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construct/include/ircd/js/string.h

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// Matrix Construct
//
// Copyright (C) Matrix Construct Developers, Authors & Contributors
// Copyright (C) 2016-2018 Jason Volk <jason@zemos.net>
//
// Permission to use, copy, modify, and/or distribute this software for any
// purpose with or without fee is hereby granted, provided that the above
// copyright notice and this permission notice is present in all copies. The
// full license for this software is available in the LICENSE file.
#pragma once
#define HAVE_IRCD_JS_STRING_H
namespace ircd {
namespace js {
// Fundamental utils
bool latin1(const JSString *const &);
bool external(const JSString *const &);
size_t size(const JSString *const &);
char16_t at(const JSString *const &, const size_t &);
// Direct access to the string data via a pointer within a protective closure.
using string16_closure = std::function<void (const char16_t *const &, const size_t &)>;
using string8_closure = std::function<void (const char *const &, const size_t &)>;
void observe16(const JSString *const &, const string16_closure &);
void observe8(const JSString *const &, const string8_closure &);
void observe(const JSString *const &, const std::pair<string8_closure, string16_closure> &);
// Convert to native and copy into circular buffer.
const size_t CSTR_BUFS = 8;
const size_t CSTR_BUFSIZE = 1024;
char *c_str(const JSString *const &);
struct string
:root<JSString *>
{
IRCD_OVERLOAD(pinned)
IRCD_OVERLOAD(literal)
char *c_str() const; // Copy into rotating buf
size_t native_size() const;
size_t size() const;
bool empty() const;
char16_t operator[](const size_t &at) const;
operator std::string() const;
operator std::u16string() const;
operator JS::Value() const;
operator value() const;
using root<JSString *>::root;
string(pinned_t, const char16_t *const &);
string(pinned_t, const char *const &);
string(pinned_t, const string &);
string(literal_t, const char16_t *const &);
string(const char16_t *const &, const size_t &len);
string(const char16_t *const &);
string(const std::u16string &);
string(const char *const &, const size_t &len);
string(const std::string &);
string(const char *const &);
string(const value &);
string(JSString *const &);
string(JSString &);
string();
struct less
{
using is_transparent = std::true_type;
template<class A, class B> bool operator()(const A &, const B &) const;
};
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friend std::ostream & operator<<(std::ostream &os, const string &s);
};
template<class T> constexpr bool is_string();
template<class A, class B> constexpr bool string_argument();
auto hash(const string &s);
int cmp(const string &a, const string &b);
int cmp(const char *const &a, const string &b);
int cmp(const string &a, const char *const &b);
int cmp(const string &a, const std::string &b);
int cmp(const std::string &a, const string &b);
bool operator==(const string &a, const char *const &b);
bool operator==(const char *const &a, const string &b);
template<class A,
class B>
using string_comparison = typename std::enable_if<string_argument<A, B>(), bool>::type;
template<class A, class B> string_comparison<A, B> operator==(const A &a, const B &b);
template<class A, class B> string_comparison<A, B> operator!=(const A &a, const B &b);
template<class A, class B> string_comparison<A, B> operator>(const A &a, const B &b);
template<class A, class B> string_comparison<A, B> operator<(const A &a, const B &b);
template<class A, class B> string_comparison<A, B> operator>=(const A &a, const B &b);
template<class A, class B> string_comparison<A, B> operator<=(const A &a, const B &b);
template<class A, class B> string_comparison<A, B> operator==(const A &a, const B &b);
template<class A, class B> string_comparison<A, B> operator!=(const A &a, const B &b);
using string_pair = std::pair<string, string>;
string_pair splita(const string &s, const char16_t &c);
string_pair splita(const string &s, const char &c); // split() but skips multiple contiguous c
string_pair split(const string &s, const char16_t &c); // split on first position of c
string_pair split(const string &s, const char &c);
string substr(const string &s, const size_t &pos, const size_t &len);
string operator+(const string &left, const string &right);
string &operator+=(string &left, const string &right);
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using string_closure = std::function<void (const string &)>;
void tokens(const string &, const char &sep, const string_closure &);
inline
string::string()
:string::root::type
{
JS_GetEmptyString(*cx)
}
{
}
inline
string::string(JSString &val)
:string::root::type{&val}
{
}
inline
string::string(JSString *const &val)
:string::root::type
{
likely(val)? val : throw internal_error("NULL string")
}
{
}
inline
string::string(const value &val)
:string::root::type
{
JS::ToString(*cx, val)?: throw type_error("Failed to convert value to string")
}
{
}
inline
string::string(const std::string &s)
:string(s.data(), s.size())
{
}
inline
string::string(const char *const &s)
:string(s, strlen(s))
{
}
inline
string::string(const char *const &s,
const size_t &len)
:string::root::type{[&s, &len]
{
if(!s || !*s)
return JS_GetEmptyString(*cx);
auto buf(native_external_copy(s, len));
return JS_NewExternalString(*cx, buf.release(), len, &native_external_delete);
}()}
{
if(unlikely(!this->get()))
throw type_error("Failed to construct string from character array");
}
inline
string::string(const std::u16string &s)
:string(s.data(), s.size())
{
}
inline
string::string(const char16_t *const &s)
:string(s, std::char_traits<char16_t>::length(s))
{
}
inline
string::string(const char16_t *const &s,
const size_t &len)
:string::root::type{[&s, &len]
{
if(!s || !*s)
return JS_GetEmptyString(*cx);
// JS_NewExternalString does not require a null terminated buffer, but we are going
// to terminate anyway in case the deleter ever wants to iterate a canonical vector.
auto buf(std::make_unique<char16_t[]>(len+1));
memcpy(buf.get(), s, len * 2);
buf.get()[len] = char16_t(0);
return JS_NewExternalString(*cx, buf.release(), len, &native_external_delete);
}()}
{
if(unlikely(!this->get()))
throw type_error("Failed to construct string from character array");
}
inline
string::string(literal_t,
const char16_t *const &s)
:string::root::type
{
s && *s?
JS_NewExternalString(*cx, s, std::char_traits<char16_t>::length(s), &native_external_static):
JS_GetEmptyString(*cx)
}
{
if(unlikely(!this->get()))
throw type_error("Failed to construct string from wide character literal");
}
inline
string::string(pinned_t,
const string &s)
:string::root::type
{
JS_AtomizeAndPinJSString(*cx, s)
}
{
if(unlikely(!this->get()))
throw type_error("Failed to intern JSString");
}
inline
string::string(pinned_t,
const char *const &s)
:string::root::type
{
JS_AtomizeAndPinStringN(*cx, s, strlen(s))
}
{
if(unlikely(!this->get()))
throw type_error("Failed to construct pinned string from character array");
}
inline
string::string(pinned_t,
const char16_t *const &s)
:string::root::type
{
JS_AtomizeAndPinUCStringN(*cx, s, std::char_traits<char16_t>::length(s))
}
{
if(unlikely(!this->get()))
throw type_error("Failed to construct pinned string from wide character array");
}
inline char16_t
string::operator[](const size_t &pos)
const
{
return at(this->get(), pos);
}
inline
string::operator value()
const
{
return static_cast<JS::Value>(*this);
}
inline
string::operator JS::Value()
const
{
return JS::StringValue(this->get());
}
inline
string::operator std::string()
const
{
return native(this->get());
}
inline
string::operator std::u16string()
const
{
return locale::char16::conv(native(this->get()));
}
inline
char *
string::c_str()
const
{
return js::c_str(this->get());
}
inline bool
string::empty()
const
{
return size() == 0;
}
inline size_t
string::size()
const
{
return js::size(this->get());
}
inline size_t
string::native_size()
const
{
return js::native_size(this->get());
}
template<class A,
class B>
bool
string::less::operator()(const A &a, const B &b)
const
{
return cmp(a, b) < 0;
}
inline std::ostream &
operator<<(std::ostream &os, const string &s)
{
os << std::string(s);
return os;
}
inline void
tokens(const string &str,
const char &sep,
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const string_closure &closure)
{
for(auto pair(splita(str, sep));; pair = splita(pair.second, sep))
{
closure(pair.first);
if(pair.second.empty())
break;
}
}
inline std::pair<string, string>
split(const string &s,
const char &c)
{
return split(s, char16_t(c));
}
inline std::pair<string, string>
splita(const string &s,
const char &c)
{
return splita(s, char16_t(c));
}
inline std::pair<string, string>
split(const string &s,
const char16_t &c)
{
size_t a(0);
for(; a < size(s) && at(s, a) != c; ++a);
return
{
substr(s, 0, a),
a + 1 < size(s)? substr(s, a + 1, size(s) - a) : string()
};
}
inline std::pair<string, string>
splita(const string &s,
const char16_t &c)
{
size_t a(0);
for(; a < size(s) && at(s, a) != c; ++a);
size_t b(a);
for(; b < size(s) && at(s, b) == c; ++b);
return
{
substr(s, 0, a),
b < size(s)? substr(s, b, size(s) - b) : string()
};
}
inline string
substr(const string &s,
const size_t &pos,
const size_t &len)
{
const auto _len(len == size_t(-1)? size(s) - pos : len);
const auto ret(JS_NewDependentString(*cx, s, pos, _len));
if(!ret)
throw std::out_of_range("substr(): invalid arguments");
return ret;
}
inline string &
operator+=(string &left,
const string &right)
{
left = operator+(left, right);
return left;
}
inline string
operator+(const string &left,
const string &right)
{
return JS_ConcatStrings(*cx, left, right);
}
template<class A,
class B>
string_comparison<A, B>
operator>(const A &a, const B &b)
{
return cmp(a, b) > 0;
}
template<class A,
class B>
string_comparison<A, B>
operator<(const A &a, const B &b)
{
return cmp(a, b) < 0;
}
template<class A,
class B>
string_comparison<A, B>
operator>=(const A &a, const B &b)
{
return cmp(a, b) >= 0;
}
template<class A,
class B>
string_comparison<A, B>
operator<=(const A &a, const B &b)
{
return cmp(a, b) <= 0;
}
template<class A,
class B>
string_comparison<A, B>
operator==(const A &a, const B &b)
{
return cmp(a, b) == 0;
}
template<class A,
class B>
string_comparison<A, B>
operator!=(const A &a, const B &b)
{
return !(operator==(a, b));
}
inline bool
operator==(const string &a, const char *const &b)
{
bool ret;
if(unlikely(!JS_StringEqualsAscii(*cx, a, b, &ret)))
throw internal_error("Failed to compare string to native");
return ret;
}
inline bool
operator==(const char *const &a, const string &b)
{
bool ret;
if(unlikely(!JS_StringEqualsAscii(*cx, b, a, &ret)))
throw internal_error("Failed to compare string to native");
return ret;
}
inline int
cmp(const string &a,
const std::string &b)
{
return cmp(a, b.c_str());
}
inline int
cmp(const std::string &a,
const string &b)
{
return cmp(a.c_str(), b);
}
inline int
cmp(const string &a,
const char *const &b)
{
return cmp(a, string(b));
}
inline int
cmp(const char *const &a,
const string &b)
{
return cmp(string(a), b);
}
inline int
cmp(const string &a,
const string &b)
{
int32_t ret;
if(unlikely(!JS_CompareStrings(*cx, a, b, &ret)))
throw internal_error("Failed to compare strings");
return ret;
}
inline auto
hash(const string &s)
{
//TODO: optimize
return ircd::util::hash(std::u16string(s));
}
template<class A,
class B>
constexpr bool
string_argument()
{
return is_string<A>() || is_string<B>();
}
template<class T>
constexpr bool
is_string()
{
return std::is_base_of<string, T>();
}
inline void
observe(const JSString *const &str,
const std::pair<string8_closure, string16_closure> &closure)
{
if(latin1(str))
observe8(str, closure.first);
else
observe16(str, closure.second);
}
inline void
observe8(const JSString *const &str,
const string8_closure &closure)
{
JS::AutoCheckCannotGC ngc;
size_t length;
const auto ptr(JS_GetLatin1StringCharsAndLength(*cx, ngc, const_cast<JSString *>(str), &length));
closure(reinterpret_cast<const char *>(ptr), length);
}
inline void
observe16(const JSString *const &str,
const string16_closure &closure)
{
JS::AutoCheckCannotGC ngc;
size_t length;
const auto ptr(JS_GetTwoByteStringCharsAndLength(*cx, ngc, const_cast<JSString *>(str), &length));
closure(ptr, length);
}
inline char16_t
at(const JSString *const &s,
const size_t &pos)
{
char16_t ret;
if(unlikely(!JS_GetStringCharAt(*cx, const_cast<JSString *>(s), pos, &ret)))
throw range_error("index %zu is out of range", pos);
return ret;
}
inline size_t
size(const JSString *const &s)
{
return JS_GetStringLength(const_cast<JSString *>(s));
}
inline bool
external(const JSString *const &s)
{
return JS_IsExternalString(const_cast<JSString *>(s));
}
inline bool
latin1(const JSString *const &s)
{
return JS_StringHasLatin1Chars(const_cast<JSString *>(s));
}
} // namespace js
} // namespace ircd