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// Copyright (c) 2020 Egor Tensin <Egor.Tensin@gmail.com>
// This file is part of the "math-server" project.
// For details, see https://github.com/egor-tensin/math-server.
// Distributed under the MIT License.
#include "../error.hpp"
#include "../token_type.hpp"
#include <boost/regex.hpp>
#include <cstddef>
#include <exception>
#include <functional>
#include <optional>
#include <regex>
#include <string>
#include <string_view>
namespace math::server::lexer::details {
namespace {
std::cmatch std_regex_search(const std::string_view& input, const std::regex& regex) {
std::cmatch match;
{
const auto begin = input.data();
const auto end = begin + input.length();
std::regex_search(begin, end, match, regex);
}
return match;
}
boost::cmatch boost_regex_search(const std::string_view& input, const boost::regex& regex) {
boost::cmatch match;
{
const auto begin = input.data();
const auto end = begin + input.length();
boost::regex_search(begin, end, match, regex);
}
return match;
}
// CMatch is either std::cmatch or boost::cmatch.
template <typename CMatch>
void check_exponent(const CMatch& match) {
// If we have the numeric part of a number followed by 'e' and no digits,
// 1) that 'e' definitely belongs to this number token,
// 2) the user forgot to type in the required digits.
const auto& exponent = match[1];
const auto& abs_power = match[2];
if (exponent.matched && abs_power.matched && abs_power.length() == 0) {
throw LexerError{"exponent has no digits: " + match[0].str()};
}
}
// This is a hacky attempt to describe a C-like grammar for floating-point
// numbers using a regex (the tests seem to pass though).
// A proper NFA would be better, I guess.
const std::string_view NUMBER_REGEX = R"REGEX(^(?:\d+(?:\.\d*)?|\.\d+)(e[+-]?(\d*))?)REGEX";
std::string_view std_match_number(const std::string_view& input) {
static constexpr auto flags =
std::regex_constants::ECMAScript |
std::regex_constants::icase;
static const std::regex number_regex{NUMBER_REGEX.data(), NUMBER_REGEX.length(), flags};
const auto match = std_regex_search(input, number_regex);
if (match.empty()) {
return {};
}
check_exponent(match);
return {match[0].first, static_cast<std::size_t>(match[0].length())};
}
std::string_view boost_match_number(const std::string_view& input) {
static const boost::regex number_regex{NUMBER_REGEX.data(), NUMBER_REGEX.length(), boost::regex::icase};
const auto match = boost_regex_search(input, number_regex);
if (match.empty()) {
return {};
}
check_exponent(match);
return {match[0].first, static_cast<std::size_t>(match[0].length())};
}
std::string_view match_number(const std::string_view& input) {
return std_match_number(input);
}
using NumberMatcher = std::function<std::string_view (const std::string_view&)>;
std::optional<double> parse_number(const std::string_view& input, const NumberMatcher& match, std::string_view& token) {
const auto view = match(input);
if (!view.data()) {
return {};
}
try {
const auto result = std::stod(std::string{view});
token = view;
return result;
} catch (const std::exception&) {
throw LexerError{"internal: couldn't parse number from: " + std::string{view}};
}
return {};
}
bool starts_with(const std::string_view& a, const std::string_view& b) noexcept {
return a.length() >= b.length()
&& a.compare(0, b.length(), b) == 0;
}
}
namespace impl {
std::optional<double> std_parse_number(const std::string_view& input, std::string_view& token) {
return parse_number(input, &std_match_number, token);
}
std::optional<double> std_parse_number(const std::string_view& input) {
std::string_view token;
return std_parse_number(input, token);
}
std::optional<double> boost_parse_number(const std::string_view& input, std::string_view& token) {
return parse_number(input, &boost_match_number, token);
}
std::optional<double> boost_parse_number(const std::string_view& input) {
std::string_view token;
return boost_parse_number(input, token);
}
}
std::optional<double> parse_number(const std::string_view& input, std::string_view& token) {
return impl::std_parse_number(input, token);
}
std::optional<double> parse_number(const std::string_view& input) {
std::string_view token;
return parse_number(input, token);
}
std::optional<token::Type> parse_const_token(const std::string_view& input, std::string_view& token) {
for (const auto type : token::const_tokens()) {
const auto str = token::type_to_string(type);
if (starts_with(input, str)) {
token = std::string_view(input.data(), str.length());
return {type};
}
}
return {};
}
std::optional<token::Type> parse_const_token(const std::string_view& input) {
std::string_view token;
return parse_const_token(input, token);
}
std::string_view parse_whitespace(const std::string_view& input) {
static const std::regex ws_regex{R"(^\s+)"};
std::cmatch match;
{
const auto begin = input.data();
const auto end = begin + input.length();
if (std::regex_search(begin, end, match, ws_regex)) {
return std::string_view(match[0].first, match[0].length());
}
}
return {};
}
}
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