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#include <iostream>
#include <optional>
#include <type_traits>
#include <vector>
#include <openvic-dataloader/Error.hpp>
#include <openvic-dataloader/NodeLocation.hpp>
#include <openvic-dataloader/csv/LineObject.hpp>
#include <openvic-dataloader/csv/Parser.hpp>
#include <openvic-dataloader/detail/Encoding.hpp>
#include <openvic-dataloader/detail/OStreamOutputIterator.hpp>
#include <openvic-dataloader/detail/Utility.hpp>
#include <lexy/action/parse.hpp>
#include <lexy/encoding.hpp>
#include <lexy/input/buffer.hpp>
#include <lexy/input/file.hpp>
#include <dryad/node.hpp>
#include "CsvGrammar.hpp"
#include "CsvParseState.hpp"
#include "detail/NullBuff.hpp"
#include "detail/ParseHandler.hpp"
using namespace ovdl;
using namespace ovdl::csv;
/// ParseHandler ///
struct Parser::ParseHandler final : detail::BasicFileParseHandler<CsvParseState> {
template<typename Node>
std::optional<DiagnosticLogger::error_range> parse() {
auto result = [&] {
switch (parse_state().encoding()) {
using enum detail::Encoding;
case Ascii:
case Utf8:
return lexy::parse<Node>(buffer<lexy::utf8_char_encoding>(), parse_state(), parse_state().logger().error_callback());
case Unknown:
case Windows1251:
case Windows1252:
return lexy::parse<Node>(buffer<lexy::default_encoding>(), parse_state(), parse_state().logger().error_callback());
default:
ovdl::detail::unreachable();
}
}();
if (!result) {
return this->parse_state().logger().get_errors();
}
_lines = LEXY_MOV(result).value();
return std::nullopt;
}
std::vector<csv::LineObject>& get_lines() {
return _lines;
}
Parser::error_range get_errors() {
using iterator = typename decltype(std::declval<const error::Root*>()->children())::iterator;
if (!is_valid())
return dryad::make_node_range<error::Error>(iterator::from_ptr(nullptr), iterator::from_ptr(nullptr));
return parse_state().logger().get_errors();
}
private:
std::vector<csv::LineObject> _lines;
};
/// ParserHandler ///
Parser::Parser()
: _parse_handler(std::make_unique<ParseHandler>()) {
set_error_log_to_null();
}
Parser::Parser(std::basic_ostream<char>& error_stream)
: _parse_handler(std::make_unique<ParseHandler>()) {
set_error_log_to(error_stream);
}
Parser::Parser(Parser&&) = default;
Parser& Parser::operator=(Parser&&) = default;
Parser::~Parser() = default;
Parser Parser::from_buffer(const char* data, std::size_t size, std::optional<detail::Encoding> encoding_fallback) {
Parser result;
return std::move(result.load_from_buffer(data, size, encoding_fallback));
}
Parser Parser::from_buffer(const char* start, const char* end, std::optional<detail::Encoding> encoding_fallback) {
Parser result;
return std::move(result.load_from_buffer(start, end, encoding_fallback));
}
Parser Parser::from_string(const std::string_view string, std::optional<detail::Encoding> encoding_fallback) {
Parser result;
return std::move(result.load_from_string(string, encoding_fallback));
}
Parser Parser::from_file(const char* path, std::optional<detail::Encoding> encoding_fallback) {
Parser result;
return std::move(result.load_from_file(path, encoding_fallback));
}
Parser Parser::from_file(const std::filesystem::path& path, std::optional<detail::Encoding> encoding_fallback) {
Parser result;
return std::move(result.load_from_file(path, encoding_fallback));
}
///
/// @brief Executes a function on _buffer_handler that is expected to load a buffer
///
/// Expected Use:
/// @code {.cpp}
/// _run_load_func(&BufferHandler::<load_function>, <arguments>);
/// @endcode
///
/// @tparam Type
/// @tparam Args
/// @param func
/// @param args
///
template<typename... Args>
constexpr void Parser::_run_load_func(detail::LoadCallback<ParseHandler, Args...> auto func, Args... args) {
_has_fatal_error = false;
auto error = func(_parse_handler.get(), std::forward<Args>(args)...);
auto error_message = _parse_handler->make_error_from(error);
if (!error_message.empty()) {
_has_error = true;
_has_fatal_error = true;
_parse_handler->parse_state().logger().template create_log<error::BufferError>(DiagnosticLogger::DiagnosticKind::error, fmt::runtime(error_message));
}
if (has_error() && &_error_stream.get() != &detail::cnull) {
print_errors_to(_error_stream.get());
}
}
Parser& Parser::load_from_buffer(const char* data, std::size_t size, std::optional<detail::Encoding> encoding_fallback) {
// Type can't be deduced?
_run_load_func(std::mem_fn(&ParseHandler::load_buffer_size), data, size, encoding_fallback);
return *this;
}
Parser& Parser::load_from_buffer(const char* start, const char* end, std::optional<detail::Encoding> encoding_fallback) {
// Type can't be deduced?
_run_load_func(std::mem_fn(&ParseHandler::load_buffer), start, end, encoding_fallback);
return *this;
}
Parser& Parser::load_from_string(const std::string_view string, std::optional<detail::Encoding> encoding_fallback) {
return load_from_buffer(string.data(), string.size(), encoding_fallback);
}
Parser& Parser::load_from_file(const char* path, std::optional<detail::Encoding> encoding_fallback) {
set_file_path(path);
// Type can be deduced??
_run_load_func(std::mem_fn(&ParseHandler::load_file), get_file_path().data(), encoding_fallback);
return *this;
}
Parser& Parser::load_from_file(const std::filesystem::path& path, std::optional<detail::Encoding> encoding_fallback) {
return load_from_file(path.string().c_str(), encoding_fallback);
}
bool Parser::parse_csv(bool handle_strings) {
if (!_parse_handler->is_valid()) {
return false;
}
std::optional<Parser::error_range> errors = [&] {
if (handle_strings)
return _parse_handler->template parse<csv::grammar::strings::SemiColonFile>();
else
return _parse_handler->template parse<csv::grammar::SemiColonFile>();
}();
_has_error = _parse_handler->parse_state().logger().errored();
_has_warning = _parse_handler->parse_state().logger().warned();
if (errors && !errors->empty()) {
_has_error = true;
_has_fatal_error = true;
if (&_error_stream.get() != &detail::cnull) {
print_errors_to(_error_stream);
}
return false;
}
return true;
}
const std::vector<csv::LineObject>& Parser::get_lines() const {
return _parse_handler->get_lines();
}
typename Parser::error_range Parser::get_errors() const {
return _parse_handler->get_errors();
}
const FilePosition Parser::get_error_position(const error::Error* error) const {
if (!error || !error->is_linked_in_tree()) {
return {};
}
auto err_location = _parse_handler->parse_state().logger().location_of(error);
if (err_location.is_synthesized()) {
return {};
}
// TODO: Remove reinterpret_cast
// WARNING: This almost certainly breaks on utf16 and utf32 encodings, luckily we don't parse in that format
// This is purely to silence the node_location errors because char8_t is useless
#define REINTERPRET_IT(IT) reinterpret_cast<const std::decay_t<decltype(buffer)>::encoding::char_type*>((IT))
return _parse_handler->parse_state().file().visit_buffer(
[&](auto&& buffer) -> FilePosition {
auto loc_begin = lexy::get_input_location(buffer, REINTERPRET_IT(err_location.begin()));
FilePosition result { loc_begin.line_nr(), loc_begin.line_nr(), loc_begin.column_nr(), loc_begin.column_nr() };
if (err_location.begin() < err_location.end()) {
auto loc_end = lexy::get_input_location(buffer, REINTERPRET_IT(err_location.end()), loc_begin.anchor());
result.end_line = loc_end.line_nr();
result.end_column = loc_end.column_nr();
}
return result;
});
#undef REINTERPRET_IT
}
void Parser::print_errors_to(std::basic_ostream<char>& stream) const {
auto errors = get_errors();
if (errors.empty()) return;
for (const auto error : errors) {
dryad::visit_tree(
error,
[&](const error::BufferError* buffer_error) {
stream << "buffer error: " << buffer_error->message() << '\n';
},
[&](dryad::child_visitor<error::ErrorKind> visitor, const error::AnnotatedError* annotated_error) {
stream << annotated_error->message() << '\n';
auto annotations = annotated_error->annotations();
for (auto annotation : annotations) {
visitor(annotation);
}
},
[&](const error::PrimaryAnnotation* primary) {
stream << primary->message() << '\n';
},
[&](const error::SecondaryAnnotation* secondary) {
stream << secondary->message() << '\n';
});
}
}
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