osb/source/core/StarString.cpp

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#include "StarString.hpp"
#include "StarStringView.hpp"
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#include "StarBytes.hpp"
#include "StarFormat.hpp"
#include <cctype>
#include <regex>
namespace Star {
bool String::isSpace(Char c) {
return
c == 0x20 || // space
c == 0x09 || // horizontal tab
c == 0x0a || // newline
c == 0x0d || // carriage return
c == 0xfeff; // BOM or ZWNBSP
}
bool String::isAsciiNumber(Char c) {
return c >= '0' && c <= '9';
}
bool String::isAsciiLetter(Char c) {
return (c >= 'a' && c <= 'z') || (c >= 'A' && c <= 'Z');
}
String::Char String::toLower(Char c) {
if (c >= 'A' && c <= 'Z')
return c + 32;
else
return c;
}
String::Char String::toUpper(Char c) {
if (c >= 'a' && c <= 'z')
return c - 32;
else
return c;
}
bool String::charEqual(Char c1, Char c2, CaseSensitivity cs) {
if (cs == CaseInsensitive)
return toLower(c1) == toLower(c2);
else
return c1 == c2;
}
String String::joinWith(String const& join, String const& left, String const& right) {
if (left.empty())
return right;
if (right.empty())
return left;
if (left.endsWith(join)) {
if (right.beginsWith(join)) {
return left + right.substr(join.size());
}
return left + right;
} else {
if (right.beginsWith(join)) {
return left + right;
}
return left + join + right;
}
}
String::String() {}
String::String(String const& s) : m_string(s.m_string) {}
String::String(String&& s) : m_string(std::move(s.m_string)) {}
String::String(char const* s) : m_string(s) {}
String::String(char const* s, size_t n) : m_string(s, n) {}
String::String(std::string const& s) : m_string(s) {}
String::String(std::string&& s) : m_string(std::move(s)) {}
String::String(std::wstring const& s) {
reserve(s.length());
for (Char c : s)
append(c);
}
String::String(Char const* s) {
while (*s) {
append(*s);
++s;
}
}
String::String(Char const* s, size_t n) {
reserve(n);
for (size_t idx = 0; idx < n; ++idx) {
append(*s);
++s;
}
}
String::String(Char c, size_t n) {
reserve(n);
for (size_t i = 0; i < n; ++i)
append(c);
}
String::String(Char c) {
append(c);
}
std::string const& String::utf8() const {
return m_string;
}
std::string String::takeUtf8() {
return take(m_string);
}
ByteArray String::utf8Bytes() const {
return ByteArray(m_string.c_str(), m_string.size());
}
char const* String::utf8Ptr() const {
return m_string.c_str();
}
size_t String::utf8Size() const {
return m_string.size();
}
std::wstring String::wstring() const {
std::wstring string;
for (Char c : *this)
string.push_back(c);
return string;
}
String::WideString String::wideString() const {
WideString string;
string.reserve(m_string.size());
for (Char c : *this)
string.push_back(c);
return string;
}
String::const_iterator String::begin() const {
return const_iterator(m_string.begin());
}
String::const_iterator String::end() const {
return const_iterator(m_string.end());
}
size_t String::size() const {
return utf8Length(m_string.c_str(), m_string.size());
}
size_t String::length() const {
return size();
}
void String::clear() {
m_string.clear();
}
void String::reserve(size_t n) {
m_string.reserve(n);
}
bool String::empty() const {
return m_string.empty();
}
String::Char String::operator[](size_t index) const {
auto it = begin();
for (size_t i = 0; i < index; ++i)
++it;
return *it;
}
size_t CaseInsensitiveStringHash::operator()(String const& s) const {
PLHasher hash;
for (auto c : s)
hash.put(String::toLower(c));
return hash.hash();
}
bool CaseInsensitiveStringCompare::operator()(String const& lhs, String const& rhs) const {
return lhs.equalsIgnoreCase(rhs);
}
String::Char String::at(size_t i) const {
if (i > size())
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throw OutOfRangeException(strf("Out of range in String::at({})", i));
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return operator[](i);
}
String String::toUpper() const {
String s;
s.reserve(m_string.length());
for (Char c : *this)
s.append(toUpper(c));
return s;
}
String String::toLower() const {
String s;
s.reserve(m_string.length());
for (Char c : *this)
s.append(toLower(c));
return s;
}
String String::titleCase() const {
String s;
s.reserve(m_string.length());
bool capNext = true;
for (Char c : *this) {
if (capNext)
s.append(toUpper(c));
else
s.append(toLower(c));
capNext = !std::isalpha(c);
}
return s;
}
bool String::endsWith(String const& end, CaseSensitivity cs) const {
auto endsize = end.size();
if (endsize == 0)
return true;
auto mysize = size();
if (endsize > mysize)
return false;
return compare(mysize - endsize, NPos, end, 0, NPos, cs) == 0;
}
bool String::endsWith(Char end, CaseSensitivity cs) const {
if (size() == 0)
return false;
return charEqual(end, operator[](size() - 1), cs);
}
bool String::beginsWith(String const& beg, CaseSensitivity cs) const {
auto begSize = beg.size();
if (begSize == 0)
return true;
auto mysize = size();
if (begSize > mysize)
return false;
return compare(0, begSize, beg, 0, NPos, cs) == 0;
}
bool String::beginsWith(Char beg, CaseSensitivity cs) const {
if (size() == 0)
return false;
return charEqual(beg, operator[](0), cs);
}
String String::reverse() const {
String ret;
ret.reserve(m_string.length());
auto i = end();
while (i != begin()) {
--i;
ret.append(*i);
}
return ret;
}
String String::rot13() const {
String ret;
ret.reserve(m_string.length());
for (auto c : *this) {
if ((c >= 'a' && c <= 'm') || (c >= 'A' && c <= 'M'))
c += 13;
else if ((c >= 'n' && c <= 'z') || (c >= 'N' && c <= 'Z'))
c -= 13;
ret.append(c);
}
return ret;
}
StringList String::split(Char c, size_t maxSplit) const {
return split(String(c), maxSplit);
}
StringList String::split(String const& pattern, size_t maxSplit) const {
StringList ret;
if (pattern.empty())
return StringList(1, *this);
size_t beg = 0;
while (true) {
if (ret.size() == maxSplit) {
ret.append(m_string.substr(beg));
break;
}
size_t end = m_string.find(pattern.m_string, beg);
if (end == NPos) {
ret.append(m_string.substr(beg));
break;
}
ret.append(m_string.substr(beg, end - beg));
beg = end + pattern.m_string.size();
}
starAssert(maxSplit == NPos || ret.size() <= maxSplit + 1);
return ret;
}
StringList String::rsplit(Char c, size_t maxSplit) const {
return rsplitAny(String(c), maxSplit);
}
StringList String::rsplit(String const& pattern, size_t maxSplit) const {
// This is really inefficient!
String v = reverse();
String p = pattern.reverse();
StringList l = v.split(p, maxSplit);
for (auto& s : l)
s = s.reverse();
Star::reverse(l);
return l;
}
StringList String::splitAny(String const& chars, size_t maxSplit) const {
StringList ret;
String next;
bool doneSplitting = false;
for (auto c : *this) {
if (!doneSplitting && chars.hasCharOrWhitespace(c)) {
if (!next.empty())
ret.append(take(next));
} else {
if (ret.size() == maxSplit)
doneSplitting = true;
next.append(c);
}
}
if (!next.empty())
ret.append(std::move(next));
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return ret;
}
StringList String::rsplitAny(String const& chars, size_t maxSplit) const {
// This is really inefficient!
String v = reverse();
StringList l = v.splitAny(chars, maxSplit);
for (auto& s : l)
s = s.reverse();
Star::reverse(l);
return l;
}
StringList String::splitLines(size_t maxSplit) const {
return splitAny("\r\n", maxSplit);
}
StringList String::splitWhitespace(size_t maxSplit) const {
return splitAny("", maxSplit);
}
String String::extract(String const& chars) {
StringList l = splitAny(chars, 1);
if (l.size() == 0) {
return String();
} else if (l.size() == 1) {
clear();
return l.at(0);
} else {
*this = l.at(1);
return l.at(0);
}
}
String String::rextract(String const& chars) {
if (empty())
return String();
StringList l = rsplitAny(chars, 1);
if (l.size() == 1) {
clear();
return l.at(0);
} else {
*this = l.at(0);
return l.at(1);
}
}
bool String::hasChar(Char c) const {
for (Char ch : *this)
if (ch == c)
return true;
return false;
}
bool String::hasCharOrWhitespace(Char c) const {
if (empty())
return isSpace(c);
else
return hasChar(c);
}
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String String::replace(String const& rplc, String const& val, CaseSensitivity cs) const {
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size_t index;
size_t sz = size();
size_t rsz = rplc.size();
String ret;
ret.reserve(m_string.length());
if (rplc.empty())
return *this;
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index = find(rplc, 0, cs);
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if (index == NPos)
return *this;
auto it = begin();
for (size_t i = 0; i < index; ++i)
ret.append(*it++);
while (index < sz) {
ret.append(val);
index += rsz;
for (size_t i = 0; i < rsz; ++i)
++it;
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size_t nindex = find(rplc, index, cs);
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for (size_t i = index; i < nindex && i < sz; ++i)
ret.append(*it++);
index = nindex;
}
return ret;
}
String String::trimEnd(String const& pattern) const {
size_t end;
for (end = size(); end > 0; --end) {
Char ec = (*this)[end - 1];
if (!pattern.hasCharOrWhitespace(ec))
break;
}
return substr(0, end);
}
String String::trimBeg(String const& pattern) const {
size_t beg;
for (beg = 0; beg < size(); ++beg) {
Char bc = (*this)[beg];
if (!pattern.hasCharOrWhitespace(bc))
break;
}
return substr(beg);
}
String String::trim(String const& pattern) const {
return trimEnd(pattern).trimBeg(pattern);
}
size_t String::find(Char c, size_t pos, CaseSensitivity cs) const {
auto it = begin();
for (size_t i = 0; i < pos; ++i) {
if (it == end())
break;
++it;
}
while (it != end()) {
if (charEqual(c, *it, cs))
return pos;
++pos;
++it;
}
return NPos;
}
size_t String::find(String const& str, size_t pos, CaseSensitivity cs) const {
if (str.empty())
return 0;
auto it = begin();
for (size_t i = 0; i < pos; ++i) {
if (it == end())
break;
++it;
}
const_iterator sit = str.begin();
const_iterator mit = it;
while (it != end()) {
if (charEqual(*sit, *mit, cs)) {
do {
++mit;
++sit;
if (sit == str.end())
return pos;
else if (mit == end())
break;
} while (charEqual(*sit, *mit, cs));
sit = str.begin();
}
++pos;
mit = ++it;
}
return NPos;
}
size_t String::findLast(Char c, CaseSensitivity cs) const {
auto it = begin();
size_t found = NPos;
size_t pos = 0;
while (it != end()) {
if (charEqual(c, *it, cs))
found = pos;
++pos;
++it;
}
return found;
}
size_t String::findLast(String const& str, CaseSensitivity cs) const {
if (str.empty())
return 0;
size_t pos = 0;
auto it = begin();
size_t result = NPos;
const_iterator sit = str.begin();
const_iterator mit = it;
while (it != end()) {
if (charEqual(*sit, *mit, cs)) {
do {
++mit;
++sit;
if (sit == str.end()) {
result = pos;
break;
}
if (mit == end())
break;
} while (charEqual(*sit, *mit, cs));
sit = str.begin();
}
++pos;
mit = ++it;
}
return result;
}
size_t String::findFirstOf(String const& pattern, size_t beg) const {
auto it = begin();
size_t i;
for (i = 0; i < beg; ++i)
++it;
while (it != end()) {
if (pattern.hasCharOrWhitespace(*it))
return i;
++it;
++i;
}
return NPos;
}
size_t String::findFirstNotOf(String const& pattern, size_t beg) const {
auto it = begin();
size_t i;
for (i = 0; i < beg; ++i)
++it;
while (it != end()) {
if (!pattern.hasCharOrWhitespace(*it))
return i;
++it;
++i;
}
return NPos;
}
size_t String::findNextBoundary(size_t index, bool backwards) const {
starAssert(index <= size());
if (!backwards && (index == size()))
return index;
if (backwards) {
if (index == 0)
return 0;
index--;
}
Char c = this->at(index);
while (!isSpace(c)) {
if (backwards && (index == 0))
return 0;
index += backwards ? -1 : 1;
if (index == size())
return size();
c = this->at(index);
}
while (isSpace(c)) {
if (backwards && (index == 0))
return 0;
index += backwards ? -1 : 1;
if (index == size())
return size();
c = this->at(index);
}
if (backwards && !(index == size()))
return index + 1;
return index;
}
String String::slice(SliceIndex a, SliceIndex b, int i) const {
auto wide = wideString();
wide = Star::slice(wide, a, b, i);
return String(wide.c_str());
}
void String::append(String const& string) {
m_string.append(string.m_string);
}
void String::append(std::string const& s) {
m_string.append(s);
}
void String::append(Char const* s) {
while (s)
append(*s++);
}
void String::append(Char const* s, size_t n) {
for (size_t i = 0; i < n; ++i)
append(s[i]);
}
void String::append(char const* s) {
m_string.append(s);
}
void String::append(char const* s, size_t n) {
m_string.append(s, n);
}
void String::append(Char c) {
char conv[6];
size_t size = utf8EncodeChar(conv, c, 6);
append(conv, size);
}
void String::prepend(String const& s) {
auto ns = s;
ns.append(*this);
*this = std::move(ns);
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}
void String::prepend(std::string const& s) {
auto ns = String(s);
ns.append(*this);
*this = std::move(ns);
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}
void String::prepend(Char const* s) {
auto ns = String(s);
ns.append(*this);
*this = std::move(ns);
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}
void String::prepend(Char const* s, size_t n) {
auto ns = String(s, n);
ns.append(*this);
*this = std::move(ns);
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}
void String::prepend(char const* s) {
auto ns = String(s);
ns.append(*this);
*this = std::move(ns);
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}
void String::prepend(char const* s, size_t n) {
auto ns = String(s, n);
ns.append(*this);
*this = std::move(ns);
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}
void String::prepend(Char c) {
auto ns = String(c, 1);
ns.append(*this);
*this = std::move(ns);
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}
void String::push_back(Char c) {
append(c);
}
void String::push_front(Char c) {
prepend(c);
}
bool String::contains(String const& s, CaseSensitivity cs) const {
return find(s, 0, cs) != NPos;
}
bool String::regexMatch(String const& regex, bool full, bool caseSensitive) const {
if (full) {
if (caseSensitive)
return std::regex_match(utf8(), std::regex(regex.utf8()));
else
return std::regex_match(utf8(), std::regex(regex.utf8(), std::regex::icase));
} else {
if (caseSensitive)
return std::regex_search(utf8(), std::regex(regex.utf8()));
else
return std::regex_search(utf8(), std::regex(regex.utf8(), std::regex::icase));
}
}
int String::compare(String const& s, CaseSensitivity cs) const {
if (cs == CaseSensitive)
return m_string.compare(s.m_string);
else
return compare(0, NPos, s, 0, NPos, cs);
}
bool String::equals(String const& s, CaseSensitivity cs) const {
return compare(s, cs) == 0;
}
bool String::equalsIgnoreCase(String const& s) const {
return compare(s, CaseInsensitive) == 0;
}
String String::substr(size_t position, size_t n) const {
auto len = size();
if (position > len)
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throw OutOfRangeException(strf("out of range in String::substr({}, {})", position, n));
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if (position == 0 && n >= len)
return *this;
String ret;
ret.reserve(std::min(n, len - position));
auto it = begin();
std::advance(it, position);
for (size_t i = 0; i < n; ++i) {
if (it == end())
break;
ret.append(*it);
++it;
}
return ret;
}
void String::erase(size_t pos, size_t n) {
String ns;
ns.reserve(m_string.size() - std::min(n, m_string.size()));
auto it = begin();
for (size_t i = 0; i < pos; ++i)
ns.append(*it++);
for (size_t i = 0; i < n; ++i) {
if (it == end())
break;
++it;
}
while (it != end())
ns.append(*it++);
*this = ns;
}
String String::padLeft(size_t size, String const& filler) const {
if (!filler.length())
return *this;
String rs;
while (rs.length() + length() < size) {
rs.append(filler);
}
if (rs.length())
return rs + *this;
return *this;
}
String String::padRight(size_t size, String const& filler) const {
if (!filler.length())
return *this;
String rs = *this;
while (rs.length() < size) {
rs.append(filler);
}
return rs;
}
String& String::operator=(String const& s) {
m_string = s.m_string;
return *this;
}
String& String::operator=(String&& s) {
m_string = std::move(s.m_string);
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return *this;
}
String& String::operator+=(String const& s) {
append(s);
return *this;
}
String& String::operator+=(std::string const& s) {
append(s);
return *this;
}
String& String::operator+=(Char const* s) {
append(s);
return *this;
}
String& String::operator+=(char const* s) {
append(s);
return *this;
}
String& String::operator+=(Char c) {
append(c);
return *this;
}
bool operator==(String const& s1, String const& s2) {
return s1.m_string == s2.m_string;
}
bool operator==(String const& s1, std::string const& s2) {
return s1.m_string == s2;
}
bool operator==(String const& s1, String::Char const* s2) {
return s1 == String(s2);
}
bool operator==(String const& s1, char const* s2) {
return s1.m_string == s2;
}
bool operator==(std::string const& s1, String const& s2) {
return s1 == s2.m_string;
}
bool operator==(String::Char const* s1, String const& s2) {
return String(s1) == s2;
}
bool operator==(char const* s1, String const& s2) {
return s1 == s2.m_string;
}
bool operator!=(String const& s1, String const& s2) {
return s1.m_string != s2.m_string;
}
bool operator!=(String const& s1, std::string const& s2) {
return s1.m_string != s2;
}
bool operator!=(String const& s1, String::Char const* s2) {
return s1 != String(s2);
}
bool operator!=(String const& s1, char const* s2) {
return s1.m_string != s2;
}
bool operator!=(std::string const& s1, String const& s2) {
return s1 != s2.m_string;
}
bool operator!=(String::Char const* s1, String const& s2) {
return String(s1) != s2;
}
bool operator!=(char const* s1, String const& s2) {
return s1 != s2.m_string;
}
bool operator<(String const& s1, String const& s2) {
return s1.m_string < s2.m_string;
}
bool operator<(String const& s1, std::string const& s2) {
return s1.m_string < s2;
}
bool operator<(String const& s1, String::Char const* s2) {
return s1 < String(s2);
}
bool operator<(String const& s1, char const* s2) {
return s1.m_string < s2;
}
bool operator<(std::string const& s1, String const& s2) {
return s1 < s2.m_string;
}
bool operator<(String::Char const* s1, String const& s2) {
return String(s1) < s2;
}
bool operator<(char const* s1, String const& s2) {
return s1 < s2.m_string;
}
String operator+(String s1, String const& s2) {
s1.append(s2);
return s1;
}
String operator+(String s1, std::string const& s2) {
s1.append(s2);
return s1;
}
String operator+(String s1, String::Char const* s2) {
s1.append(s2);
return s1;
}
String operator+(String s1, char const* s2) {
s1.append(s2);
return s1;
}
String operator+(std::string const& s1, String const& s2) {
return s1 + s2.m_string;
}
String operator+(String::Char const* s1, String const& s2) {
return String(s1) + s2;
}
String operator+(char const* s1, String const& s2) {
return s1 + s2.m_string;
}
String operator+(String s, String::Char c) {
s.append(c);
return s;
}
String operator+(String::Char c, String const& s) {
String res(c);
res.append(s);
return res;
}
String operator*(String const& s, unsigned times) {
String res;
for (unsigned i = 0; i < times; ++i)
res.append(s);
return res;
}
String operator*(unsigned times, String const& s) {
return s * times;
}
std::ostream& operator<<(std::ostream& os, String const& s) {
os << s.utf8();
return os;
}
std::istream& operator>>(std::istream& is, String& s) {
std::string temp;
is >> temp;
s = String(std::move(temp));
return is;
}
int String::compare(size_t selfOffset, size_t selfLen, String const& other,
size_t otherOffset, size_t otherLen, CaseSensitivity cs) const {
auto selfIt = begin();
auto otherIt = other.begin();
while (selfOffset > 0 && selfIt != end()) {
++selfIt;
--selfOffset;
}
while (otherOffset > 0 && otherIt != other.end()) {
++otherIt;
--otherLen;
}
while (true) {
if ((selfIt == end() || selfLen == 0) && (otherIt == other.end() || otherLen == 0))
return 0;
else if (selfIt == end() || selfLen == 0)
return -1;
else if (otherIt == other.end() || otherLen == 0)
return 1;
auto c1 = *selfIt;
auto c2 = *otherIt;
if (cs == CaseInsensitive) {
c1 = toLower(c1);
c2 = toLower(c2);
}
if (c1 < c2)
return -1;
else if (c2 < c1)
return 1;
++selfIt;
++otherIt;
--selfLen;
--otherLen;
}
}
StringList::StringList() : Base() {}
StringList::StringList(Base const& l) : Base(l) {}
StringList::StringList(Base&& l) : Base(std::move(l)) {}
StringList::StringList(StringList const& l) : Base(l) {}
StringList::StringList(StringList&& l) : Base(std::move(l)) {}
StringList::StringList(size_t n, String::Char const* const* list) {
for (size_t i = 0; i < n; ++i)
append(String(list[i]));
}
StringList::StringList(size_t n, char const* const* list) {
for (size_t i = 0; i < n; ++i)
append(String(list[i]));
}
StringList::StringList(size_t len, String const& s1) : Base(len, s1) {}
StringList::StringList(std::initializer_list<String> list) : Base(list) {}
StringList& StringList::operator=(Base const& rhs) {
Base::operator=(rhs);
return *this;
}
StringList& StringList::operator=(Base&& rhs) {
Base::operator=(std::move(rhs));
return *this;
}
StringList& StringList::operator=(StringList const& rhs) {
Base::operator=(rhs);
return *this;
}
StringList& StringList::operator=(StringList&& rhs) {
Base::operator=(std::move(rhs));
return *this;
}
StringList& StringList::operator=(initializer_list<String> list) {
Base::operator=(std::move(list));
return *this;
}
bool StringList::contains(String const& s, String::CaseSensitivity cs) const {
for (const_iterator i = begin(); i != end(); ++i) {
if (s.compare(*i, cs) == 0)
return true;
}
return false;
}
StringList StringList::trimAll(String const& pattern) const {
StringList r;
for (auto const& s : *this)
r.append(s.trim(pattern));
return r;
}
String StringList::join(String const& separator) const {
String joinedString;
for (const_iterator i = begin(); i != end(); ++i) {
if (i != begin())
joinedString += separator;
joinedString += *i;
}
return joinedString;
}
StringList StringList::slice(SliceIndex a, SliceIndex b, int i) const {
return Star::slice(*this, a, b, i);
}
StringList StringList::sorted() const {
StringList l = *this;
l.sort();
return l;
}
std::ostream& operator<<(std::ostream& os, const StringList& list) {
os << "(";
for (auto i = list.begin(); i != list.end(); ++i) {
if (i != list.begin())
os << ", ";
os << '\'' << *i << '\'';
}
os << ")";
return os;
}
size_t hash<StringList>::operator()(StringList const& sl) const {
size_t h = 0;
for (auto const& s : sl)
hashCombine(h, hashOf(s));
return h;
}
}
2023-06-28 18:08:11 +00:00
fmt::appender fmt::formatter<Star::String>::format(Star::String const& s, format_context& ctx) const {
return formatter<std::string>::format(s.utf8(), ctx);
};