/* * Copyright (C) 2011 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. */ #include "string-inl.h" #include "arch/memcmp16.h" #include "array.h" #include "class-inl.h" #include "gc/accounting/card_table-inl.h" #include "handle_scope-inl.h" #include "intern_table.h" #include "object-inl.h" #include "runtime.h" #include "string-inl.h" #include "thread.h" #include "utf-inl.h" namespace art { namespace mirror { // TODO: get global references for these GcRoot<Class> String::java_lang_String_; int32_t String::FastIndexOf(int32_t ch, int32_t start) { int32_t count = GetLength(); if (start < 0) { start = 0; } else if (start > count) { start = count; } if (IsCompressed()) { return FastIndexOf<uint8_t>(GetValueCompressed(), ch, start); } else { return FastIndexOf<uint16_t>(GetValue(), ch, start); } } void String::SetClass(ObjPtr<Class> java_lang_String) { CHECK(java_lang_String_.IsNull()); CHECK(java_lang_String != nullptr); CHECK(java_lang_String->IsStringClass()); java_lang_String_ = GcRoot<Class>(java_lang_String); } void String::ResetClass() { CHECK(!java_lang_String_.IsNull()); java_lang_String_ = GcRoot<Class>(nullptr); } int String::ComputeHashCode() { int32_t hash_code = 0; if (IsCompressed()) { hash_code = ComputeUtf16Hash(GetValueCompressed(), GetLength()); } else { hash_code = ComputeUtf16Hash(GetValue(), GetLength()); } SetHashCode(hash_code); return hash_code; } int32_t String::GetUtfLength() { if (IsCompressed()) { return GetLength(); } else { return CountUtf8Bytes(GetValue(), GetLength()); } } inline bool String::AllASCIIExcept(const uint16_t* chars, int32_t length, uint16_t non_ascii) { DCHECK(!IsASCII(non_ascii)); for (int32_t i = 0; i < length; ++i) { if (!IsASCII(chars[i]) && chars[i] != non_ascii) { return false; } } return true; } ObjPtr<String> String::DoReplace(Thread* self, Handle<String> src, uint16_t old_c, uint16_t new_c) { int32_t length = src->GetLength(); DCHECK(src->IsCompressed() ? ContainsElement(ArrayRef<uint8_t>(src->value_compressed_, length), old_c) : ContainsElement(ArrayRef<uint16_t>(src->value_, length), old_c)); bool compressible = kUseStringCompression && IsASCII(new_c) && (src->IsCompressed() || (!IsASCII(old_c) && AllASCIIExcept(src->value_, length, old_c))); gc::AllocatorType allocator_type = Runtime::Current()->GetHeap()->GetCurrentAllocator(); const int32_t length_with_flag = String::GetFlaggedCount(length, compressible); SetStringCountVisitor visitor(length_with_flag); ObjPtr<String> string = Alloc<true>(self, length_with_flag, allocator_type, visitor); if (UNLIKELY(string == nullptr)) { return nullptr; } if (compressible) { auto replace = [old_c, new_c](uint16_t c) { return dchecked_integral_cast<uint8_t>((old_c != c) ? c : new_c); }; uint8_t* out = string->value_compressed_; if (LIKELY(src->IsCompressed())) { // LIKELY(compressible == src->IsCompressed()) std::transform(src->value_compressed_, src->value_compressed_ + length, out, replace); } else { std::transform(src->value_, src->value_ + length, out, replace); } DCHECK(kUseStringCompression && AllASCII(out, length)); } else { auto replace = [old_c, new_c](uint16_t c) { return (old_c != c) ? c : new_c; }; uint16_t* out = string->value_; if (UNLIKELY(src->IsCompressed())) { // LIKELY(compressible == src->IsCompressed()) std::transform(src->value_compressed_, src->value_compressed_ + length, out, replace); } else { std::transform(src->value_, src->value_ + length, out, replace); } DCHECK(!kUseStringCompression || !AllASCII(out, length)); } return string; } String* String::AllocFromStrings(Thread* self, Handle<String> string, Handle<String> string2) { int32_t length = string->GetLength(); int32_t length2 = string2->GetLength(); gc::AllocatorType allocator_type = Runtime::Current()->GetHeap()->GetCurrentAllocator(); const bool compressible = kUseStringCompression && (string->IsCompressed() && string2->IsCompressed()); const int32_t length_with_flag = String::GetFlaggedCount(length + length2, compressible); SetStringCountVisitor visitor(length_with_flag); ObjPtr<String> new_string = Alloc<true>(self, length_with_flag, allocator_type, visitor); if (UNLIKELY(new_string == nullptr)) { return nullptr; } if (compressible) { uint8_t* new_value = new_string->GetValueCompressed(); memcpy(new_value, string->GetValueCompressed(), length * sizeof(uint8_t)); memcpy(new_value + length, string2->GetValueCompressed(), length2 * sizeof(uint8_t)); } else { uint16_t* new_value = new_string->GetValue(); if (string->IsCompressed()) { for (int i = 0; i < length; ++i) { new_value[i] = string->CharAt(i); } } else { memcpy(new_value, string->GetValue(), length * sizeof(uint16_t)); } if (string2->IsCompressed()) { for (int i = 0; i < length2; ++i) { new_value[i+length] = string2->CharAt(i); } } else { memcpy(new_value + length, string2->GetValue(), length2 * sizeof(uint16_t)); } } return new_string.Ptr(); } String* String::AllocFromUtf16(Thread* self, int32_t utf16_length, const uint16_t* utf16_data_in) { CHECK(utf16_data_in != nullptr || utf16_length == 0); gc::AllocatorType allocator_type = Runtime::Current()->GetHeap()->GetCurrentAllocator(); const bool compressible = kUseStringCompression && String::AllASCII<uint16_t>(utf16_data_in, utf16_length); int32_t length_with_flag = String::GetFlaggedCount(utf16_length, compressible); SetStringCountVisitor visitor(length_with_flag); ObjPtr<String> string = Alloc<true>(self, length_with_flag, allocator_type, visitor); if (UNLIKELY(string == nullptr)) { return nullptr; } if (compressible) { for (int i = 0; i < utf16_length; ++i) { string->GetValueCompressed()[i] = static_cast<uint8_t>(utf16_data_in[i]); } } else { uint16_t* array = string->GetValue(); memcpy(array, utf16_data_in, utf16_length * sizeof(uint16_t)); } return string.Ptr(); } String* String::AllocFromModifiedUtf8(Thread* self, const char* utf) { DCHECK(utf != nullptr); size_t byte_count = strlen(utf); size_t char_count = CountModifiedUtf8Chars(utf, byte_count); return AllocFromModifiedUtf8(self, char_count, utf, byte_count); } String* String::AllocFromModifiedUtf8(Thread* self, int32_t utf16_length, const char* utf8_data_in) { return AllocFromModifiedUtf8(self, utf16_length, utf8_data_in, strlen(utf8_data_in)); } String* String::AllocFromModifiedUtf8(Thread* self, int32_t utf16_length, const char* utf8_data_in, int32_t utf8_length) { gc::AllocatorType allocator_type = Runtime::Current()->GetHeap()->GetCurrentAllocator(); const bool compressible = kUseStringCompression && (utf16_length == utf8_length); const int32_t utf16_length_with_flag = String::GetFlaggedCount(utf16_length, compressible); SetStringCountVisitor visitor(utf16_length_with_flag); ObjPtr<String> string = Alloc<true>(self, utf16_length_with_flag, allocator_type, visitor); if (UNLIKELY(string == nullptr)) { return nullptr; } if (compressible) { memcpy(string->GetValueCompressed(), utf8_data_in, utf16_length * sizeof(uint8_t)); } else { uint16_t* utf16_data_out = string->GetValue(); ConvertModifiedUtf8ToUtf16(utf16_data_out, utf16_length, utf8_data_in, utf8_length); } return string.Ptr(); } bool String::Equals(ObjPtr<String> that) { if (this == that) { // Quick reference equality test return true; } else if (that == nullptr) { // Null isn't an instanceof anything return false; } else if (this->GetLength() != that->GetLength()) { // Quick length inequality test return false; } else { // Note: don't short circuit on hash code as we're presumably here as the // hash code was already equal for (int32_t i = 0; i < that->GetLength(); ++i) { if (this->CharAt(i) != that->CharAt(i)) { return false; } } return true; } } bool String::Equals(const uint16_t* that_chars, int32_t that_offset, int32_t that_length) { if (this->GetLength() != that_length) { return false; } else { for (int32_t i = 0; i < that_length; ++i) { if (this->CharAt(i) != that_chars[that_offset + i]) { return false; } } return true; } } bool String::Equals(const char* modified_utf8) { const int32_t length = GetLength(); int32_t i = 0; while (i < length) { const uint32_t ch = GetUtf16FromUtf8(&modified_utf8); if (ch == '\0') { return false; } if (GetLeadingUtf16Char(ch) != CharAt(i++)) { return false; } const uint16_t trailing = GetTrailingUtf16Char(ch); if (trailing != 0) { if (i == length) { return false; } if (CharAt(i++) != trailing) { return false; } } } return *modified_utf8 == '\0'; } bool String::Equals(const StringPiece& modified_utf8) { const int32_t length = GetLength(); const char* p = modified_utf8.data(); for (int32_t i = 0; i < length; ++i) { uint32_t ch = GetUtf16FromUtf8(&p); if (GetLeadingUtf16Char(ch) != CharAt(i)) { return false; } const uint16_t trailing = GetTrailingUtf16Char(ch); if (trailing != 0) { if (i == (length - 1)) { return false; } if (CharAt(++i) != trailing) { return false; } } } return true; } // Create a modified UTF-8 encoded std::string from a java/lang/String object. std::string String::ToModifiedUtf8() { size_t byte_count = GetUtfLength(); std::string result(byte_count, static_cast<char>(0)); if (IsCompressed()) { for (size_t i = 0; i < byte_count; ++i) { result[i] = static_cast<char>(CharAt(i)); } } else { const uint16_t* chars = GetValue(); ConvertUtf16ToModifiedUtf8(&result[0], byte_count, chars, GetLength()); } return result; } int32_t String::CompareTo(ObjPtr<String> rhs) { // Quick test for comparison of a string with itself. ObjPtr<String> lhs = this; if (lhs == rhs) { return 0; } int32_t lhs_count = lhs->GetLength(); int32_t rhs_count = rhs->GetLength(); int32_t count_diff = lhs_count - rhs_count; int32_t min_count = (count_diff < 0) ? lhs_count : rhs_count; if (lhs->IsCompressed() && rhs->IsCompressed()) { const uint8_t* lhs_chars = lhs->GetValueCompressed(); const uint8_t* rhs_chars = rhs->GetValueCompressed(); for (int32_t i = 0; i < min_count; ++i) { int32_t char_diff = static_cast<int32_t>(lhs_chars[i]) - static_cast<int32_t>(rhs_chars[i]); if (char_diff != 0) { return char_diff; } } } else if (lhs->IsCompressed() || rhs->IsCompressed()) { const uint8_t* compressed_chars = lhs->IsCompressed() ? lhs->GetValueCompressed() : rhs->GetValueCompressed(); const uint16_t* uncompressed_chars = lhs->IsCompressed() ? rhs->GetValue() : lhs->GetValue(); for (int32_t i = 0; i < min_count; ++i) { int32_t char_diff = static_cast<int32_t>(compressed_chars[i]) - static_cast<int32_t>(uncompressed_chars[i]); if (char_diff != 0) { return lhs->IsCompressed() ? char_diff : -char_diff; } } } else { const uint16_t* lhs_chars = lhs->GetValue(); const uint16_t* rhs_chars = rhs->GetValue(); // FIXME: The MemCmp16() name is misleading. It returns the char difference on mismatch // where memcmp() only guarantees that the returned value has the same sign. int32_t char_diff = MemCmp16(lhs_chars, rhs_chars, min_count); if (char_diff != 0) { return char_diff; } } return count_diff; } void String::VisitRoots(RootVisitor* visitor) { java_lang_String_.VisitRootIfNonNull(visitor, RootInfo(kRootStickyClass)); } CharArray* String::ToCharArray(Thread* self) { StackHandleScope<1> hs(self); Handle<String> string(hs.NewHandle(this)); ObjPtr<CharArray> result = CharArray::Alloc(self, GetLength()); if (result != nullptr) { if (string->IsCompressed()) { int32_t length = string->GetLength(); for (int i = 0; i < length; ++i) { result->GetData()[i] = string->CharAt(i); } } else { memcpy(result->GetData(), string->GetValue(), string->GetLength() * sizeof(uint16_t)); } } else { self->AssertPendingOOMException(); } return result.Ptr(); } void String::GetChars(int32_t start, int32_t end, Handle<CharArray> array, int32_t index) { uint16_t* data = array->GetData() + index; if (IsCompressed()) { for (int i = start; i < end; ++i) { data[i-start] = CharAt(i); } } else { uint16_t* value = GetValue() + start; memcpy(data, value, (end - start) * sizeof(uint16_t)); } } bool String::IsValueNull() { return (IsCompressed()) ? (GetValueCompressed() == nullptr) : (GetValue() == nullptr); } std::string String::PrettyStringDescriptor(ObjPtr<mirror::String> java_descriptor) { if (java_descriptor == nullptr) { return "null"; } return java_descriptor->PrettyStringDescriptor(); } std::string String::PrettyStringDescriptor() { return PrettyDescriptor(ToModifiedUtf8().c_str()); } } // namespace mirror } // namespace art