoadState CPDF_PageImageCache::Entry::StartGetCachedBitmap(
	CPDF_PageImageCache* pPageImageCache,
	const CPDF_Dictionary* pFormResources,
	const CPDF_Dictionary* pPageResources,
	bool bStdCS,
	CPDF_ColorSpace::Family eFamily,
	bool bLoadMask,
	const CFX_Size& max_size_required) {
	if (m_pCachedBitmap && IsCacheValid(max_size_required)) {
	m_pCurBitmap = m_pCachedBitmap;
	m_pCurMask = m_pCachedMask;
	return CPDF_DIB::LoadState::kSuccess;
	}

	m_pCurBitmap = m_pImage->CreateNewDIB();
	CPDF_DIB::LoadState ret = m_pCurBitmap.AsRaw<CPDF_DIB>()->StartLoadDIBBase(
	true, pFormResources, pPageResources, bStdCS, eFamily, bLoadMask,
	max_size_required);
	m_bCachedSetMaxSizeRequired =
	(max_size_required.width != 0 && max_size_required.height != 0);
	if (ret == CPDF_DIB::LoadState::kContinue)
	return CPDF_DIB::LoadState::kContinue;

	if (ret == CPDF_DIB::LoadState::kSuccess)
	ContinueGetCachedBitmap(pPageImageCache);
	else
	m_pCurBitmap.Reset();
	return CPDF_DIB::LoadState::kFail;
	}

	bool CPDF_PageImageCache::Entry::Continue(
	PauseIndicatorIface* pPause,
	CPDF_PageImageCache* pPageImageCache) {
	CPDF_DIB::LoadState ret =
	m_pCurBitmap.AsRaw<CPDF_DIB>()->ContinueLoadDIBBase(pPause);
	if (ret == CPDF_DIB::LoadState::kContinue)
	return true;

	if (ret == CPDF_DIB::LoadState::kSuccess)
	ContinueGetCachedBitmap(pPageImageCache);
	else
	m_pCurBitmap.Reset();
	return false;
	}

	void CPDF_PageImageCache::Entry::ContinueGetCachedBitmap(
	CPDF_PageImageCache* pPageImageCache) {
	m_MatteColor = m_pCurBitmap.AsRaw<CPDF_DIB>()->GetMatteColor();
	m_pCurMask = m_pCurBitmap.AsRaw<CPDF_DIB>()->DetachMask();
	m_dwTimeCount = pPageImageCache->GetTimeCount();
	if (m_pCurBitmap->GetPitch() * m_pCurBitmap->GetHeight() < kHugeImageSize) {
	m_pCachedBitmap = MakeCachedImage(m_pCurBitmap, /realize_hint=/true);
	m_pCurBitmap.Reset();
	} else {
	m_pCachedBitmap = MakeCachedImage(m_pCurBitmap, /realize_hint=/false);
	}
	if (m_pCurMask) {
	m_pCachedMask = MakeCachedImage(m_pCurMask, /realize_hint=/true);
	m_pCurMask.Reset();
	}
	m_pCurBitmap = m_pCachedBitmap;
	m_pCurMask = m_pCachedMask;
	CalcSize();
	}

	void CPDF_PageImageCache::Entry::CalcSize() {
	m_dwCacheSize = 0;
	if (m_pCachedBitmap)
	m_dwCacheSize += m_pCachedBitmap->GetEstimatedImageMemoryBurden();
	if (m_pCachedMask)
	m_dwCacheSize += m_pCachedMask->GetEstimatedImageMemoryBurden();
	}

	bool CPDF_PageImageCache::Entry::IsCacheValid(
	const CFX_Size& max_size_required) const {
	if (!m_bCachedSetMaxSizeRequired) {
	return true;
	}
	if (max_size_required.width == 0 && max_size_required.height == 0) {
	return false;
	}

	return (m_pCachedBitmap->GetWidth() >= max_size_required.width) &&
	(m_pCachedBitmap->GetHeight() >= max_size_required.height);
	}