forked from OSchip/llvm-project
313 lines
10 KiB
C++
313 lines
10 KiB
C++
//===-- ConstString.cpp -----------------------------------------*- C++ -*-===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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#include "lldb/Utility/ConstString.h"
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#include "lldb/Utility/Stream.h"
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#include "llvm/ADT/StringMap.h"
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#include "llvm/ADT/iterator.h"
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#include "llvm/Support/Allocator.h"
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#include "llvm/Support/DJB.h"
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#include "llvm/Support/FormatProviders.h"
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#include "llvm/Support/RWMutex.h"
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#include "llvm/Support/Threading.h"
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#include <algorithm>
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#include <array>
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#include <utility>
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#include <inttypes.h>
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#include <stdint.h>
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#include <string.h>
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using namespace lldb_private;
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class Pool {
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public:
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typedef const char *StringPoolValueType;
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typedef llvm::StringMap<StringPoolValueType, llvm::BumpPtrAllocator>
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StringPool;
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typedef llvm::StringMapEntry<StringPoolValueType> StringPoolEntryType;
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static StringPoolEntryType &
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GetStringMapEntryFromKeyData(const char *keyData) {
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return StringPoolEntryType::GetStringMapEntryFromKeyData(keyData);
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}
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static size_t GetConstCStringLength(const char *ccstr) {
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if (ccstr != nullptr) {
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// Since the entry is read only, and we derive the entry entirely from
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// the pointer, we don't need the lock.
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const StringPoolEntryType &entry = GetStringMapEntryFromKeyData(ccstr);
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return entry.getKey().size();
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}
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return 0;
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}
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StringPoolValueType GetMangledCounterpart(const char *ccstr) const {
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if (ccstr != nullptr) {
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const uint8_t h = hash(llvm::StringRef(ccstr));
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llvm::sys::SmartScopedReader<false> rlock(m_string_pools[h].m_mutex);
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return GetStringMapEntryFromKeyData(ccstr).getValue();
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}
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return nullptr;
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}
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const char *GetConstCString(const char *cstr) {
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if (cstr != nullptr)
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return GetConstCStringWithLength(cstr, strlen(cstr));
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return nullptr;
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}
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const char *GetConstCStringWithLength(const char *cstr, size_t cstr_len) {
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if (cstr != nullptr)
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return GetConstCStringWithStringRef(llvm::StringRef(cstr, cstr_len));
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return nullptr;
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}
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const char *GetConstCStringWithStringRef(const llvm::StringRef &string_ref) {
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if (string_ref.data()) {
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const uint8_t h = hash(string_ref);
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{
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llvm::sys::SmartScopedReader<false> rlock(m_string_pools[h].m_mutex);
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auto it = m_string_pools[h].m_string_map.find(string_ref);
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if (it != m_string_pools[h].m_string_map.end())
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return it->getKeyData();
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}
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llvm::sys::SmartScopedWriter<false> wlock(m_string_pools[h].m_mutex);
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StringPoolEntryType &entry =
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*m_string_pools[h]
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.m_string_map.insert(std::make_pair(string_ref, nullptr))
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.first;
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return entry.getKeyData();
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}
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return nullptr;
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}
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const char *
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GetConstCStringAndSetMangledCounterPart(llvm::StringRef demangled,
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const char *mangled_ccstr) {
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const char *demangled_ccstr = nullptr;
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{
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const uint8_t h = hash(demangled);
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llvm::sys::SmartScopedWriter<false> wlock(m_string_pools[h].m_mutex);
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// Make or update string pool entry with the mangled counterpart
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StringPool &map = m_string_pools[h].m_string_map;
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StringPoolEntryType &entry = *map.try_emplace(demangled).first;
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entry.second = mangled_ccstr;
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// Extract the const version of the demangled_cstr
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demangled_ccstr = entry.getKeyData();
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}
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{
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// Now assign the demangled const string as the counterpart of the
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// mangled const string...
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const uint8_t h = hash(llvm::StringRef(mangled_ccstr));
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llvm::sys::SmartScopedWriter<false> wlock(m_string_pools[h].m_mutex);
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GetStringMapEntryFromKeyData(mangled_ccstr).setValue(demangled_ccstr);
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}
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// Return the constant demangled C string
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return demangled_ccstr;
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}
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const char *GetConstTrimmedCStringWithLength(const char *cstr,
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size_t cstr_len) {
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if (cstr != nullptr) {
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const size_t trimmed_len = strnlen(cstr, cstr_len);
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return GetConstCStringWithLength(cstr, trimmed_len);
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}
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return nullptr;
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}
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// Return the size in bytes that this object and any items in its collection
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// of uniqued strings + data count values takes in memory.
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size_t MemorySize() const {
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size_t mem_size = sizeof(Pool);
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for (const auto &pool : m_string_pools) {
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llvm::sys::SmartScopedReader<false> rlock(pool.m_mutex);
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for (const auto &entry : pool.m_string_map)
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mem_size += sizeof(StringPoolEntryType) + entry.getKey().size();
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}
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return mem_size;
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}
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protected:
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uint8_t hash(const llvm::StringRef &s) const {
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uint32_t h = llvm::djbHash(s);
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return ((h >> 24) ^ (h >> 16) ^ (h >> 8) ^ h) & 0xff;
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}
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struct PoolEntry {
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mutable llvm::sys::SmartRWMutex<false> m_mutex;
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StringPool m_string_map;
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};
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std::array<PoolEntry, 256> m_string_pools;
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};
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// Frameworks and dylibs aren't supposed to have global C++ initializers so we
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// hide the string pool in a static function so that it will get initialized on
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// the first call to this static function.
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//
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// Note, for now we make the string pool a pointer to the pool, because we
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// can't guarantee that some objects won't get destroyed after the global
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// destructor chain is run, and trying to make sure no destructors touch
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// ConstStrings is difficult. So we leak the pool instead.
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static Pool &StringPool() {
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static llvm::once_flag g_pool_initialization_flag;
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static Pool *g_string_pool = nullptr;
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llvm::call_once(g_pool_initialization_flag,
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[]() { g_string_pool = new Pool(); });
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return *g_string_pool;
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}
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ConstString::ConstString(const char *cstr)
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: m_string(StringPool().GetConstCString(cstr)) {}
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ConstString::ConstString(const char *cstr, size_t cstr_len)
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: m_string(StringPool().GetConstCStringWithLength(cstr, cstr_len)) {}
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ConstString::ConstString(const llvm::StringRef &s)
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: m_string(StringPool().GetConstCStringWithStringRef(s)) {}
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bool ConstString::operator<(ConstString rhs) const {
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if (m_string == rhs.m_string)
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return false;
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llvm::StringRef lhs_string_ref(GetStringRef());
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llvm::StringRef rhs_string_ref(rhs.GetStringRef());
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// If both have valid C strings, then return the comparison
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if (lhs_string_ref.data() && rhs_string_ref.data())
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return lhs_string_ref < rhs_string_ref;
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// Else one of them was nullptr, so if LHS is nullptr then it is less than
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return lhs_string_ref.data() == nullptr;
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}
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Stream &lldb_private::operator<<(Stream &s, ConstString str) {
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const char *cstr = str.GetCString();
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if (cstr != nullptr)
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s << cstr;
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return s;
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}
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size_t ConstString::GetLength() const {
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return Pool::GetConstCStringLength(m_string);
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}
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bool ConstString::Equals(ConstString lhs, ConstString rhs,
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const bool case_sensitive) {
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if (lhs.m_string == rhs.m_string)
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return true;
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// Since the pointers weren't equal, and identical ConstStrings always have
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// identical pointers, the result must be false for case sensitive equality
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// test.
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if (case_sensitive)
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return false;
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// perform case insensitive equality test
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llvm::StringRef lhs_string_ref(lhs.GetStringRef());
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llvm::StringRef rhs_string_ref(rhs.GetStringRef());
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return lhs_string_ref.equals_lower(rhs_string_ref);
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}
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int ConstString::Compare(ConstString lhs, ConstString rhs,
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const bool case_sensitive) {
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// If the iterators are the same, this is the same string
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const char *lhs_cstr = lhs.m_string;
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const char *rhs_cstr = rhs.m_string;
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if (lhs_cstr == rhs_cstr)
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return 0;
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if (lhs_cstr && rhs_cstr) {
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llvm::StringRef lhs_string_ref(lhs.GetStringRef());
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llvm::StringRef rhs_string_ref(rhs.GetStringRef());
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if (case_sensitive) {
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return lhs_string_ref.compare(rhs_string_ref);
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} else {
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return lhs_string_ref.compare_lower(rhs_string_ref);
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}
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}
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if (lhs_cstr)
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return +1; // LHS isn't nullptr but RHS is
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else
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return -1; // LHS is nullptr but RHS isn't
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}
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void ConstString::Dump(Stream *s, const char *fail_value) const {
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if (s != nullptr) {
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const char *cstr = AsCString(fail_value);
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if (cstr != nullptr)
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s->PutCString(cstr);
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}
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}
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void ConstString::DumpDebug(Stream *s) const {
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const char *cstr = GetCString();
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size_t cstr_len = GetLength();
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// Only print the parens if we have a non-nullptr string
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const char *parens = cstr ? "\"" : "";
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s->Printf("%*p: ConstString, string = %s%s%s, length = %" PRIu64,
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static_cast<int>(sizeof(void *) * 2),
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static_cast<const void *>(this), parens, cstr, parens,
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static_cast<uint64_t>(cstr_len));
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}
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void ConstString::SetCString(const char *cstr) {
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m_string = StringPool().GetConstCString(cstr);
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}
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void ConstString::SetString(const llvm::StringRef &s) {
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m_string = StringPool().GetConstCStringWithLength(s.data(), s.size());
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}
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void ConstString::SetStringWithMangledCounterpart(llvm::StringRef demangled,
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ConstString mangled) {
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m_string = StringPool().GetConstCStringAndSetMangledCounterPart(
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demangled, mangled.m_string);
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}
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bool ConstString::GetMangledCounterpart(ConstString &counterpart) const {
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counterpart.m_string = StringPool().GetMangledCounterpart(m_string);
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return (bool)counterpart;
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}
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void ConstString::SetCStringWithLength(const char *cstr, size_t cstr_len) {
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m_string = StringPool().GetConstCStringWithLength(cstr, cstr_len);
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}
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void ConstString::SetTrimmedCStringWithLength(const char *cstr,
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size_t cstr_len) {
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m_string = StringPool().GetConstTrimmedCStringWithLength(cstr, cstr_len);
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}
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size_t ConstString::StaticMemorySize() {
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// Get the size of the static string pool
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return StringPool().MemorySize();
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}
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void llvm::format_provider<ConstString>::format(const ConstString &CS,
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llvm::raw_ostream &OS,
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llvm::StringRef Options) {
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format_provider<StringRef>::format(CS.AsCString(), OS, Options);
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}
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