tools/aapt2/ResourceValues.h - platform/frameworks/base - Gitiles

 /*
  * Copyright (C) 2015 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 #ifndef AAPT_RESOURCE_VALUES_H
 #define AAPT_RESOURCE_VALUES_H

 #include <array>
 #include <limits>
 #include <ostream>
 #include <vector>

 #include "androidfw/ResourceTypes.h"
 #include "androidfw/StringPiece.h"

 #include "Diagnostics.h"
 #include "Resource.h"
 #include "StringPool.h"
 #include "io/File.h"
 #include "text/Printer.h"
 #include "util/Maybe.h"

 namespace aapt {

 class ValueVisitor;
 class ConstValueVisitor;

 // A resource value. This is an all-encompassing representation
 // of Item and Map and their subclasses. The way to do
 // type specific operations is to check the Value's type() and
 // cast it to the appropriate subclass. This isn't super clean,
 // but it is the simplest strategy.
 class Value {
  public:
   virtual ~Value() = default;

   // Whether this value is weak and can be overridden without warning or error. Default is false.
   bool IsWeak() const {
     return weak_;
   }

   void SetWeak(bool val) {
     weak_ = val;
   }

   // Whether the value is marked as translatable. This does not persist when flattened to binary.
   // It is only used during compilation phase.
   void SetTranslatable(bool val) {
     translatable_ = val;
   }

   // Default true.
   bool IsTranslatable() const {
     return translatable_;
   }

   // Returns the source where this value was defined.
   const Source& GetSource() const {
     return source_;
   }

   void SetSource(const Source& source) {
     source_ = source;
   }

   void SetSource(Source&& source) {
     source_ = std::move(source);
   }

   // Returns the comment that was associated with this resource.
   const std::string& GetComment() const {
     return comment_;
   }

   void SetComment(const android::StringPiece& str) {
     comment_ = str.to_string();
   }

   void SetComment(std::string&& str) {
     comment_ = std::move(str);
   }

   virtual bool Equals(const Value* value) const = 0;

   // Calls the appropriate overload of ValueVisitor.
   virtual void Accept(ValueVisitor* visitor) = 0;

   // Calls the appropriate overload of ConstValueVisitor.
   virtual void Accept(ConstValueVisitor* visitor) const = 0;

   // Clone the value. `new_pool` is the new StringPool that
   // any resources with strings should use when copying their string.
   virtual Value* Clone(StringPool* new_pool) const = 0;

   // Human readable printout of this value.
   virtual void Print(std::ostream* out) const = 0;

   // Human readable printout of this value that may omit some information for the sake
   // of brevity and readability. Default implementation just calls Print().
   virtual void PrettyPrint(text::Printer* printer) const;

   friend std::ostream& operator<<(std::ostream& out, const Value& value);

  protected:
   Source source_;
   std::string comment_;
   bool weak_ = false;
   bool translatable_ = true;
 };

 // Inherit from this to get visitor accepting implementations for free.
 template <typename Derived>
 struct BaseValue : public Value {
   void Accept(ValueVisitor* visitor) override;
   void Accept(ConstValueVisitor* visitor) const override;
 };

 // A resource item with a single value. This maps to android::ResTable_entry.
 struct Item : public Value {
   // Clone the Item.
   virtual Item* Clone(StringPool* new_pool) const override = 0;

   // Fills in an android::Res_value structure with this Item's binary representation.
   // Returns false if an error occurred.
   virtual bool Flatten(android::Res_value* out_value) const = 0;
 };

 // Inherit from this to get visitor accepting implementations for free.
 template <typename Derived>
 struct BaseItem : public Item {
   void Accept(ValueVisitor* visitor) override;
   void Accept(ConstValueVisitor* visitor) const override;
 };

 // A reference to another resource. This maps to android::Res_value::TYPE_REFERENCE.
 // A reference can be symbolic (with the name set to a valid resource name) or be
 // numeric (the id is set to a valid resource ID).
 struct Reference : public BaseItem<Reference> {
   enum class Type {
     kResource,
     kAttribute,
   };

   Maybe<ResourceName> name;
   Maybe<ResourceId> id;
   Reference::Type reference_type;
   bool private_reference = false;
   bool is_dynamic = false;

   Reference();
   explicit Reference(const ResourceNameRef& n, Type type = Type::kResource);
   explicit Reference(const ResourceId& i, Type type = Type::kResource);
   Reference(const ResourceNameRef& n, const ResourceId& i);

   bool Equals(const Value* value) const override;
   bool Flatten(android::Res_value* out_value) const override;
   Reference* Clone(StringPool* new_pool) const override;
   void Print(std::ostream* out) const override;
   void PrettyPrint(text::Printer* printer) const override;

   // Prints the reference without a package name if the package name matches the one given.
   void PrettyPrint(const android::StringPiece& package, text::Printer* printer) const;
 };

 bool operator<(const Reference&, const Reference&);
 bool operator==(const Reference&, const Reference&);

 // An ID resource. Has no real value, just a place holder.
 struct Id : public BaseItem<Id> {
   Id() {
     weak_ = true;
   }

   bool Equals(const Value* value) const override;
   bool Flatten(android::Res_value* out) const override;
   Id* Clone(StringPool* new_pool) const override;
   void Print(std::ostream* out) const override;
 };

 // A raw, unprocessed string. This may contain quotations, escape sequences, and whitespace.
 // This shall *NOT* end up in the final resource table.
 struct RawString : public BaseItem<RawString> {
   StringPool::Ref value;

   explicit RawString(const StringPool::Ref& ref);

   bool Equals(const Value* value) const override;
   bool Flatten(android::Res_value* out_value) const override;
   RawString* Clone(StringPool* new_pool) const override;
   void Print(std::ostream* out) const override;
 };

 // Identifies a range of characters in a string that are untranslatable.
 // These should not be pseudolocalized. The start and end indices are measured in bytes.
 struct UntranslatableSection {
   // Start offset inclusive.
   size_t start;

   // End offset exclusive.
   size_t end;
 };

 inline bool operator==(const UntranslatableSection& a, const UntranslatableSection& b) {
   return a.start == b.start && a.end == b.end;
 }

 inline bool operator!=(const UntranslatableSection& a, const UntranslatableSection& b) {
   return a.start != b.start || a.end != b.end;
 }

 struct String : public BaseItem<String> {
   StringPool::Ref value;

   // Sections of the string to NOT translate. Mainly used
   // for pseudolocalization. This data is NOT persisted
   // in any format.
   std::vector<UntranslatableSection> untranslatable_sections;

   explicit String(const StringPool::Ref& ref);

   bool Equals(const Value* value) const override;
   bool Flatten(android::Res_value* out_value) const override;
   String* Clone(StringPool* new_pool) const override;
   void Print(std::ostream* out) const override;
   void PrettyPrint(text::Printer* printer) const override;
 };

 struct StyledString : public BaseItem<StyledString> {
   StringPool::StyleRef value;

   // Sections of the string to NOT translate. Mainly used
   // for pseudolocalization. This data is NOT persisted
   // in any format.
   std::vector<UntranslatableSection> untranslatable_sections;

   explicit StyledString(const StringPool::StyleRef& ref);

   bool Equals(const Value* value) const override;
   bool Flatten(android::Res_value* out_value) const override;
   StyledString* Clone(StringPool* new_pool) const override;
   void Print(std::ostream* out) const override;
 };

 struct FileReference : public BaseItem<FileReference> {
   StringPool::Ref path;

   // A handle to the file object from which this file can be read.
   // This field is NOT persisted in any format. It is transient.
   io::IFile* file = nullptr;

   // FileType of the file pointed to by `file`. This is used to know how to inflate the file,
   // or if to inflate at all (just copy).
   ResourceFile::Type type = ResourceFile::Type::kUnknown;

   FileReference() = default;
   explicit FileReference(const StringPool::Ref& path);

   bool Equals(const Value* value) const override;
   bool Flatten(android::Res_value* out_value) const override;
   FileReference* Clone(StringPool* new_pool) const override;
   void Print(std::ostream* out) const override;
 };

 // Represents any other android::Res_value.
 struct BinaryPrimitive : public BaseItem<BinaryPrimitive> {
   android::Res_value value;

   BinaryPrimitive() = default;
   explicit BinaryPrimitive(const android::Res_value& val);
   BinaryPrimitive(uint8_t dataType, uint32_t data);

   bool Equals(const Value* value) const override;
   bool Flatten(android::Res_value* out_value) const override;
   BinaryPrimitive* Clone(StringPool* new_pool) const override;
   void Print(std::ostream* out) const override;
   void PrettyPrint(text::Printer* printer) const override;
 };

 struct Attribute : public BaseValue<Attribute> {
   struct Symbol {
     Reference symbol;
     uint32_t value;
     uint8_t type;

     friend std::ostream& operator<<(std::ostream& out, const Symbol& symbol);
   };

   uint32_t type_mask;
   int32_t min_int;
   int32_t max_int;
   std::vector<Symbol> symbols;

   explicit Attribute(uint32_t t = 0u);

   bool Equals(const Value* value) const override;

   // Returns true if this Attribute's format is compatible with the given Attribute. The basic
   // rule is that TYPE_REFERENCE can be ignored for both of the Attributes, and TYPE_FLAGS and
   // TYPE_ENUMS are never compatible.
   bool IsCompatibleWith(const Attribute& attr) const;

   Attribute* Clone(StringPool* new_pool) const override;
   std::string MaskString() const;
   void Print(std::ostream* out) const override;
   bool Matches(const Item& item, DiagMessage* out_msg = nullptr) const;
 };

 struct Style : public BaseValue<Style> {
   struct Entry {
     Reference key;
     std::unique_ptr<Item> value;

     friend std::ostream& operator<<(std::ostream& out, const Entry& entry);
   };

   Maybe<Reference> parent;

   // If set to true, the parent was auto inferred from the style's name.
   bool parent_inferred = false;

   std::vector<Entry> entries;

   bool Equals(const Value* value) const override;
   Style* Clone(StringPool* new_pool) const override;
   void Print(std::ostream* out) const override;

   // Merges `style` into this Style. All identical attributes of `style` take precedence, including
   // the parent, if there is one.
   void MergeWith(Style* style, StringPool* pool);
 };

 struct Array : public BaseValue<Array> {
   std::vector<std::unique_ptr<Item>> elements;

   bool Equals(const Value* value) const override;
   Array* Clone(StringPool* new_pool) const override;
   void Print(std::ostream* out) const override;
 };

 struct Plural : public BaseValue<Plural> {
   enum { Zero = 0, One, Two, Few, Many, Other, Count };

   std::array<std::unique_ptr<Item>, Count> values;

   bool Equals(const Value* value) const override;
   Plural* Clone(StringPool* new_pool) const override;
   void Print(std::ostream* out) const override;
 };

 struct Styleable : public BaseValue<Styleable> {
   std::vector<Reference> entries;

   bool Equals(const Value* value) const override;
   Styleable* Clone(StringPool* newPool) const override;
   void Print(std::ostream* out) const override;
   void MergeWith(Styleable* styleable);
 };

 template <typename T>
 typename std::enable_if<std::is_base_of<Value, T>::value, std::ostream&>::type operator<<(
     std::ostream& out, const std::unique_ptr<T>& value) {
   if (value == nullptr) {
     out << "NULL";
   } else {
     value->Print(&out);
   }
   return out;
 }

 }  // namespace aapt

 #endif  // AAPT_RESOURCE_VALUES_H
	/*
	* Copyright (C) 2015 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#ifndef AAPT_RESOURCE_VALUES_H
	#define AAPT_RESOURCE_VALUES_H

	#include <array>
	#include <limits>
	#include <ostream>
	#include <vector>

	#include "androidfw/ResourceTypes.h"
	#include "androidfw/StringPiece.h"

	#include "Diagnostics.h"
	#include "Resource.h"
	#include "StringPool.h"
	#include "io/File.h"
	#include "text/Printer.h"
	#include "util/Maybe.h"

	namespace aapt {

	class ValueVisitor;
	class ConstValueVisitor;

	// A resource value. This is an all-encompassing representation
	// of Item and Map and their subclasses. The way to do
	// type specific operations is to check the Value's type() and
	// cast it to the appropriate subclass. This isn't super clean,
	// but it is the simplest strategy.
	class Value {
	public:
	virtual ~Value() = default;

	// Whether this value is weak and can be overridden without warning or error. Default is false.
	bool IsWeak() const {
	return weak_;
	}

	void SetWeak(bool val) {
	weak_ = val;
	}

	// Whether the value is marked as translatable. This does not persist when flattened to binary.
	// It is only used during compilation phase.
	void SetTranslatable(bool val) {
	translatable_ = val;
	}

	// Default true.
	bool IsTranslatable() const {
	return translatable_;
	}

	// Returns the source where this value was defined.
	const Source& GetSource() const {
	return source_;
	}

	void SetSource(const Source& source) {
	source_ = source;
	}

	void SetSource(Source&& source) {
	source_ = std::move(source);
	}

	// Returns the comment that was associated with this resource.
	const std::string& GetComment() const {
	return comment_;
	}

	void SetComment(const android::StringPiece& str) {
	comment_ = str.to_string();
	}

	void SetComment(std::string&& str) {
	comment_ = std::move(str);
	}

	virtual bool Equals(const Value* value) const = 0;

	// Calls the appropriate overload of ValueVisitor.
	virtual void Accept(ValueVisitor* visitor) = 0;

	// Calls the appropriate overload of ConstValueVisitor.
	virtual void Accept(ConstValueVisitor* visitor) const = 0;

	// Clone the value. `new_pool` is the new StringPool that
	// any resources with strings should use when copying their string.
	virtual Value* Clone(StringPool* new_pool) const = 0;

	// Human readable printout of this value.
	virtual void Print(std::ostream* out) const = 0;

	// Human readable printout of this value that may omit some information for the sake
	// of brevity and readability. Default implementation just calls Print().
	virtual void PrettyPrint(text::Printer* printer) const;

	friend std::ostream& operator<<(std::ostream& out, const Value& value);

	protected:
	Source source_;
	std::string comment_;
	bool weak_ = false;
	bool translatable_ = true;
	};

	// Inherit from this to get visitor accepting implementations for free.
	template <typename Derived>
	struct BaseValue : public Value {
	void Accept(ValueVisitor* visitor) override;
	void Accept(ConstValueVisitor* visitor) const override;
	};

	// A resource item with a single value. This maps to android::ResTable_entry.
	struct Item : public Value {
	// Clone the Item.
	virtual Item* Clone(StringPool* new_pool) const override = 0;

	// Fills in an android::Res_value structure with this Item's binary representation.
	// Returns false if an error occurred.
	virtual bool Flatten(android::Res_value* out_value) const = 0;
	};

	// Inherit from this to get visitor accepting implementations for free.
	template <typename Derived>
	struct BaseItem : public Item {
	void Accept(ValueVisitor* visitor) override;
	void Accept(ConstValueVisitor* visitor) const override;
	};

	// A reference to another resource. This maps to android::Res_value::TYPE_REFERENCE.
	// A reference can be symbolic (with the name set to a valid resource name) or be
	// numeric (the id is set to a valid resource ID).
	struct Reference : public BaseItem<Reference> {
	enum class Type {
	kResource,
	kAttribute,
	};

	Maybe<ResourceName> name;
	Maybe<ResourceId> id;
	Reference::Type reference_type;
	bool private_reference = false;
	bool is_dynamic = false;

	Reference();
	explicit Reference(const ResourceNameRef& n, Type type = Type::kResource);
	explicit Reference(const ResourceId& i, Type type = Type::kResource);
	Reference(const ResourceNameRef& n, const ResourceId& i);

	bool Equals(const Value* value) const override;
	bool Flatten(android::Res_value* out_value) const override;
	Reference* Clone(StringPool* new_pool) const override;
	void Print(std::ostream* out) const override;
	void PrettyPrint(text::Printer* printer) const override;

	// Prints the reference without a package name if the package name matches the one given.
	void PrettyPrint(const android::StringPiece& package, text::Printer* printer) const;
	};

	bool operator<(const Reference&, const Reference&);
	bool operator==(const Reference&, const Reference&);

	// An ID resource. Has no real value, just a place holder.
	struct Id : public BaseItem<Id> {
	Id() {
	weak_ = true;
	}

	bool Equals(const Value* value) const override;
	bool Flatten(android::Res_value* out) const override;
	Id* Clone(StringPool* new_pool) const override;
	void Print(std::ostream* out) const override;
	};

	// A raw, unprocessed string. This may contain quotations, escape sequences, and whitespace.
	// This shall NOT end up in the final resource table.
	struct RawString : public BaseItem<RawString> {
	StringPool::Ref value;

	explicit RawString(const StringPool::Ref& ref);

	bool Equals(const Value* value) const override;
	bool Flatten(android::Res_value* out_value) const override;
	RawString* Clone(StringPool* new_pool) const override;
	void Print(std::ostream* out) const override;
	};

	// Identifies a range of characters in a string that are untranslatable.
	// These should not be pseudolocalized. The start and end indices are measured in bytes.
	struct UntranslatableSection {
	// Start offset inclusive.
	size_t start;

	// End offset exclusive.
	size_t end;
	};

	inline bool operator==(const UntranslatableSection& a, const UntranslatableSection& b) {
	return a.start == b.start && a.end == b.end;
	}

	inline bool operator!=(const UntranslatableSection& a, const UntranslatableSection& b) {
	return a.start != b.start \|\| a.end != b.end;
	}

	struct String : public BaseItem<String> {
	StringPool::Ref value;

	// Sections of the string to NOT translate. Mainly used
	// for pseudolocalization. This data is NOT persisted
	// in any format.
	std::vector<UntranslatableSection> untranslatable_sections;

	explicit String(const StringPool::Ref& ref);

	bool Equals(const Value* value) const override;
	bool Flatten(android::Res_value* out_value) const override;
	String* Clone(StringPool* new_pool) const override;
	void Print(std::ostream* out) const override;
	void PrettyPrint(text::Printer* printer) const override;
	};

	struct StyledString : public BaseItem<StyledString> {
	StringPool::StyleRef value;

	// Sections of the string to NOT translate. Mainly used
	// for pseudolocalization. This data is NOT persisted
	// in any format.
	std::vector<UntranslatableSection> untranslatable_sections;

	explicit StyledString(const StringPool::StyleRef& ref);

	bool Equals(const Value* value) const override;
	bool Flatten(android::Res_value* out_value) const override;
	StyledString* Clone(StringPool* new_pool) const override;
	void Print(std::ostream* out) const override;
	};

	struct FileReference : public BaseItem<FileReference> {
	StringPool::Ref path;

	// A handle to the file object from which this file can be read.
	// This field is NOT persisted in any format. It is transient.
	io::IFile* file = nullptr;

	// FileType of the file pointed to by `file`. This is used to know how to inflate the file,
	// or if to inflate at all (just copy).
	ResourceFile::Type type = ResourceFile::Type::kUnknown;

	FileReference() = default;
	explicit FileReference(const StringPool::Ref& path);

	bool Equals(const Value* value) const override;
	bool Flatten(android::Res_value* out_value) const override;
	FileReference* Clone(StringPool* new_pool) const override;
	void Print(std::ostream* out) const override;
	};

	// Represents any other android::Res_value.
	struct BinaryPrimitive : public BaseItem<BinaryPrimitive> {
	android::Res_value value;

	BinaryPrimitive() = default;
	explicit BinaryPrimitive(const android::Res_value& val);
	BinaryPrimitive(uint8_t dataType, uint32_t data);

	bool Equals(const Value* value) const override;
	bool Flatten(android::Res_value* out_value) const override;
	BinaryPrimitive* Clone(StringPool* new_pool) const override;
	void Print(std::ostream* out) const override;
	void PrettyPrint(text::Printer* printer) const override;
	};

	struct Attribute : public BaseValue<Attribute> {
	struct Symbol {
	Reference symbol;
	uint32_t value;
	uint8_t type;

	friend std::ostream& operator<<(std::ostream& out, const Symbol& symbol);
	};

	uint32_t type_mask;
	int32_t min_int;
	int32_t max_int;
	std::vector<Symbol> symbols;

	explicit Attribute(uint32_t t = 0u);

	bool Equals(const Value* value) const override;

	// Returns true if this Attribute's format is compatible with the given Attribute. The basic
	// rule is that TYPE_REFERENCE can be ignored for both of the Attributes, and TYPE_FLAGS and
	// TYPE_ENUMS are never compatible.
	bool IsCompatibleWith(const Attribute& attr) const;

	Attribute* Clone(StringPool* new_pool) const override;
	std::string MaskString() const;
	void Print(std::ostream* out) const override;
	bool Matches(const Item& item, DiagMessage* out_msg = nullptr) const;
	};

	struct Style : public BaseValue<Style> {
	struct Entry {
	Reference key;
	std::unique_ptr<Item> value;

	friend std::ostream& operator<<(std::ostream& out, const Entry& entry);
	};

	Maybe<Reference> parent;

	// If set to true, the parent was auto inferred from the style's name.
	bool parent_inferred = false;

	std::vector<Entry> entries;

	bool Equals(const Value* value) const override;
	Style* Clone(StringPool* new_pool) const override;
	void Print(std::ostream* out) const override;

	// Merges `style` into this Style. All identical attributes of `style` take precedence, including
	// the parent, if there is one.
	void MergeWith(Style* style, StringPool* pool);
	};

	struct Array : public BaseValue<Array> {
	std::vector<std::unique_ptr<Item>> elements;

	bool Equals(const Value* value) const override;
	Array* Clone(StringPool* new_pool) const override;
	void Print(std::ostream* out) const override;
	};

	struct Plural : public BaseValue<Plural> {
	enum { Zero = 0, One, Two, Few, Many, Other, Count };

	std::array<std::unique_ptr<Item>, Count> values;

	bool Equals(const Value* value) const override;
	Plural* Clone(StringPool* new_pool) const override;
	void Print(std::ostream* out) const override;
	};

	struct Styleable : public BaseValue<Styleable> {
	std::vector<Reference> entries;

	bool Equals(const Value* value) const override;
	Styleable* Clone(StringPool* newPool) const override;
	void Print(std::ostream* out) const override;
	void MergeWith(Styleable* styleable);
	};

	template <typename T>
	typename std::enable_if<std::is_base_of<Value, T>::value, std::ostream&>::type operator<<(
	std::ostream& out, const std::unique_ptr<T>& value) {
	if (value == nullptr) {
	out << "NULL";
	} else {
	value->Print(&out);
	}
	return out;
	}

	} // namespace aapt

	#endif // AAPT_RESOURCE_VALUES_H