Aegisub/libaegisub/common/parser.cpp

243 lines
7.2 KiB
C++

// Copyright (c) 2012, Thomas Goyne <plorkyeran@aegisub.org>
//
// Permission to use, copy, modify, and distribute this software for any
// purpose with or without fee is hereby granted, provided that the above
// copyright notice and this permission notice appear in all copies.
//
// THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
// WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
// MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
// ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
// WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
// ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
// OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
//
// Aegisub Project http://www.aegisub.org/
#include "../config.h"
#include "parser.h"
#include "libaegisub/color.h"
#include "libaegisub/ass/dialogue_parser.h"
#include <boost/spirit/include/qi.hpp>
#include <boost/spirit/include/phoenix_core.hpp>
#include <boost/spirit/include/phoenix_operator.hpp>
#include <boost/spirit/include/phoenix_fusion.hpp>
#include <boost/fusion/include/adapt_struct.hpp>
#include <boost/spirit/include/lex_lexertl.hpp>
// We have to use the copy of pheonix within spirit if it exists, as the
// standalone copy has different header guards
#ifdef HAVE_BOOST_SPIRIT_HOME_PHOENIX_VERSION_HPP
#include <boost/spirit/home/phoenix/statement.hpp>
#else
#include <boost/phoenix/statement.hpp>
#endif
BOOST_FUSION_ADAPT_STRUCT(
agi::Color,
(unsigned char, r)
(unsigned char, g)
(unsigned char, b)
(unsigned char, a)
)
namespace {
using namespace boost::spirit;
/// Convert a abgr value in an int or unsigned int to an agi::Color
struct unpack_colors : public boost::static_visitor<agi::Color> {
template<typename T> struct result { typedef agi::Color type; };
template<class T> agi::Color operator()(T arg) const {
return boost::apply_visitor(*this, arg);
}
agi::Color operator()(int abgr) const { return (*this)((unsigned)abgr); }
agi::Color operator()(unsigned int abgr) const {
return agi::Color(abgr & 0xFF, (abgr >> 8) & 0xFF, (abgr >> 16) & 0xFF, (abgr >> 24) & 0xFF);
}
};
template<typename Iterator>
struct color_grammar : qi::grammar<Iterator, agi::Color()> {
qi::rule<Iterator, agi::Color()> color;
qi::rule<Iterator, agi::Color()> css_color;
qi::rule<Iterator, agi::Color()> ass_color;
qi::rule<Iterator, unsigned char()> rgb_component;
qi::rule<Iterator, unsigned char()> rgb_percent;
qi::rule<Iterator, unsigned char()> hex_byte;
qi::rule<Iterator, unsigned char()> hex_char;
qi::rule<Iterator> comma;
qi::rule<Iterator> blank;
#define HEX_PARSER(type, len) qi::uint_parser<unsigned type, 16, len, len>()
color_grammar() : color_grammar::base_type(color) {
color = css_color | ass_color;
boost::phoenix::function<unpack_colors> unpack;
// Order is important here; int_ (for SSA) needs to come before the ASS
// option as decimal numbers of the appropriate length are also valid
// hex numbers
// ASS with alpha needs to come before ASS without alpha for the same
// reason
ass_color = (
int_
| -lit('&') >> -(lit('H') | lit('h')) >> (HEX_PARSER(int, 8) | HEX_PARSER(int, 6)) >> -lit('&')
)[_val = unpack(_1)] >> blank >> qi::eoi;
css_color
= "rgb(" >> blank >> rgb_component >> comma >> rgb_component >> comma >> rgb_component >> blank >> ')'
| '#' >> hex_byte >> hex_byte >> hex_byte
| '#' >> hex_char >> hex_char >> hex_char
;
hex_char = HEX_PARSER(int, 1)[_val = _1 * 16 + _1];
hex_byte = HEX_PARSER(int, 2);
rgb_component = qi::uint_parser<unsigned char, 10, 1, 3>();
comma = *qi::blank >> "," >> *qi::blank;
blank = *qi::blank;
}
};
template <typename Lexer>
struct dialogue_tokens final : lex::lexer<Lexer> {
int paren_depth;
template<typename KT>
void init(KT &&kara_templater) {
using lex::_state;
using lex::char_;
using lex::string;
using namespace boost::phoenix;
using namespace agi::ass::DialogueTokenType;
this->self
= string("\\\\[nNh]", LINE_BREAK)
| char_('{', OVR_BEGIN)[ref(paren_depth) = 0, _state = "OVR"]
| kara_templater
| string(".", TEXT)
;
this->self("OVR")
= char_('{', ERROR)
| char_('}', OVR_END)[_state = "INITIAL"]
| char_('\\', TAG_START)[_state = "TAGSTART"]
| string("\\s+", WHITESPACE)
| kara_templater
| string(".", COMMENT)
;
this->self("ARG")
= char_('{', ERROR)
| char_('}', OVR_END)[_state = "INITIAL"]
| char_('(', OPEN_PAREN)[++ref(paren_depth)]
| char_(')', CLOSE_PAREN)[--ref(paren_depth), if_(ref(paren_depth) == 0)[_state = "OVR"]]
| char_('\\', TAG_START)[_state = "TAGSTART"]
| char_(',', ARG_SEP)
| string("\\s+", WHITESPACE)
| string(".", ARG)
| kara_templater
;
this->self("TAGSTART")
= string("\\s+", WHITESPACE)
| string("r|fn", TAG_NAME)[_state = "ARG"]
| char_('\\', TAG_START)
| char_('}', OVR_END)[_state = "INITIAL"]
| string("[a-z0-9]", TAG_NAME)[_state = "TAGNAME"]
| string(".", COMMENT)[_state = "OVR"]
| kara_templater
;
this->self("TAGNAME")
= string("[a-z]+", TAG_NAME)[_state = "ARG"]
| char_('(', OPEN_PAREN)[++ref(paren_depth), _state = "ARG"]
| char_(')', CLOSE_PAREN)[--ref(paren_depth), if_(ref(paren_depth) == 0)[_state = "OVR"]]
| char_('}', OVR_END)[_state = "INITIAL"]
| char_('\\', TAG_START)[_state = "TAGSTART"]
| string(".", ARG)[_state = "ARG"]
| kara_templater
;
}
dialogue_tokens(bool karaoke_templater) : paren_depth(0) {
using lex::string;
using namespace agi::ass::DialogueTokenType;
if (karaoke_templater)
init(string("![^!]*!", KARAOKE_TEMPLATE) | string("\\$[A-Za-z_]+", KARAOKE_VARIABLE));
else
init(lex::char_('\1'));
}
};
template<typename Parser, typename T>
bool do_try_parse(std::string const& str, Parser parser, T *out) {
using namespace boost::spirit::qi;
T res;
char const* cstr = str.c_str();
bool parsed = parse(cstr, cstr + str.size(), parser, res);
if (parsed && cstr == &str[str.size()]) {
*out = res;
return true;
}
return false;
}
}
namespace agi {
namespace parser {
bool parse(Color &dst, std::string const& str) {
std::string::const_iterator begin = str.begin();
bool parsed = parse(begin, str.end(), color_grammar<std::string::const_iterator>(), dst);
return parsed && begin == str.end();
}
}
namespace ass {
std::vector<DialogueToken> TokenizeDialogueBody(std::string const& str, bool karaoke_templater) {
dialogue_tokens<lex::lexertl::actor_lexer<>> tokenizer(karaoke_templater);
char const* first = str.c_str();
char const* last = first + str.size();
std::vector<DialogueToken> data;
auto it = tokenizer.begin(first, last), end = tokenizer.end();
for (; it != end && token_is_valid(*it); ++it) {
int id = it->id();
ptrdiff_t len = it->value().end() - it->value().begin();
assert(len > 0);
if (data.empty() || data.back().type != id)
data.push_back(DialogueToken(id, len));
else
data.back().length += len;
}
return data;
}
}
namespace util {
// from util.h
bool try_parse(std::string const& str, double *out) {
return do_try_parse(str, boost::spirit::qi::double_, out);
}
bool try_parse(std::string const& str, int *out) {
return do_try_parse(str, boost::spirit::qi::int_, out);
}
}
}