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// file : build2/test/script/regex.cxx -*- C++ -*-
// copyright : Copyright (c) 2014-2017 Code Synthesis Ltd
// license : MIT; see accompanying LICENSE file
#include <build2/test/script/regex>
#include <algorithm> // copy(), copy_backward()
using namespace std;
namespace build2
{
namespace test
{
namespace script
{
namespace regex
{
static_assert (alignof (char_string) % 4 == 0,
"inappropriate allignment for char_string");
static_assert (alignof (char_regex) % 4 == 0,
"inappropriate allignment for char_regex");
static_assert (sizeof (uintptr_t) > sizeof (int16_t),
"inappropriate uintptr_t size");
const line_char line_char::nul (0);
const line_char line_char::eof (-1);
// line_char
//
// We package the special character into uintptr_t with the following
// steps:
//
// - narrow down int value to int16_t (preserves all the valid values)
//
// - convert to uint16_t (bitwise representation stays the same, but no
// need to bother with signed value widening, leftmost bits loss on
// left shift, etc)
//
// - convert to uintptr_t (storage type)
//
// - shift left by two bits (the operation is fully reversible as
// uintptr_t is wider then uint16_t)
//
line_char::
line_char (int c)
: data_ (
(static_cast <uintptr_t> (
static_cast<uint16_t> (
static_cast<int16_t> (c))) << 2) |
static_cast <uintptr_t> (line_type::special))
{
// @@ How can we allow anything for basic_regex but only subset
// for our own code?
//
const char ex[] = "pn\n\r";
assert (c == 0 || // Null character.
// EOF. Note that is also passed by msvcrt as _Meta_eos
// enum value.
//
c == -1 ||
// libstdc++ line/paragraph separators.
//
c == u'\u2028' || c == u'\u2029' ||
(c > 0 && c <= 255 && (
// Supported regex special characters.
//
syntax (c) ||
// libstdc++ look-ahead tokens, newline chars.
//
string::traits_type::find (ex, 4, c) != nullptr)));
}
line_char::
line_char (const char_string& s, line_pool& p)
: line_char (&(*p.strings.emplace (s).first))
{
}
line_char::
line_char (char_string&& s, line_pool& p)
: line_char (&(*p.strings.emplace (move (s)).first))
{
}
line_char::
line_char (char_regex r, line_pool& p)
// Note: in C++17 can write as p.regexes.emplace_front(move (r))
//
: line_char (&(*p.regexes.emplace (p.regexes.begin (), move (r))))
{
}
bool
line_char::syntax (char c)
{
return string::traits_type::find (
"()|.*+?{}\\0123456789,=!", 23, c) != nullptr;
}
bool
operator== (const line_char& l, const line_char& r)
{
line_type lt (l.type ());
line_type rt (r.type ());
if (lt == rt)
{
bool res (true);
switch (lt)
{
case line_type::special: res = l.special () == r.special (); break;
case line_type::regex: assert (false); break;
// Note that we use pointers (rather than vales) comparison
// assuming that the strings must belong to the same pool.
//
case line_type::literal: res = l.literal () == r.literal (); break;
}
return res;
}
// Match literal with regex.
//
if (lt == line_type::literal && rt == line_type::regex)
return regex_match (*l.literal (), *r.regex ());
else if (rt == line_type::literal && lt == line_type::regex)
return regex_match (*r.literal (), *l.regex ());
return false;
}
bool
operator< (const line_char& l, const line_char& r)
{
if (l == r)
return false;
line_type lt (l.type ());
line_type rt (r.type ());
if (lt != rt)
return lt < rt;
bool res (false);
switch (lt)
{
case line_type::special: res = l.special () < r.special (); break;
case line_type::literal: res = *l.literal () < *r.literal (); break;
case line_type::regex: assert (false); break;
}
return res;
}
// line_char_locale
//
line_char_locale::
line_char_locale ()
: locale (locale (),
new std::ctype<line_char> ()) // Hidden by ctype bitmask.
{
}
// char_regex
//
// Transform regex according to the extended flags {idot}. If regex is
// malformed then keep transforming, so the resulting string is
// malformed the same way. We expect the error to be reported by the
// char_regex ctor.
//
static string
transform (const string& s, char_flags f)
{
assert ((f & char_flags::idot) != char_flags::none);
string r;
bool escape (false);
bool cclass (false);
for (char c: s)
{
// Inverse escaping for a dot which is out of the char class
// brackets.
//
bool inverse (c == '.' && !cclass);
// Handle the escape case. Note that we delay adding the backslash
// since we may have to inverse things.
//
if (escape)
{
if (!inverse)
r += '\\';
r += c;
escape = false;
continue;
}
else if (c == '\\')
{
escape = true;
continue;
}
// Keep track of being inside the char class brackets, escape if
// inversion. Note that we never inverse square brackets.
//
if (c == '[' && !cclass)
cclass = true;
else if (c == ']' && cclass)
cclass = false;
else if (inverse)
r += '\\';
r += c;
}
if (escape) // Regex is malformed but that's not our problem.
r += '\\';
return r;
}
static char_regex::flag_type
to_std_flags (char_flags f)
{
// Note that ECMAScript flag is implied in the absense of a grammar
// flag.
//
return (f & char_flags::icase) != char_flags::none
? char_regex::icase
: char_regex::flag_type ();
}
char_regex::
char_regex (const char_string& s, char_flags f)
: base_type ((f & char_flags::idot) != char_flags::none
? transform (s, f)
: s,
to_std_flags (f))
{
}
}
}
}
}
namespace std
{
using namespace build2::test::script::regex;
// char_traits<line_char>
//
line_char* char_traits<line_char>::
assign (char_type* s, size_t n, char_type c)
{
for (size_t i (0); i != n; ++i)
s[i] = c;
return s;
}
line_char* char_traits<line_char>::
move (char_type* d, const char_type* s, size_t n)
{
if (n > 0 && d != s)
{
// If d < s then it can't be in [s, s + n) range and so using copy() is
// safe. Otherwise d + n is out of (s, s + n] range and so using
// copy_backward() is safe.
//
if (d < s)
std::copy (s, s + n, d); // Hidden by char_traits<line_char>::copy().
else
copy_backward (s, s + n, d + n);
}
return d;
}
line_char* char_traits<line_char>::
copy (char_type* d, const char_type* s, size_t n)
{
std::copy (s, s + n, d); // Hidden by char_traits<line_char>::copy().
return d;
}
int char_traits<line_char>::
compare (const char_type* s1, const char_type* s2, size_t n)
{
for (size_t i (0); i != n; ++i)
{
if (s1[i] < s2[i])
return -1;
else if (s2[i] < s1[i])
return 1;
}
return 0;
}
size_t char_traits<line_char>::
length (const char_type* s)
{
size_t i (0);
while (s[i] != char_type::nul)
++i;
return i;
}
const line_char* char_traits<line_char>::
find (const char_type* s, size_t n, const char_type& c)
{
for (size_t i (0); i != n; ++i)
{
if (s[i] == c)
return s + i;
}
return nullptr;
}
// ctype<line_char>
//
locale::id ctype<line_char>::id;
const line_char* ctype<line_char>::
is (const char_type* b, const char_type* e, mask* m) const
{
while (b != e)
{
const char_type& c (*b++);
*m++ = c.type () == line_type::special && build2::digit (c.special ())
? digit
: 0;
}
return e;
}
const line_char* ctype<line_char>::
scan_is (mask m, const char_type* b, const char_type* e) const
{
for (; b != e; ++b)
{
if (is (m, *b))
return b;
}
return e;
}
const line_char* ctype<line_char>::
scan_not (mask m, const char_type* b, const char_type* e) const
{
for (; b != e; ++b)
{
if (!is (m, *b))
return b;
}
return e;
}
const char* ctype<line_char>::
widen (const char* b, const char* e, char_type* c) const
{
while (b != e)
*c++ = widen (*b++);
return e;
}
const line_char* ctype<line_char>::
narrow (const char_type* b, const char_type* e, char def, char* c) const
{
while (b != e)
*c++ = narrow (*b++, def);
return e;
}
// regex_traits<line_char>
//
int regex_traits<line_char>::
value (char_type c, int radix) const
{
assert (radix == 8 || radix == 10 || radix == 16);
if (c.type () != line_type::special)
return -1;
const char digits[] = "0123456789ABCDEF";
const char* d (string::traits_type::find (digits, radix, c.special ()));
return d != nullptr ? d - digits : -1;
}
}
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