/* * Copyright (C) 2005 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 ANDROID_STRING8_H #define ANDROID_STRING8_H #include <utils/Errors.h> #include <utils/SharedBuffer.h> #include <utils/Unicode.h> #include <utils/TypeHelpers.h> #include <string.h> // for strcmp #include <stdarg.h> // --------------------------------------------------------------------------- namespace android { class String16; class TextOutput; //! This is a string holding UTF-8 characters. Does not allow the value more // than 0x10FFFF, which is not valid unicode codepoint. class String8 { public: /* use String8(StaticLinkage) if you're statically linking against * libutils and declaring an empty static String8, e.g.: * * static String8 sAStaticEmptyString(String8::kEmptyString); * static String8 sAnotherStaticEmptyString(sAStaticEmptyString); */ enum StaticLinkage { kEmptyString }; String8(); explicit String8(StaticLinkage); String8(const String8& o); explicit String8(const char* o); explicit String8(const char* o, size_t numChars); explicit String8(const String16& o); explicit String8(const char16_t* o); explicit String8(const char16_t* o, size_t numChars); explicit String8(const char32_t* o); explicit String8(const char32_t* o, size_t numChars); ~String8(); static inline const String8 empty(); static String8 format(const char* fmt, ...) __attribute__((format (printf, 1, 2))); static String8 formatV(const char* fmt, va_list args); inline const char* string() const; inline size_t size() const; inline size_t length() const; inline size_t bytes() const; inline bool isEmpty() const; inline const SharedBuffer* sharedBuffer() const; void clear(); void setTo(const String8& other); status_t setTo(const char* other); status_t setTo(const char* other, size_t numChars); status_t setTo(const char16_t* other, size_t numChars); status_t setTo(const char32_t* other, size_t length); status_t append(const String8& other); status_t append(const char* other); status_t append(const char* other, size_t numChars); status_t appendFormat(const char* fmt, ...) __attribute__((format (printf, 2, 3))); status_t appendFormatV(const char* fmt, va_list args); // Note that this function takes O(N) time to calculate the value. // No cache value is stored. size_t getUtf32Length() const; int32_t getUtf32At(size_t index, size_t *next_index) const; void getUtf32(char32_t* dst) const; inline String8& operator=(const String8& other); inline String8& operator=(const char* other); inline String8& operator+=(const String8& other); inline String8 operator+(const String8& other) const; inline String8& operator+=(const char* other); inline String8 operator+(const char* other) const; inline int compare(const String8& other) const; inline bool operator<(const String8& other) const; inline bool operator<=(const String8& other) const; inline bool operator==(const String8& other) const; inline bool operator!=(const String8& other) const; inline bool operator>=(const String8& other) const; inline bool operator>(const String8& other) const; inline bool operator<(const char* other) const; inline bool operator<=(const char* other) const; inline bool operator==(const char* other) const; inline bool operator!=(const char* other) const; inline bool operator>=(const char* other) const; inline bool operator>(const char* other) const; inline operator const char*() const; char* lockBuffer(size_t size); void unlockBuffer(); status_t unlockBuffer(size_t size); // return the index of the first byte of other in this at or after // start, or -1 if not found ssize_t find(const char* other, size_t start = 0) const; // return true if this string contains the specified substring inline bool contains(const char* other) const; // removes all occurrence of the specified substring // returns true if any were found and removed bool removeAll(const char* other); void toLower(); void toLower(size_t start, size_t numChars); void toUpper(); void toUpper(size_t start, size_t numChars); /* * These methods operate on the string as if it were a path name. */ /* * Set the filename field to a specific value. * * Normalizes the filename, removing a trailing '/' if present. */ void setPathName(const char* name); void setPathName(const char* name, size_t numChars); /* * Get just the filename component. * * "/tmp/foo/bar.c" --> "bar.c" */ String8 getPathLeaf(void) const; /* * Remove the last (file name) component, leaving just the directory * name. * * "/tmp/foo/bar.c" --> "/tmp/foo" * "/tmp" --> "" // ????? shouldn't this be "/" ???? XXX * "bar.c" --> "" */ String8 getPathDir(void) const; /* * Retrieve the front (root dir) component. Optionally also return the * remaining components. * * "/tmp/foo/bar.c" --> "tmp" (remain = "foo/bar.c") * "/tmp" --> "tmp" (remain = "") * "bar.c" --> "bar.c" (remain = "") */ String8 walkPath(String8* outRemains = NULL) const; /* * Return the filename extension. This is the last '.' and any number * of characters that follow it. The '.' is included in case we * decide to expand our definition of what constitutes an extension. * * "/tmp/foo/bar.c" --> ".c" * "/tmp" --> "" * "/tmp/foo.bar/baz" --> "" * "foo.jpeg" --> ".jpeg" * "foo." --> "" */ String8 getPathExtension(void) const; /* * Return the path without the extension. Rules for what constitutes * an extension are described in the comment for getPathExtension(). * * "/tmp/foo/bar.c" --> "/tmp/foo/bar" */ String8 getBasePath(void) const; /* * Add a component to the pathname. We guarantee that there is * exactly one path separator between the old path and the new. * If there is no existing name, we just copy the new name in. * * If leaf is a fully qualified path (i.e. starts with '/', it * replaces whatever was there before. */ String8& appendPath(const char* leaf); String8& appendPath(const String8& leaf) { return appendPath(leaf.string()); } /* * Like appendPath(), but does not affect this string. Returns a new one instead. */ String8 appendPathCopy(const char* leaf) const { String8 p(*this); p.appendPath(leaf); return p; } String8 appendPathCopy(const String8& leaf) const { return appendPathCopy(leaf.string()); } /* * Converts all separators in this string to /, the default path separator. * * If the default OS separator is backslash, this converts all * backslashes to slashes, in-place. Otherwise it does nothing. * Returns self. */ String8& convertToResPath(); private: status_t real_append(const char* other, size_t numChars); char* find_extension(void) const; const char* mString; }; // String8 can be trivially moved using memcpy() because moving does not // require any change to the underlying SharedBuffer contents or reference count. ANDROID_TRIVIAL_MOVE_TRAIT(String8) // --------------------------------------------------------------------------- // No user servicable parts below. inline int compare_type(const String8& lhs, const String8& rhs) { return lhs.compare(rhs); } inline int strictly_order_type(const String8& lhs, const String8& rhs) { return compare_type(lhs, rhs) < 0; } inline const String8 String8::empty() { return String8(); } inline const char* String8::string() const { return mString; } inline size_t String8::length() const { return SharedBuffer::sizeFromData(mString)-1; } inline size_t String8::size() const { return length(); } inline bool String8::isEmpty() const { return length() == 0; } inline size_t String8::bytes() const { return SharedBuffer::sizeFromData(mString)-1; } inline const SharedBuffer* String8::sharedBuffer() const { return SharedBuffer::bufferFromData(mString); } inline bool String8::contains(const char* other) const { return find(other) >= 0; } inline String8& String8::operator=(const String8& other) { setTo(other); return *this; } inline String8& String8::operator=(const char* other) { setTo(other); return *this; } inline String8& String8::operator+=(const String8& other) { append(other); return *this; } inline String8 String8::operator+(const String8& other) const { String8 tmp(*this); tmp += other; return tmp; } inline String8& String8::operator+=(const char* other) { append(other); return *this; } inline String8 String8::operator+(const char* other) const { String8 tmp(*this); tmp += other; return tmp; } inline int String8::compare(const String8& other) const { return strcmp(mString, other.mString); } inline bool String8::operator<(const String8& other) const { return strcmp(mString, other.mString) < 0; } inline bool String8::operator<=(const String8& other) const { return strcmp(mString, other.mString) <= 0; } inline bool String8::operator==(const String8& other) const { return strcmp(mString, other.mString) == 0; } inline bool String8::operator!=(const String8& other) const { return strcmp(mString, other.mString) != 0; } inline bool String8::operator>=(const String8& other) const { return strcmp(mString, other.mString) >= 0; } inline bool String8::operator>(const String8& other) const { return strcmp(mString, other.mString) > 0; } inline bool String8::operator<(const char* other) const { return strcmp(mString, other) < 0; } inline bool String8::operator<=(const char* other) const { return strcmp(mString, other) <= 0; } inline bool String8::operator==(const char* other) const { return strcmp(mString, other) == 0; } inline bool String8::operator!=(const char* other) const { return strcmp(mString, other) != 0; } inline bool String8::operator>=(const char* other) const { return strcmp(mString, other) >= 0; } inline bool String8::operator>(const char* other) const { return strcmp(mString, other) > 0; } inline String8::operator const char*() const { return mString; } } // namespace android // --------------------------------------------------------------------------- #endif // ANDROID_STRING8_H