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/* Distributed under the OSI-approved BSD 3-Clause License. See accompanying
file Copyright.txt or https://cmake.org/licensing for details. */
// NOLINTNEXTLINE(bugprone-reserved-identifier)
#define _SCL_SECURE_NO_WARNINGS
#include "cmString.hxx"
#include <memory>
#include <ostream>
#include <stdexcept>
#include <string>
#include <type_traits>
namespace cm {
static std::string const empty_string_;
void String::internally_mutate_to_stable_string()
{
// We assume that only one thread mutates this instance at
// a time even if we point to a shared string buffer referenced
// by other threads.
*this = String(this->data(), this->size());
}
bool String::is_stable() const
{
return this->str_if_stable() != nullptr;
}
void String::stabilize()
{
if (this->is_stable()) {
return;
}
this->internally_mutate_to_stable_string();
}
std::string const* String::str_if_stable() const
{
if (!this->data()) {
// We view no string.
// This is stable for the lifetime of our current value.
return &empty_string_;
}
if (this->string_ && this->data() == this->string_->data() &&
this->size() == this->string_->size()) {
// We view an entire string.
// This is stable for the lifetime of our current value.
return this->string_.get();
}
return nullptr;
}
std::string const& String::str()
{
if (std::string const* s = this->str_if_stable()) {
return *s;
}
// Mutate to hold a std::string that is stable for the lifetime
// of our current value.
this->internally_mutate_to_stable_string();
return *this->string_;
}
const char* String::c_str()
{
const char* c = this->data();
if (c == nullptr) {
return c;
}
// We always point into a null-terminated string so it is safe to
// access one past the end. If it is a null byte then we can use
// the pointer directly.
if (c[this->size()] == '\0') {
return c;
}
// Mutate to hold a std::string so we can get a null terminator.
this->internally_mutate_to_stable_string();
c = this->string_->c_str();
return c;
}
String& String::insert(size_type index, size_type count, char ch)
{
std::string s;
s.reserve(this->size() + count);
s.assign(this->data(), this->size());
s.insert(index, count, ch);
return *this = std::move(s);
}
String& String::erase(size_type index, size_type count)
{
if (index > this->size()) {
throw std::out_of_range("Index out of range in String::erase");
}
size_type const rcount = std::min(count, this->size() - index);
size_type const rindex = index + rcount;
std::string s;
s.reserve(this->size() - rcount);
s.assign(this->data(), index);
s.append(this->data() + rindex, this->size() - rindex);
return *this = std::move(s);
}
String String::substr(size_type pos, size_type count) const
{
if (pos > this->size()) {
throw std::out_of_range("Index out of range in String::substr");
}
return String(*this, pos, count);
}
String::String(std::string&& s, Private)
: string_(std::make_shared<std::string>(std::move(s)))
, view_(this->string_->data(), this->string_->size())
{
}
String::size_type String::copy(char* dest, size_type count,
size_type pos) const
{
return this->view_.copy(dest, count, pos);
}
std::ostream& operator<<(std::ostream& os, String const& s)
{
return os.write(s.data(), s.size());
}
std::string& operator+=(std::string& self, String const& s)
{
return self += s.view();
}
String IntoString<char*>::into_string(const char* s)
{
if (!s) {
return String();
}
return std::string(s);
}
string_view AsStringView<String>::view(String const& s)
{
return s.view();
}
} // namespace cm
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