/* * 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_RESOURCEUTILS_H #define AAPT_RESOURCEUTILS_H #include #include #include "androidfw/AssetManager2.h" #include "androidfw/ConfigDescription.h" #include "androidfw/ResourceTypes.h" #include "androidfw/StringPiece.h" #include "NameMangler.h" #include "Resource.h" #include "ResourceValues.h" #include "StringPool.h" namespace aapt { namespace ResourceUtils { /** * Returns true if the string was parsed as a resource name * ([*][package:]type/name), with * `out_resource` set to the parsed resource name and `out_private` set to true * if a '*' prefix was present. */ bool ParseResourceName(const android::StringPiece& str, ResourceNameRef* out_resource, bool* out_private = nullptr); /* * Returns true if the string was parsed as a reference * (@[+][package:]type/name), with * `out_reference` set to the parsed reference. * * If '+' was present in the reference, `out_create` is set to true. * If '*' was present in the reference, `out_private` is set to true. */ bool ParseReference(const android::StringPiece& str, ResourceNameRef* out_reference, bool* out_create = nullptr, bool* out_private = nullptr); /* * Returns true if the string is in the form of a resource reference * (@[+][package:]type/name). */ bool IsReference(const android::StringPiece& str); /* * Returns true if the string was parsed as an attribute reference * (?[package:][type/]name), * with `out_reference` set to the parsed reference. */ bool ParseAttributeReference(const android::StringPiece& str, ResourceNameRef* out_reference); /** * Returns true if the string is in the form of an attribute * reference(?[package:][type/]name). */ bool IsAttributeReference(const android::StringPiece& str); /** * Convert an android::ResTable::resource_name to an aapt::ResourceName struct. */ Maybe ToResourceName( const android::ResTable::resource_name& name); /** * Convert an android::AssetManager2::ResourceName to an aapt::ResourceName struct. */ Maybe ToResourceName( const android::AssetManager2::ResourceName& name_in); /** * Returns a boolean value if the string is equal to TRUE, true, True, FALSE, * false, or False. */ Maybe ParseBool(const android::StringPiece& str); /** * Returns a uint32_t if the string is an integer. */ Maybe ParseInt(const android::StringPiece& str); /** * Returns an ID if it the string represented a valid ID. */ Maybe ParseResourceId(const android::StringPiece& str); /** * Parses an SDK version, which can be an integer, or a letter from A-Z. */ Maybe ParseSdkVersion(const android::StringPiece& str); /* * Returns a Reference, or None Maybe instance if the string `str` was parsed as * a * valid reference to a style. * The format for a style parent is slightly more flexible than a normal * reference: * * @[package:]style/ or * ?[package:]style/ or * :[style/] */ Maybe ParseStyleParentReference(const android::StringPiece& str, std::string* out_error); /* * Returns a Reference if the string `str` was parsed as a valid XML attribute * name. * The valid format for an XML attribute name is: * * package:entry */ Maybe ParseXmlAttributeName(const android::StringPiece& str); /* * Returns a Reference object if the string was parsed as a resource or * attribute reference, * ( @[+][package:]type/name | ?[package:]type/name ) setting outCreate to true * if * the '+' was present in the string. */ std::unique_ptr TryParseReference(const android::StringPiece& str, bool* out_create = nullptr); /* * Returns a BinaryPrimitve object representing @null or @empty if the string * was parsed as one. */ std::unique_ptr TryParseNullOrEmpty(const android::StringPiece& str); // Returns a Reference representing @null. // Due to runtime compatibility issues, this is encoded as a reference with ID 0. // The runtime will convert this to TYPE_NULL. std::unique_ptr MakeNull(); // Returns a BinaryPrimitive representing @empty. This is encoded as a Res_value with // type Res_value::TYPE_NULL and data Res_value::DATA_NULL_EMPTY. std::unique_ptr MakeEmpty(); /* * Returns a BinaryPrimitve object representing a color if the string was parsed * as one. */ std::unique_ptr TryParseColor(const android::StringPiece& str); /* * Returns a BinaryPrimitve object representing a boolean if the string was * parsed as one. */ std::unique_ptr TryParseBool(const android::StringPiece& str); // Returns a boolean BinaryPrimitive. std::unique_ptr MakeBool(bool val); /* * Returns a BinaryPrimitve object representing an integer if the string was * parsed as one. */ std::unique_ptr TryParseInt(const android::StringPiece& str); // Returns an integer BinaryPrimitive. std::unique_ptr MakeInt(uint32_t value); /* * Returns a BinaryPrimitve object representing a floating point number * (float, dimension, etc) if the string was parsed as one. */ std::unique_ptr TryParseFloat(const android::StringPiece& str); /* * Returns a BinaryPrimitve object representing an enum symbol if the string was * parsed as one. */ std::unique_ptr TryParseEnumSymbol(const Attribute* enum_attr, const android::StringPiece& str); /* * Returns a BinaryPrimitve object representing a flag symbol if the string was * parsed as one. */ std::unique_ptr TryParseFlagSymbol(const Attribute* enum_attr, const android::StringPiece& str); /* * Try to convert a string to an Item for the given attribute. The attribute * will * restrict what values the string can be converted to. * The callback function on_create_reference is called when the parsed item is a * reference to an ID that must be created (@+id/foo). */ std::unique_ptr TryParseItemForAttribute( const android::StringPiece& value, const Attribute* attr, const std::function& on_create_reference = {}); std::unique_ptr TryParseItemForAttribute( const android::StringPiece& value, uint32_t type_mask, const std::function& on_create_reference = {}); uint32_t AndroidTypeToAttributeTypeMask(uint16_t type); /** * Returns a string path suitable for use within an APK. The path will look * like: * * res/type[-config]/. * * Then name may be mangled if a NameMangler is supplied (can be nullptr) and * the package * requires mangling. */ std::string BuildResourceFileName(const ResourceFile& res_file, const NameMangler* mangler = nullptr); // Parses the binary form of a resource value. `type` is used as a hint to know when a value is // an ID versus a False boolean value, etc. `config` is for sorting strings in the string pool. std::unique_ptr ParseBinaryResValue(const ResourceType& type, const android::ConfigDescription& config, const android::ResStringPool& src_pool, const android::Res_value& res_value, StringPool* dst_pool); // A string flattened from an XML hierarchy, which maintains tags and untranslatable sections // in parallel data structures. struct FlattenedXmlString { std::string text; std::vector untranslatable_sections; std::vector spans; }; // Flattens an XML hierarchy into a FlattenedXmlString, formatting the text, escaping characters, // and removing whitespace, all while keeping the untranslatable sections and spans in sync with the // transformations. // // Specifically, the StringBuilder will handle escaped characters like \t, \n, \\, \', etc. // Single quotes *must* be escaped, unless within a pair of double-quotes. // Pairs of double-quotes disable whitespace stripping of the enclosed text. // Unicode escape codes (\u0049) are interpreted and the represented Unicode character is inserted. // // A NOTE ON WHITESPACE: // // When preserve_spaces is false, and when text is not enclosed within double-quotes, // StringBuilder replaces a series of whitespace with a single space character. This happens at the // start and end of the string as well, so leading and trailing whitespace is possible. // // When a Span is started or stopped, the whitespace counter is reset, meaning if whitespace // is encountered directly after the span, it will be emitted. This leads to situations like the // following: "This is spaced" -> "This is spaced". Without spans, this would be properly // compressed: "This is spaced" -> "This is spaced". // // Untranslatable sections do not have the same problem: // "This is not spaced" -> "This is not spaced". // // NOTE: This is all the way it is because AAPT1 did it this way. Maintaining backwards // compatibility is important. // class StringBuilder { public: using SpanHandle = size_t; using UntranslatableHandle = size_t; // Creates a StringBuilder. If preserve_spaces is true, whitespace removal is not performed, and // single quotations can be used without escaping them. explicit StringBuilder(bool preserve_spaces = false); // Appends a chunk of text. StringBuilder& AppendText(const std::string& text); // Starts a Span (tag) with the given name. The name is expected to be of the form: // "tag_name;attr1=value;attr2=value;" // Which is how Spans are encoded in the ResStringPool. // To end the span, pass back the SpanHandle received from this method to the EndSpan() method. SpanHandle StartSpan(const std::string& name); // Ends a Span (tag). Pass in the matching SpanHandle previously obtained from StartSpan(). void EndSpan(SpanHandle handle); // Starts an Untranslatable section. // To end the section, pass back the UntranslatableHandle received from this method to // the EndUntranslatable() method. UntranslatableHandle StartUntranslatable(); // Ends an Untranslatable section. Pass in the matching UntranslatableHandle previously obtained // from StartUntranslatable(). void EndUntranslatable(UntranslatableHandle handle); // Returns the flattened XML string, with all spans and untranslatable sections encoded as // parallel data structures. FlattenedXmlString GetFlattenedString() const; // Returns just the flattened XML text, with no spans or untranslatable sections. std::string to_string() const; // Returns true if there was no error. explicit operator bool() const; std::string GetError() const; private: DISALLOW_COPY_AND_ASSIGN(StringBuilder); void ResetTextState(); std::string error_; FlattenedXmlString xml_string_; uint32_t utf16_len_ = 0u; bool preserve_spaces_; bool quote_; bool last_codepoint_was_space_ = false; }; } // namespace ResourceUtils } // namespace aapt #endif /* AAPT_RESOURCEUTILS_H */