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construct/ircd/lexical.cc

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2016-08-27 10:59:01 +02:00
/*
* charybdis: an advanced ircd.
* inline/stringops.h: inlined string operations used in a few places
*
* Copyright (C) 2005-2016 Charybdis Development Team
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307
* USA
*/
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/// !!! NOTE !!!
///
/// Many functions implemented here need to be replaced with karma generators
/// similar to ircd::fmt. Both the boost and std lexical conversions are an
/// order of magnitude slower than the formal generators. Some tokenizations
/// can also be replaced.
///
#include <RB_INC_BOOST_TOKENIZER_HPP
#include <RB_INC_BOOST_LEXICAL_CAST_HPP
#include <boost/archive/iterators/base64_from_binary.hpp>
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#include <boost/archive/iterators/binary_from_base64.hpp>
#include <boost/archive/iterators/transform_width.hpp>
///////////////////////////////////////////////////////////////////////////////
//
// ircd/tokens.h
//
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ircd::string_view
ircd::tokens_after(const string_view &str,
const char &sep,
const size_t &i)
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{
const char ssep[2] { sep, '\0' };
return tokens_after(str, ssep, i);
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}
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ircd::string_view
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ircd::tokens_after(const string_view &str,
const char *const &sep,
const size_t &i)
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{
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using type = string_view;
using iter = typename type::const_iterator;
using delim = boost::char_separator<char>;
const delim d(sep);
const boost::tokenizer<delim, iter, type> view(str, d);
auto it(begin(view));
for(size_t j(0); it != end(view); ++it, j++)
if(j > i)
return string_view{it->data(), str.data() + str.size()};
return {};
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}
ircd::string_view
ircd::token_first(const string_view &str,
const char &sep)
{
const char ssep[2] { sep, '\0' };
return token(str, ssep, 0);
}
ircd::string_view
ircd::token_first(const string_view &str,
const char *const &sep)
{
return token(str, sep, 0);
}
ircd::string_view
ircd::token_last(const string_view &str,
const char &sep)
{
const char ssep[2] { sep, '\0' };
return token_last(str, ssep);
}
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ircd::string_view
ircd::token_last(const string_view &str,
const char *const &sep)
{
using type = string_view;
using iter = typename type::const_iterator;
using delim = boost::char_separator<char>;
const delim d(sep);
const boost::tokenizer<delim, iter, type> view(str, d);
auto it(begin(view));
if(it == end(view))
return str.empty()? str : throw std::out_of_range("token out of range");
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string_view ret(*it);
for(++it; it != end(view); ++it)
ret = *it;
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return ret;
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}
ircd::string_view
ircd::token(const string_view &str,
const char &sep,
const size_t &i)
{
const char ssep[2] { sep, '\0' };
return token(str, ssep, i);
}
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ircd::string_view
ircd::token(const string_view &str,
const char *const &sep,
const size_t &i)
{
using type = string_view;
using iter = typename type::const_iterator;
using delim = boost::char_separator<char>;
const delim d(sep);
const boost::tokenizer<delim, iter, type> view(str, d);
const auto it(at(begin(view), end(view), i));
return *it;
}
size_t
ircd::token_count(const string_view &str,
const char &sep)
{
const char ssep[2] { sep, '\0' };
return token_count(str, ssep);
}
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size_t
ircd::token_count(const string_view &str,
const char *const &sep)
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{
using type = string_view;
using iter = typename type::const_iterator;
using delim = boost::char_separator<char>;
const delim d(sep);
const boost::tokenizer<delim, iter, type> view(str, d);
return std::distance(begin(view), end(view));
}
size_t
ircd::tokens(const string_view &str,
const char &sep,
const mutable_buffer &buf,
const token_view &closure)
{
const char ssep[2] { sep, '\0' };
return tokens(str, ssep, buf, closure);
}
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size_t
ircd::tokens(const string_view &str,
const char *const &sep,
const mutable_buffer &buf,
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const token_view &closure)
{
char *ptr(data(buf));
char *const stop(data(buf) + size(buf));
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tokens(str, sep, [&closure, &ptr, &stop]
(const string_view &token)
{
const size_t terminated_size(token.size() + 1);
const size_t remaining(std::distance(ptr, stop));
if(remaining < terminated_size)
return;
char *const dest(ptr);
ptr += strlcpy(dest, token.data(), terminated_size);
closure(string_view(dest, token.size()));
});
return std::distance(data(buf), ptr);
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}
size_t
ircd::tokens(const string_view &str,
const char &sep,
const size_t &limit,
const token_view &closure)
{
const char ssep[2] { sep, '\0' };
return tokens(str, ssep, limit, closure);
}
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size_t
ircd::tokens(const string_view &str,
const char *const &sep,
const size_t &limit,
const token_view &closure)
{
using type = string_view;
using iter = typename type::const_iterator;
using delim = boost::char_separator<char>;
const delim d(sep);
const boost::tokenizer<delim, iter, type> view(str, d);
size_t i(0);
for(auto it(begin(view)); i < limit && it != end(view); ++it, i++)
closure(*it);
return i;
}
void
ircd::tokens(const string_view &str,
const char &sep,
const token_view &closure)
{
const char ssep[2] { sep, '\0' };
tokens(str, ssep, closure);
}
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void
ircd::tokens(const string_view &str,
const char *const &sep,
const token_view &closure)
{
using type = string_view;
using iter = typename type::const_iterator;
using delim = boost::char_separator<char>;
const delim d(sep);
const boost::tokenizer<delim, iter, type> view(str, d);
std::for_each(begin(view), end(view), closure);
}
///////////////////////////////////////////////////////////////////////////////
//
// ircd/lex_cast.h
//
namespace ircd
{
/// The static lex_cast ring buffers are each LEX_CAST_BUFSIZE bytes;
/// Consider increasing if some lex_cast<T>(str) has more characters.
const size_t LEX_CAST_BUFSIZE {64};
/// This is a static "ring buffer" to simplify a majority of lex_cast uses.
/// If the lex_cast has binary input and string output, and no user buffer
/// is supplied, the next buffer here will be used instead. The returned
/// string_view of data from this buffer is only valid for several more
/// calls to lex_cast before it is overwritten.
thread_local char lex_cast_buf[LEX_CAST_BUFS][LEX_CAST_BUFSIZE];
thread_local uint lex_cast_cur;
template<size_t N, class T> static string_view _lex_cast(const T &i, mutable_buffer buf);
template<class T> static T _lex_cast(const string_view &s);
}
/// Internal template providing conversions from a number to a string;
/// potentially using the ring buffer if no user buffer is supplied.
template<size_t N,
class T>
ircd::string_view
ircd::_lex_cast(const T &i,
mutable_buffer buf)
try
{
using array = std::array<char, N>;
if(!buf)
{
buf = lex_cast_buf[lex_cast_cur++];
lex_cast_cur %= LEX_CAST_BUFS;
}
assert(size(buf) >= N);
auto &a(*reinterpret_cast<array *>(data(buf)));
a = boost::lexical_cast<array>(i);
return { data(buf), strnlen(data(buf), size(buf)) };
}
catch(const boost::bad_lexical_cast &e)
{
throw ircd::bad_lex_cast("%s", e.what());
}
/// Internal template providing conversions from a string to a number;
/// the native object is returned directly; no ring buffer is consumed.
template<class T>
T
ircd::_lex_cast(const string_view &s)
try
{
return boost::lexical_cast<T>(s);
}
catch(const boost::bad_lexical_cast &e)
{
throw ircd::bad_lex_cast("%s", e.what());
}
template<> ircd::string_view
ircd::lex_cast(bool i,
const mutable_buffer &buf)
{
static const size_t MAX(8);
return _lex_cast<MAX>(i, buf);
}
template<> ircd::string_view
ircd::lex_cast(int8_t i,
const mutable_buffer &buf)
{
static const size_t MAX(8);
return _lex_cast<MAX>(i, buf);
}
template<> ircd::string_view
ircd::lex_cast(uint8_t i,
const mutable_buffer &buf)
{
static const size_t MAX(8);
return _lex_cast<MAX>(i, buf);
}
template<> ircd::string_view
ircd::lex_cast(short i,
const mutable_buffer &buf)
{
static const size_t MAX(8);
return _lex_cast<MAX>(i, buf);
}
template<> ircd::string_view
ircd::lex_cast(ushort i,
const mutable_buffer &buf)
{
static const size_t MAX(8);
return _lex_cast<MAX>(i, buf);
}
template<> ircd::string_view
ircd::lex_cast(int i,
const mutable_buffer &buf)
{
static const size_t MAX(16);
return _lex_cast<MAX>(i, buf);
}
template<> ircd::string_view
ircd::lex_cast(uint i,
const mutable_buffer &buf)
{
static const size_t MAX(16);
return _lex_cast<MAX>(i, buf);
}
template<> ircd::string_view
ircd::lex_cast(long i,
const mutable_buffer &buf)
{
static const size_t MAX(32);
return _lex_cast<MAX>(i, buf);
}
template<> ircd::string_view
ircd::lex_cast(ulong i,
const mutable_buffer &buf)
{
static const size_t MAX(32);
return _lex_cast<MAX>(i, buf);
}
template<> ircd::string_view
ircd::lex_cast(double i,
const mutable_buffer &buf)
{
static const size_t MAX(64);
return _lex_cast<MAX>(i, buf);
}
template<> ircd::string_view
ircd::lex_cast(long double i,
const mutable_buffer &buf)
{
static const size_t MAX(64);
return _lex_cast<MAX>(i, buf);
}
template<> ircd::string_view
ircd::lex_cast(nanoseconds i,
const mutable_buffer &buf)
{
static const size_t MAX(64);
return _lex_cast<MAX>(i.count(), buf);
}
template<> ircd::string_view
ircd::lex_cast(microseconds i,
const mutable_buffer &buf)
{
static const size_t MAX(64);
return _lex_cast<MAX>(i.count(), buf);
}
template<> ircd::string_view
ircd::lex_cast(milliseconds i,
const mutable_buffer &buf)
{
static const size_t MAX(64);
return _lex_cast<MAX>(i.count(), buf);
}
template<> ircd::string_view
ircd::lex_cast(seconds i,
const mutable_buffer &buf)
{
static const size_t MAX(64);
return _lex_cast<MAX>(i.count(), buf);
}
template<> bool
ircd::lex_cast(const string_view &s)
{
return s == "true"? true:
s == "false"? false:
_lex_cast<bool>(s);
}
template<> int8_t
ircd::lex_cast(const string_view &s)
{
return _lex_cast<char>(s);
}
template<> uint8_t
ircd::lex_cast(const string_view &s)
{
return _lex_cast<unsigned char>(s);
}
template<> short
ircd::lex_cast(const string_view &s)
{
return _lex_cast<short>(s);
}
template<> unsigned short
ircd::lex_cast(const string_view &s)
{
return _lex_cast<unsigned short>(s);
}
template<> int
ircd::lex_cast(const string_view &s)
{
return _lex_cast<int>(s);
}
template<> unsigned int
ircd::lex_cast(const string_view &s)
{
return _lex_cast<unsigned int>(s);
}
template<> long
ircd::lex_cast(const string_view &s)
{
return _lex_cast<long>(s);
}
template<> unsigned long
ircd::lex_cast(const string_view &s)
{
return _lex_cast<unsigned long>(s);
}
template<> double
ircd::lex_cast(const string_view &s)
{
return _lex_cast<double>(s);
}
template<> long double
ircd::lex_cast(const string_view &s)
{
return _lex_cast<long double>(s);
}
template<> ircd::nanoseconds
ircd::lex_cast(const string_view &s)
{
return std::chrono::duration<time_t, std::ratio<1L, 1000000000L>>(_lex_cast<time_t>(s));
}
template<> ircd::microseconds
ircd::lex_cast(const string_view &s)
{
return std::chrono::duration<time_t, std::ratio<1L, 1000000L>>(_lex_cast<time_t>(s));
}
template<> ircd::milliseconds
ircd::lex_cast(const string_view &s)
{
return std::chrono::duration<time_t, std::ratio<1L, 1000L>>(_lex_cast<time_t>(s));
}
template<> ircd::seconds
ircd::lex_cast(const string_view &s)
{
return std::chrono::duration<time_t, std::ratio<1L, 1L>>(_lex_cast<time_t>(s));
}
template<> bool
ircd::try_lex_cast<bool>(const string_view &s)
{
bool i;
return boost::conversion::try_lexical_convert(s, i);
}
template<> bool
ircd::try_lex_cast<int8_t>(const string_view &s)
{
int8_t i;
return boost::conversion::try_lexical_convert(s, i);
}
template<> bool
ircd::try_lex_cast<uint8_t>(const string_view &s)
{
uint8_t i;
return boost::conversion::try_lexical_convert(s, i);
}
template<> bool
ircd::try_lex_cast<short>(const string_view &s)
{
short i;
return boost::conversion::try_lexical_convert(s, i);
}
template<> bool
ircd::try_lex_cast<ushort>(const string_view &s)
{
ushort i;
return boost::conversion::try_lexical_convert(s, i);
}
template<> bool
ircd::try_lex_cast<int>(const string_view &s)
{
int i;
return boost::conversion::try_lexical_convert(s, i);
}
template<> bool
ircd::try_lex_cast<unsigned int>(const string_view &s)
{
unsigned int i;
return boost::conversion::try_lexical_convert(s, i);
}
template<> bool
ircd::try_lex_cast<long>(const string_view &s)
{
long i;
return boost::conversion::try_lexical_convert(s, i);
}
template<> bool
ircd::try_lex_cast<unsigned long>(const string_view &s)
{
unsigned long i;
return boost::conversion::try_lexical_convert(s, i);
}
template<> bool
ircd::try_lex_cast<double>(const string_view &s)
{
double i;
return boost::conversion::try_lexical_convert(s, i);
}
template<> bool
ircd::try_lex_cast<long double>(const string_view &s)
{
long double i;
return boost::conversion::try_lexical_convert(s, i);
}
template<> bool
ircd::try_lex_cast<ircd::nanoseconds>(const string_view &s)
{
time_t i; //TODO: XXX
return boost::conversion::try_lexical_convert(s, i);
}
template<> bool
ircd::try_lex_cast<ircd::microseconds>(const string_view &s)
{
time_t i; //TODO: XXX
return boost::conversion::try_lexical_convert(s, i);
}
template<> bool
ircd::try_lex_cast<ircd::milliseconds>(const string_view &s)
{
time_t i; //TODO: XXX
return boost::conversion::try_lexical_convert(s, i);
}
template<> bool
ircd::try_lex_cast<ircd::seconds>(const string_view &s)
{
time_t i; //TODO: XXX
return boost::conversion::try_lexical_convert(s, i);
}
///////////////////////////////////////////////////////////////////////////////
//
// ircd/stringops.h
//
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std::string
ircd::replace(const string_view &s,
const char &before,
const string_view &after)
{
const auto occurs
{
std::count(begin(s), end(s), before)
};
const size_t size
{
occurs? s.size() + (occurs * after.size()):
s.size() - occurs
};
std::string ret(size, char{});
auto *p{const_cast<char *>(ret.data())};
std::for_each(begin(s), end(s), [&before, &after, &p]
(const char &c)
{
if(c == before)
{
memcpy(p, after.data(), after.size());
p += after.size();
}
else *p++ = c;
});
//assert(ret.size() == size_t(std::distance(ret.data(), const_cast<const char *>(p))));
ret.resize(std::distance(ret.data(), const_cast<const char *>(p)));
return ret;
}
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namespace ircd
{
const char _b64_pad_
{
'='
};
using _b64_encoder = std::function<string_view (const mutable_buffer &, const const_raw_buffer &)>;
static std::string _b64encode(const const_raw_buffer &in, const _b64_encoder &);
}
/// Allocate and return a string without padding from the encoding of in
std::string
ircd::b64encode_unpadded(const const_raw_buffer &in)
{
return _b64encode(in, [](const auto &out, const auto &in)
{
return b64encode_unpadded(out, in);
});
}
/// Allocate and return a string from the encoding of in
std::string
ircd::b64encode(const const_raw_buffer &in)
{
return _b64encode(in, [](const auto &out, const auto &in)
{
return b64encode(out, in);
});
}
/// Internal; dedupes encoding functions that create and return a string
static std::string
ircd::_b64encode(const const_raw_buffer &in,
const _b64_encoder &encoder)
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{
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// Allocate a buffer 1.33 times larger than input with pessimistic
// extra space for any padding and nulling.
const auto max
{
ceil(size(in) * (4.0 / 3.0)) + 4
};
std::string ret(max, char{});
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const mutable_buffer buf
{
const_cast<char *>(ret.data()), ret.size()
};
const string_view encoded
{
encoder(buf, in)
};
assert(size(encoded) <= ret.size());
ret.resize(size(encoded));
return ret;
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}
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/// Encoding in to base64 at out. Out must be 1.33+ larger than in
/// padding is not present in the returned view.
ircd::string_view
ircd::b64encode(const mutable_buffer &out,
const const_raw_buffer &in)
{
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const auto pads
{
(3 - size(in) % 3) % 3
};
const auto encoded
{
b64encode_unpadded(out, in)
};
assert(size(encoded) + pads <= size(out));
memset(data(out) + size(encoded), _b64_pad_, pads);
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const auto len
{
size(encoded) + pads
};
return { data(out), len };
}
/// Encoding in to base64 at out. Out must be 1.33+ larger than in.
ircd::string_view
ircd::b64encode_unpadded(const mutable_buffer &out,
const const_raw_buffer &in)
{
namespace iterators = boost::archive::iterators;
using transform = iterators::transform_width<unsigned char *, 6, 8>;
using b64fb = iterators::base64_from_binary<transform>;
const auto cpsz
{
std::min(size(in), size_t(size(out) * (3.0 / 4.0)))
};
const auto end
{
std::copy(b64fb(data(in)), b64fb(data(in) + cpsz), begin(out))
};
const auto len
{
size_t(std::distance(begin(out), end))
};
assert(len <= size(out));
return { data(out), len };
}
std::string
ircd::b64decode(const string_view &in)
{
// Allocate a buffer 75% than input with pessimistic extra space
const auto max
{
ceil(size(in) * 0.75) + 4
};
std::string ret(max, char{});
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const mutable_raw_buffer buf
{
reinterpret_cast<unsigned char *>(const_cast<char *>(ret.data())), ret.size()
};
const auto decoded
{
b64decode(buf, in)
};
assert(size(decoded) <= ret.size());
ret.resize(size(decoded));
return ret;
}
/// Decode base64 from in to the buffer at out; out can be 75% of the size
/// of in.
ircd::const_raw_buffer
ircd::b64decode(const mutable_raw_buffer &out,
const string_view &in)
{
namespace iterators = boost::archive::iterators;
using b64bf = iterators::binary_from_base64<const char *>;
using transform = iterators::transform_width<b64bf, 8, 6>;
const auto pads
{
endswith_count(in, _b64_pad_)
};
const auto e
{
std::copy(transform(begin(in)), transform(begin(in) + size(in) - pads), begin(out))
};
const auto len
{
std::distance(begin(out), e)
};
assert(size_t(len) <= size(out));
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return { data(out), size_t(len) };
}
ircd::const_raw_buffer
ircd::a2u(const mutable_raw_buffer &out,
const const_buffer &in)
{
const size_t len{size(in) / 2};
for(size_t i(0); i < len; ++i)
{
const char gl[3]
{
in[i * 2],
in[i * 2 + 1],
'\0'
};
out[i] = strtol(gl, nullptr, 16);
}
return { data(out), len };
}
ircd::string_view
ircd::u2a(const mutable_buffer &out,
const const_raw_buffer &in)
{
char *p(data(out));
for(size_t i(0); i < size(in); ++i)
p += snprintf(p, size(out) - (p - data(out)), "%02x", in[i]);
return { data(out), size_t(p - data(out)) };
}
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/*
* strip_colour - remove colour codes from a string
* -asuffield (?)
*/
char *
ircd::strip_colour(char *string)
{
char *c = string;
char *c2 = string;
char *last_non_space = NULL;
/* c is source, c2 is target */
for(; c && *c; c++)
switch (*c)
{
case 3:
if(rfc1459::is_digit(c[1]))
{
c++;
if(rfc1459::is_digit(c[1]))
c++;
if(c[1] == ',' && rfc1459::is_digit(c[2]))
{
c += 2;
if(rfc1459::is_digit(c[1]))
c++;
}
}
break;
case 2:
case 4:
case 6:
case 7:
case 15:
case 22:
case 23:
case 27:
case 29:
case 31:
break;
case 32:
*c2++ = *c;
break;
default:
*c2++ = *c;
last_non_space = c2;
break;
}
*c2 = '\0';
if(last_non_space)
*last_non_space = '\0';
return string;
}
char *
ircd::strip_unprintable(char *string)
{
char *c = string;
char *c2 = string;
char *last_non_space = NULL;
/* c is source, c2 is target */
for(; c && *c; c++)
switch (*c)
{
case 3:
if(rfc1459::is_digit(c[1]))
{
c++;
if(rfc1459::is_digit(c[1]))
c++;
if(c[1] == ',' && rfc1459::is_digit(c[2]))
{
c += 2;
if(rfc1459::is_digit(c[1]))
c++;
}
}
break;
case 32:
*c2++ = *c;
break;
default:
if (*c < 32)
break;
*c2++ = *c;
last_non_space = c2;
break;
}
*c2 = '\0';
if(last_non_space)
*last_non_space = '\0';
return string;
}
// This is from the old parse.c and does not ensure the trailing :is added
// NOTE: Deprecated. Use formal grammar.
char *
ircd::reconstruct_parv(int parc, const char *parv[])
{
static char tmpbuf[BUFSIZE];
2016-11-29 16:23:38 +01:00
strlcpy(tmpbuf, parv[0], BUFSIZE);
for (int i = 1; i < parc; i++)
{
2016-11-29 16:23:38 +01:00
strlcat(tmpbuf, " ", BUFSIZE);
strlcat(tmpbuf, parv[i], BUFSIZE);
}
return tmpbuf;
}