/* * Copyright (c) 2021, Matthew Olsson * * SPDX-License-Identifier: BSD-2-Clause */ #pragma once #include #include #include #include #include #include #include #include namespace PDF { class Object : public RefCounted { public: virtual ~Object() = default; [[nodiscard]] ALWAYS_INLINE u32 generation_index() const { return m_generation_index; } ALWAYS_INLINE void set_generation_index(u32 generation_index) { m_generation_index = generation_index; } #define DEFINE_ID(_, name) \ virtual bool is_##name() const { return false; } ENUMERATE_OBJECT_TYPES(DEFINE_ID) #undef DEFINE_ID virtual const char* type_name() const = 0; virtual String to_string(int indent) const = 0; private: u32 m_generation_index { 0 }; }; class StringObject final : public Object { public: StringObject(String string, bool is_binary) : m_string(move(string)) , m_is_binary(is_binary) { } ~StringObject() override = default; [[nodiscard]] ALWAYS_INLINE String const& string() const { return m_string; } [[nodiscard]] ALWAYS_INLINE bool is_binary() const { return m_is_binary; } ALWAYS_INLINE bool is_string() const override { return true; } ALWAYS_INLINE const char* type_name() const override { return "string"; } String to_string(int indent) const override; private: String m_string; bool m_is_binary; }; class NameObject final : public Object { public: explicit NameObject(FlyString name) : m_name(move(name)) { } ~NameObject() override = default; [[nodiscard]] ALWAYS_INLINE FlyString const& name() const { return m_name; } ALWAYS_INLINE bool is_name() const override { return true; } ALWAYS_INLINE const char* type_name() const override { return "name"; } String to_string(int indent) const override; private: FlyString m_name; }; class ArrayObject final : public Object { public: explicit ArrayObject(Vector elements) : m_elements(move(elements)) { } ~ArrayObject() override = default; [[nodiscard]] ALWAYS_INLINE size_t size() const { return m_elements.size(); } [[nodiscard]] ALWAYS_INLINE Vector elements() const { return m_elements; } ALWAYS_INLINE auto begin() const { return m_elements.begin(); } ALWAYS_INLINE auto end() const { return m_elements.end(); } ALWAYS_INLINE Value const& operator[](size_t index) const { return at(index); } ALWAYS_INLINE Value const& at(size_t index) const { return m_elements[index]; } NonnullRefPtr get_object_at(Document*, size_t index) const; #define DEFINE_INDEXER(class_name, snake_name) \ NonnullRefPtr get_##snake_name##_at(Document*, size_t index) const; ENUMERATE_OBJECT_TYPES(DEFINE_INDEXER) #undef DEFINE_INDEXER ALWAYS_INLINE bool is_array() const override { return true; } ALWAYS_INLINE const char* type_name() const override { return "array"; } String to_string(int indent) const override; private: Vector m_elements; }; class DictObject final : public Object { public: explicit DictObject(HashMap map) : m_map(move(map)) { } ~DictObject() override = default; [[nodiscard]] ALWAYS_INLINE HashMap const& map() const { return m_map; } template bool contains(Args&&... keys) const { return (m_map.contains(keys) && ...); } ALWAYS_INLINE Optional get(FlyString const& key) const { return m_map.get(key); } Value get_value(FlyString const& key) const { auto value = get(key); VERIFY(value.has_value()); return value.value(); } NonnullRefPtr get_object(Document*, FlyString const& key) const; #define DEFINE_GETTER(class_name, snake_name) \ NonnullRefPtr get_##snake_name(Document*, FlyString const& key) const; ENUMERATE_OBJECT_TYPES(DEFINE_GETTER) #undef DEFINE_GETTER ALWAYS_INLINE bool is_dict() const override { return true; } ALWAYS_INLINE const char* type_name() const override { return "dict"; } String to_string(int indent) const override; private: HashMap m_map; }; class StreamObject : public Object { public: explicit StreamObject(NonnullRefPtr const& dict) : m_dict(dict) { } virtual ~StreamObject() override = default; [[nodiscard]] ALWAYS_INLINE NonnullRefPtr dict() const { return m_dict; } [[nodiscard]] virtual ReadonlyBytes bytes() const = 0; ALWAYS_INLINE bool is_stream() const override { return true; } ALWAYS_INLINE const char* type_name() const override { return "stream"; } String to_string(int indent) const override; private: NonnullRefPtr m_dict; }; class PlainTextStreamObject final : public StreamObject { public: PlainTextStreamObject(NonnullRefPtr const& dict, ReadonlyBytes const& bytes) : StreamObject(dict) , m_bytes(bytes) { } virtual ~PlainTextStreamObject() override = default; [[nodiscard]] ALWAYS_INLINE virtual ReadonlyBytes bytes() const override { return m_bytes; } private: ReadonlyBytes m_bytes; }; class EncodedStreamObject final : public StreamObject { public: EncodedStreamObject(NonnullRefPtr const& dict, ByteBuffer&& buffer) : StreamObject(dict) , m_buffer(buffer) { } virtual ~EncodedStreamObject() override = default; [[nodiscard]] ALWAYS_INLINE virtual ReadonlyBytes bytes() const override { return m_buffer.bytes(); } private: ByteBuffer m_buffer; }; class IndirectValue final : public Object { public: IndirectValue(u32 index, u32 generation_index, Value const& value) : m_index(index) , m_value(value) { set_generation_index(generation_index); } ~IndirectValue() override = default; [[nodiscard]] ALWAYS_INLINE u32 index() const { return m_index; } [[nodiscard]] ALWAYS_INLINE Value const& value() const { return m_value; } ALWAYS_INLINE bool is_indirect_value() const override { return true; } ALWAYS_INLINE const char* type_name() const override { return "indirect_object"; } String to_string(int indent) const override; private: u32 m_index; Value m_value; }; template [[nodiscard]] ALWAYS_INLINE static NonnullRefPtr object_cast(NonnullRefPtr obj #ifdef PDF_DEBUG , SourceLocation loc = SourceLocation::current() #endif ) { #ifdef PDF_DEBUG # define ENUMERATE_TYPES(class_name, snake_name) \ if constexpr (IsSame) { \ if (!obj->is_##snake_name()) { \ dbgln("{} invalid cast from type {} to type " #snake_name, loc, obj->type_name()); \ } \ } ENUMERATE_OBJECT_TYPES(ENUMERATE_TYPES) # undef ENUMERATE_TYPES #endif return static_cast>(obj); } } namespace AK { template struct Formatter : Formatter { void format(FormatBuilder& builder, T const& object) { Formatter::format(builder, object.to_string(0)); } }; template struct Formatter> : Formatter { void format(FormatBuilder& builder, NonnullRefPtr const& object) { Formatter::format(builder, *object); } }; }