/* * 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_UTIL_H #define AAPT_UTIL_H #include #include #include #include #include #include "androidfw/BigBuffer.h" #include "androidfw/ResourceTypes.h" #include "androidfw/StringPiece.h" #include "utils/ByteOrder.h" #ifdef _WIN32 // TODO(adamlesinski): remove once http://b/32447322 is resolved. // utils/ByteOrder.h includes winsock2.h on WIN32, // which will pull in the ERROR definition. This conflicts // with android-base/logging.h, which takes care of undefining // ERROR, but it gets included too early (before winsock2.h). #ifdef ERROR #undef ERROR #endif #endif namespace aapt { namespace util { template struct Range { T start; T end; }; std::vector Split(android::StringPiece str, char sep); std::vector SplitAndLowercase(android::StringPiece str, char sep); // Returns true if the string starts with prefix. bool StartsWith(android::StringPiece str, android::StringPiece prefix); // Returns true if the string ends with suffix. bool EndsWith(android::StringPiece str, android::StringPiece suffix); // Creates a new StringPiece that points to a substring of the original string without leading // whitespace. android::StringPiece TrimLeadingWhitespace(android::StringPiece str); // Creates a new StringPiece that points to a substring of the original string without trailing // whitespace. android::StringPiece TrimTrailingWhitespace(android::StringPiece str); // Creates a new StringPiece that points to a substring of the original string without leading or // trailing whitespace. android::StringPiece TrimWhitespace(android::StringPiece str); // Tests that the string is a valid Java class name. bool IsJavaClassName(android::StringPiece str); // Tests that the string is a valid Java package name. bool IsJavaPackageName(android::StringPiece str); // Tests that the string is a valid Android package name. More strict than a Java package name. // - First character of each component (separated by '.') must be an ASCII letter. // - Subsequent characters of a component can be ASCII alphanumeric or an underscore. // - Package must contain at least two components, unless it is 'android'. // - The maximum package name length is 223. bool IsAndroidPackageName(android::StringPiece str); // Tests that the string is a valid Android split name. // - First character of each component (separated by '.') must be an ASCII letter. // - Subsequent characters of a component can be ASCII alphanumeric or an underscore. bool IsAndroidSplitName(android::StringPiece str); // Tests that the string is a valid Android shared user id. // - First character of each component (separated by '.') must be an ASCII letter. // - Subsequent characters of a component can be ASCII alphanumeric or an underscore. // - Must contain at least two components, unless package name is 'android'. // - The maximum shared user id length is 223. // - Treat empty string as valid, it's the case of no shared user id. bool IsAndroidSharedUserId(android::StringPiece package_name, android::StringPiece shared_user_id); // Converts the class name to a fully qualified class name from the given // `package`. Ex: // // asdf --> package.asdf // .asdf --> package.asdf // .a.b --> package.a.b // asdf.adsf --> asdf.adsf std::optional GetFullyQualifiedClassName(android::StringPiece package, android::StringPiece class_name); // Retrieves the formatted name of aapt2. const char* GetToolName(); // Retrieves the build fingerprint of aapt2. std::string GetToolFingerprint(); template typename std::enable_if::value, int>::type compare(const T& a, const T& b) { if (a < b) { return -1; } else if (a > b) { return 1; } return 0; } // Makes a std::unique_ptr<> with the template parameter inferred by the compiler. // This will be present in C++14 and can be removed then. template std::unique_ptr make_unique(Args&&... args) { return std::unique_ptr(new T{std::forward(args)...}); } // Writes a set of items to the std::ostream, joining the times with the provided separator. template ::std::function<::std::ostream&(::std::ostream&)> Joiner(const Container& container, const char* sep) { using std::begin; using std::end; const auto begin_iter = begin(container); const auto end_iter = end(container); return [begin_iter, end_iter, sep](::std::ostream& out) -> ::std::ostream& { for (auto iter = begin_iter; iter != end_iter; ++iter) { if (iter != begin_iter) { out << sep; } out << *iter; } return out; }; } // Checks that the Java string format contains no non-positional arguments (arguments without // explicitly specifying an index) when there are more than one argument. This is an error // because translations may rearrange the order of the arguments in the string, which will // break the string interpolation. bool VerifyJavaStringFormat(android::StringPiece str); bool AppendStyledString(android::StringPiece input, bool preserve_spaces, std::string* out_str, std::string* out_error); class StringBuilder { public: StringBuilder() = default; StringBuilder& Append(android::StringPiece str); const std::string& ToString() const; const std::string& Error() const; bool IsEmpty() const; // When building StyledStrings, we need UTF-16 indices into the string, // which is what the Java layer expects when dealing with java // String.charAt(). size_t Utf16Len() const; explicit operator bool() const; private: std::string str_; size_t utf16_len_ = 0; bool quote_ = false; bool trailing_space_ = false; bool last_char_was_escape_ = false; std::string error_; }; inline const std::string& StringBuilder::ToString() const { return str_; } inline const std::string& StringBuilder::Error() const { return error_; } inline bool StringBuilder::IsEmpty() const { return str_.empty(); } inline size_t StringBuilder::Utf16Len() const { return utf16_len_; } inline StringBuilder::operator bool() const { return error_.empty(); } // Writes the entire BigBuffer to the output stream. bool WriteAll(std::ostream& out, const android::BigBuffer& buffer); // A Tokenizer implemented as an iterable collection. It does not allocate any memory on the heap // nor use standard containers. class Tokenizer { public: class iterator { public: using reference = android::StringPiece&; using value_type = android::StringPiece; using difference_type = size_t; using pointer = android::StringPiece*; using iterator_category = std::forward_iterator_tag; iterator(const iterator&) = default; iterator& operator=(const iterator&) = default; iterator& operator++(); android::StringPiece operator*() { return token_; } bool operator==(const iterator& rhs) const; bool operator!=(const iterator& rhs) const; private: friend class Tokenizer; iterator(android::StringPiece s, char sep, android::StringPiece tok, bool end); android::StringPiece str_; char separator_; android::StringPiece token_; bool end_; }; Tokenizer(android::StringPiece str, char sep); iterator begin() const { return begin_; } iterator end() const { return end_; } private: const iterator begin_; const iterator end_; }; inline Tokenizer Tokenize(android::StringPiece str, char sep) { return Tokenizer(str, sep); } // Given a path like: res/xml-sw600dp/foo.xml // // Extracts "res/xml-sw600dp/" into outPrefix. // Extracts "foo" into outEntry. // Extracts ".xml" into outSuffix. // // Returns true if successful. bool ExtractResFilePathParts(android::StringPiece path, android::StringPiece* out_prefix, android::StringPiece* out_entry, android::StringPiece* out_suffix); } // namespace util } // namespace aapt namespace std { // Stream operator for functions. Calls the function with the stream as an argument. // In the aapt namespace for lookup. inline ::std::ostream& operator<<(::std::ostream& out, const ::std::function<::std::ostream&(::std::ostream&)>& f) { return f(out); } } // namespace std #endif // AAPT_UTIL_H