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feat: guess possible format errors

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ToruNiina 2019-06-16 17:32:29 +09:00
parent b2daf916b3
commit 62e8d58d8d
1 changed files with 113 additions and 17 deletions
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130
toml/parser.hpp
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@ -1410,41 +1410,132 @@ parse_inline_table(location<Container>& loc)
}
template<typename Container>
value_t guess_number_type(const location<Container>& l)
result<value_t, std::string> guess_number_type(const location<Container>& l)
{
// This function tries to find some (common) mistakes by checking characters
// that follows the last character of a value. But it is often difficult
// because some non-newline characters can appear after a value. E.g.
// spaces, tabs, commas (in an array or inline table), closing brackets
// (of an array or inline table), comment-sign (#). Since this function
// does not parse further, those characters are always allowed to be there.
location<Container> loc = l;
if(lex_offset_date_time::invoke(loc)) {return value_t::OffsetDatetime;}
if(lex_offset_date_time::invoke(loc)) {return ok(value_t::OffsetDatetime);}
loc.reset(l.iter());
if(lex_local_date_time::invoke(loc)) {return value_t::LocalDatetime;}
if(lex_local_date_time::invoke(loc))
{
// bad offset may appear after this.
if(loc.iter() != loc.end() && (*loc.iter() == '+' || *loc.iter() == '-'
|| *loc.iter() == 'Z' || *loc.iter() == 'z'))
{
return err(format_underline("[error] bad offset: should be [+-]HH:MM or Z",
{{std::addressof(l), "[+-]HH:MM or Z"}},
{"OK: +09:00, -05:30", "NG: +9:00, -5:30"}));
}
return ok(value_t::LocalDatetime);
}
loc.reset(l.iter());
if(lex_local_date::invoke(loc)) {return value_t::LocalDate;}
if(lex_local_date::invoke(loc))
{
// bad time may appear after this.
// A space is allowed as a delimiter between local time. But there are
// both cases in which a space becomes valid or invalid.
// - invalid: 2019-06-16 7:00:00
// - valid : 2019-06-16 07:00:00
if(loc.iter() != loc.end())
{
const auto c = *loc.iter();
if(c == 'T' || c == 't' || ('0' <= c && c <= '9'))
{
return err(format_underline("[error] bad time: should be HH:MM:SS.subsec",
{{std::addressof(l), "HH:MM:SS.subsec"}},
{"OK: 1979-05-27T07:32:00, 1979-05-27 07:32:00.999999",
"NG: 1979-05-27T7:32:00, 1979-05-27 7:32"}));
}
if(c == ' ' && std::next(loc.iter()) != loc.end() &&
('0' <= *std::next(loc.iter()) && *std::next(loc.iter())<= '9'))
{
return err(format_underline("[error] bad time: should be HH:MM:SS.subsec",
{{std::addressof(l), "HH:MM:SS.subsec"}},
{"OK: 1979-05-27T07:32:00, 1979-05-27 07:32:00.999999",
"NG: 1979-05-27T7:32:00, 1979-05-27 7:32"}));
}
}
return ok(value_t::LocalDate);
}
loc.reset(l.iter());
if(lex_local_time::invoke(loc)) {return value_t::LocalTime;}
if(lex_local_time::invoke(loc)) {return ok(value_t::LocalTime);}
loc.reset(l.iter());
if(lex_float::invoke(loc)) {return value_t::Float;}
if(lex_float::invoke(loc))
{
if(loc.iter() != loc.end() && *loc.iter() == '_')
{
return err(format_underline("[error] bad float: `_` should be surrounded by digits",
{{std::addressof(l), "here"}},
{"OK: +1.0, -2e-2, 3.141_592_653_589, inf, nan",
"NG: _1.0, 1.0_, 1_.0, 1.0__0"}));
}
return ok(value_t::Float);
}
loc.reset(l.iter());
return value_t::Integer;
if(lex_integer::invoke(loc))
{
if(loc.iter() != loc.end())
{
const auto c = *loc.iter();
if(c == '_')
{
return err(format_underline("[error] bad integer: `_` should be surrounded by digits",
{{std::addressof(l), "here"}},
{"OK: -42, 1_000, 1_2_3_4_5, 0xCOFFEE, 0b0010, 0o755",
"NG: 1__000, 0123"}));
}
if('0' <= c && c <= '9')
{
return err(format_underline("[error] bad integer: leading zero",
{{std::addressof(l), "here"}},
{"OK: -42, 1_000, 1_2_3_4_5, 0xCOFFEE, 0b0010, 0o755",
"NG: 1__000, 0123"}));
}
if(c == ':' || c == '-')
{
return err(format_underline("[error] bad datetime: invalid format",
{{std::addressof(l), "here"}},
{"OK: 1979-05-27T07:32:00-07:00, 1979-05-27 07:32:00.999999Z",
"NG: 1979-05-27T7:32:00-7:00, 1979-05-27 7:32-00:30"}));
}
if(c == '.' || c == 'e' || c == 'E')
{
return err(format_underline("[error] bad float: invalid format",
{{std::addressof(l), "here"}},
{"OK: +1.0, -2e-2, 3.141_592_653_589, inf, nan",
"NG: _1.0, 1.0_, 1_.0, 1.0__0"}));
}
}
return ok(value_t::Integer);
}
return err(format_underline("[error] bad format: unknown value appeared",
{{std::addressof(l), "here"}}));
}
template<typename Container>
value_t guess_value_type(const location<Container>& loc)
result<value_t, std::string> guess_value_type(const location<Container>& loc)
{
switch(*loc.iter())
{
case '"' : {return value_t::String; }
case '\'': {return value_t::String; }
case 't' : {return value_t::Boolean;}
case 'f' : {return value_t::Boolean;}
case '[' : {return value_t::Array; }
case '{' : {return value_t::Table; }
case 'i' : {return value_t::Float; } // inf.
case 'n' : {return value_t::Float; } // nan.
case '"' : {return ok(value_t::String); }
case '\'': {return ok(value_t::String); }
case 't' : {return ok(value_t::Boolean);}
case 'f' : {return ok(value_t::Boolean);}
case '[' : {return ok(value_t::Array); }
case '{' : {return ok(value_t::Table); }
case 'i' : {return ok(value_t::Float); } // inf.
case 'n' : {return ok(value_t::Float); } // nan.
default : {return guess_number_type(loc);}
}
}
@ -1459,7 +1550,12 @@ result<value, std::string> parse_value(location<Container>& loc)
{{std::addressof(loc), ""}}));
}
switch(guess_value_type(loc))
const auto type = guess_value_type(loc);
if(!type)
{
return err(type.unwrap_err());
}
switch(type.unwrap())
{
case value_t::Boolean : {return parse_boolean(loc); }
case value_t::Integer : {return parse_integer(loc); }