/* * Copyright 2010 The Android Open Source Project * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #ifndef SkPDFTypes_DEFINED #define SkPDFTypes_DEFINED #include "SkRefCnt.h" #include "SkScalar.h" #include "SkTHash.h" #include "SkTypes.h" class SkData; class SkPDFObjNumMap; class SkPDFObject; class SkStreamAsset; class SkString; class SkWStream; #ifdef SK_PDF_IMAGE_STATS #include "SkAtomics.h" #endif /** \class SkPDFObject A PDF Object is the base class for primitive elements in a PDF file. A common subtype is used to ease the use of indirect object references, which are common in the PDF format. */ class SkPDFObject : public SkRefCnt { public: /** Subclasses must implement this method to print the object to the * PDF file. * @param catalog The object catalog to use. * @param stream The writable output stream to send the output to. */ virtual void emitObject(SkWStream* stream, const SkPDFObjNumMap& objNumMap) const = 0; /** * Adds all transitive dependencies of this object to the * catalog. Implementations should respect the catalog's object * substitution map. */ virtual void addResources(SkPDFObjNumMap* catalog) const {} /** * Release all resources associated with this SkPDFObject. It is * an error to call emitObject() or addResources() after calling * drop(). */ virtual void drop() {} virtual ~SkPDFObject() {} private: typedef SkRefCnt INHERITED; }; //////////////////////////////////////////////////////////////////////////////// /** A SkPDFUnion is a non-virtualized implementation of the non-compound, non-specialized PDF Object types: Name, String, Number, Boolean. */ class SkPDFUnion { public: // Move contstructor and assignemnt operator destroy the argument // and steal their references (if needed). SkPDFUnion(SkPDFUnion&& other); SkPDFUnion& operator=(SkPDFUnion&& other); ~SkPDFUnion(); /** The following nine functions are the standard way of creating SkPDFUnion objects. */ static SkPDFUnion Int(int32_t); static SkPDFUnion Int(size_t v) { return SkPDFUnion::Int(SkToS32(v)); } static SkPDFUnion Bool(bool); static SkPDFUnion Scalar(SkScalar); static SkPDFUnion ColorComponent(uint8_t); /** These two functions do NOT take ownership of char*, and do NOT copy the string. Suitable for passing in static const strings. For example: SkPDFUnion n = SkPDFUnion::Name("Length"); SkPDFUnion u = SkPDFUnion::String("Identity"); */ /** SkPDFUnion::Name(const char*) assumes that the passed string is already a valid name (that is: it has no control or whitespace characters). This will not copy the name. */ static SkPDFUnion Name(const char*); /** SkPDFUnion::String will encode the passed string. This will not copy the name. */ static SkPDFUnion String(const char*); /** SkPDFUnion::Name(const SkString&) does not assume that the passed string is already a valid name and it will escape the string. */ static SkPDFUnion Name(const SkString&); /** SkPDFUnion::String will encode the passed string. */ static SkPDFUnion String(const SkString&); static SkPDFUnion Object(sk_sp); static SkPDFUnion ObjRef(sk_sp); /** These two non-virtual methods mirror SkPDFObject's corresponding virtuals. */ void emitObject(SkWStream*, const SkPDFObjNumMap&) const; void addResources(SkPDFObjNumMap*) const; bool isName() const; private: union { int32_t fIntValue; bool fBoolValue; SkScalar fScalarValue; const char* fStaticString; char fSkString[sizeof(SkString)]; SkPDFObject* fObject; }; enum class Type : char { /** It is an error to call emitObject() or addResources() on an kDestroyed object. */ kDestroyed = 0, kInt, kColorComponent, kBool, kScalar, kName, kString, kNameSkS, kStringSkS, kObjRef, kObject, }; Type fType; SkPDFUnion(Type); // We do not now need copy constructor and copy assignment, so we // will disable this functionality. SkPDFUnion& operator=(const SkPDFUnion&) = delete; SkPDFUnion(const SkPDFUnion&) = delete; }; static_assert(sizeof(SkString) == sizeof(void*), "SkString_size"); //////////////////////////////////////////////////////////////////////////////// #if 0 // Enable if needed. /** This class is a SkPDFUnion with SkPDFObject virtuals attached. The only use case of this is when a non-compound PDF object is referenced indirectly. */ class SkPDFAtom final : public SkPDFObject { public: void emitObject(SkWStream* stream, const SkPDFObjNumMap& objNumMap) final; void addResources(SkPDFObjNumMap* const final; SkPDFAtom(SkPDFUnion&& v) : fValue(std::move(v) {} private: const SkPDFUnion fValue; typedef SkPDFObject INHERITED; }; #endif // 0 //////////////////////////////////////////////////////////////////////////////// /** \class SkPDFArray An array object in a PDF. */ class SkPDFArray final : public SkPDFObject { public: /** Create a PDF array. Maximum length is 8191. */ SkPDFArray(); ~SkPDFArray() override; // The SkPDFObject interface. void emitObject(SkWStream* stream, const SkPDFObjNumMap& objNumMap) const override; void addResources(SkPDFObjNumMap*) const override; void drop() override; /** The size of the array. */ int size() const; /** Preallocate space for the given number of entries. * @param length The number of array slots to preallocate. */ void reserve(int length); /** Appends a value to the end of the array. * @param value The value to add to the array. */ void appendInt(int32_t); void appendColorComponent(uint8_t); void appendBool(bool); void appendScalar(SkScalar); void appendName(const char[]); void appendName(const SkString&); void appendString(const char[]); void appendString(const SkString&); void appendObject(sk_sp); void appendObjRef(sk_sp); private: SkTArray fValues; void append(SkPDFUnion&& value); SkDEBUGCODE(bool fDumped;) }; /** \class SkPDFDict A dictionary object in a PDF. */ class SkPDFDict : public SkPDFObject { public: /** Create a PDF dictionary. * @param type The value of the Type entry, nullptr for no type. */ explicit SkPDFDict(const char type[] = nullptr); ~SkPDFDict() override; // The SkPDFObject interface. void emitObject(SkWStream* stream, const SkPDFObjNumMap& objNumMap) const override; void addResources(SkPDFObjNumMap*) const override; void drop() override; /** The size of the dictionary. */ int size() const; /** Add the value to the dictionary with the given key. * @param key The text of the key for this dictionary entry. * @param value The value for this dictionary entry. */ void insertObject(const char key[], sk_sp); void insertObject(const SkString& key, sk_sp); void insertObjRef(const char key[], sk_sp); void insertObjRef(const SkString& key, sk_sp); /** Add the value to the dictionary with the given key. * @param key The text of the key for this dictionary entry. * @param value The value for this dictionary entry. */ void insertBool(const char key[], bool value); void insertInt(const char key[], int32_t value); void insertInt(const char key[], size_t value); void insertScalar(const char key[], SkScalar value); void insertName(const char key[], const char nameValue[]); void insertName(const char key[], const SkString& nameValue); void insertString(const char key[], const char value[]); void insertString(const char key[], const SkString& value); /** Emit the dictionary, without the "<<" and ">>". */ void emitAll(SkWStream* stream, const SkPDFObjNumMap& objNumMap) const; private: struct Record { SkPDFUnion fKey; SkPDFUnion fValue; Record(SkPDFUnion&&, SkPDFUnion&&); Record(Record&&) = default; Record& operator=(Record&&) = default; Record(const Record&) = delete; Record& operator=(const Record&) = delete; }; SkTArray fRecords; SkDEBUGCODE(bool fDumped;) }; /** \class SkPDFSharedStream This class takes an asset and assumes that it is backed by long-lived shared data (for example, an open file descriptor). That is: no memory savings can be made by holding on to a compressed version instead. */ class SkPDFSharedStream final : public SkPDFObject { public: SkPDFSharedStream(std::unique_ptr data); ~SkPDFSharedStream() override; SkPDFDict* dict() { return &fDict; } void emitObject(SkWStream*, const SkPDFObjNumMap&) const override; void addResources(SkPDFObjNumMap*) const override; void drop() override; private: std::unique_ptr fAsset; SkPDFDict fDict; typedef SkPDFObject INHERITED; }; /** \class SkPDFStream This class takes an asset and assumes that it is the only owner of the asset's data. It immediately compresses the asset to save memory. */ class SkPDFStream final : public SkPDFObject { public: /** Create a PDF stream. A Length entry is automatically added to the * stream dictionary. * @param data The data part of the stream. * @param stream The data part of the stream. */ explicit SkPDFStream(sk_sp data); explicit SkPDFStream(std::unique_ptr stream); ~SkPDFStream() override; SkPDFDict* dict() { return &fDict; } // The SkPDFObject interface. void emitObject(SkWStream* stream, const SkPDFObjNumMap& objNumMap) const override; void addResources(SkPDFObjNumMap*) const final; void drop() override; protected: /* Create a PDF stream with no data. The setData method must be called to * set the data. */ SkPDFStream(); /** Only call this function once. */ void setData(std::unique_ptr stream); private: std::unique_ptr fCompressedData; SkPDFDict fDict; typedef SkPDFDict INHERITED; }; //////////////////////////////////////////////////////////////////////////////// /** \class SkPDFObjNumMap The PDF Object Number Map manages object numbers. It is used to create the PDF cross reference table. */ class SkPDFObjNumMap : SkNoncopyable { public: /** Add the passed object to the catalog. * @param obj The object to add. * @return True iff the object was not already added to the catalog. */ bool addObject(SkPDFObject* obj); /** Add the passed object to the catalog, as well as all its dependencies. * @param obj The object to add. If nullptr, this is a noop. */ void addObjectRecursively(SkPDFObject* obj); /** Get the object number for the passed object. * @param obj The object of interest. */ int32_t getObjectNumber(SkPDFObject* obj) const; const SkTArray>& objects() const { return fObjects; } private: SkTArray> fObjects; SkTHashMap fObjectNumbers; }; //////////////////////////////////////////////////////////////////////////////// #ifdef SK_PDF_IMAGE_STATS extern SkAtomic gDrawImageCalls; extern SkAtomic gJpegImageObjects; extern SkAtomic gRegularImageObjects; extern void SkPDFImageDumpStats(); #endif // SK_PDF_IMAGE_STATS #endif