// Formatting library for C++ - scanning API proof of concept // // Copyright (c) 2019 - present, Victor Zverovich // All rights reserved. // // For the license information refer to format.h. #include #include "fmt/format.h" FMT_BEGIN_NAMESPACE template struct scanner { // A deleted default constructor indicates a disabled scanner. scanner() = delete; }; class scan_parse_context { private: string_view format_; public: using iterator = string_view::iterator; explicit FMT_CONSTEXPR scan_parse_context(string_view format) : format_(format) {} FMT_CONSTEXPR iterator begin() const { return format_.begin(); } FMT_CONSTEXPR iterator end() const { return format_.end(); } void advance_to(iterator it) { format_.remove_prefix(internal::to_unsigned(it - begin())); } }; struct scan_context { private: string_view input_; public: using iterator = const char*; explicit scan_context(string_view input) : input_(input) {} iterator begin() const { return input_.data(); } iterator end() const { return begin() + input_.size(); } void advance_to(iterator it) { input_.remove_prefix(internal::to_unsigned(it - begin())); } }; namespace internal { enum class scan_type { none_type, int_type, uint_type, long_long_type, ulong_long_type, string_type, string_view_type, custom_type }; struct custom_scan_arg { void* value; void (*scan)(void* arg, scan_parse_context& parse_ctx, scan_context& ctx); }; class scan_arg { public: scan_type type; union { int* int_value; unsigned* uint_value; long long* long_long_value; unsigned long long* ulong_long_value; std::string* string; fmt::string_view* string_view; custom_scan_arg custom; // TODO: more types }; scan_arg() : type(scan_type::none_type) {} scan_arg(int& value) : type(scan_type::int_type), int_value(&value) {} scan_arg(unsigned& value) : type(scan_type::uint_type), uint_value(&value) {} scan_arg(long long& value) : type(scan_type::long_long_type), long_long_value(&value) {} scan_arg(unsigned long long& value) : type(scan_type::ulong_long_type), ulong_long_value(&value) {} scan_arg(std::string& value) : type(scan_type::string_type), string(&value) {} scan_arg(fmt::string_view& value) : type(scan_type::string_view_type), string_view(&value) {} template scan_arg(T& value) : type(scan_type::custom_type) { custom.value = &value; custom.scan = scan_custom_arg; } private: template static void scan_custom_arg(void* arg, scan_parse_context& parse_ctx, scan_context& ctx) { scanner s; parse_ctx.advance_to(s.parse(parse_ctx)); ctx.advance_to(s.scan(*static_cast(arg), ctx)); } }; } // namespace internal struct scan_args { int size; const internal::scan_arg* data; template scan_args(const std::array& store) : size(N), data(store.data()) { static_assert(N < INT_MAX, "too many arguments"); } }; namespace internal { struct scan_handler : error_handler { private: scan_parse_context parse_ctx_; scan_context scan_ctx_; scan_args args_; int next_arg_id_; scan_arg arg_; template T read_uint() { T value = 0; auto it = scan_ctx_.begin(), end = scan_ctx_.end(); while (it != end) { char c = *it++; if (c < '0' || c > '9') on_error("invalid input"); // TODO: check overflow value = value * 10 + (c - '0'); } scan_ctx_.advance_to(it); return value; } template T read_int() { T value = 0; auto it = scan_ctx_.begin(), end = scan_ctx_.end(); bool negative = it != end && *it == '-'; if (negative) ++it; scan_ctx_.advance_to(it); value = read_uint::type>(); if (negative) value = -value; return value; } public: scan_handler(string_view format, string_view input, scan_args args) : parse_ctx_(format), scan_ctx_(input), args_(args), next_arg_id_(0) {} const char* pos() const { return scan_ctx_.begin(); } void on_text(const char* begin, const char* end) { auto size = end - begin; auto it = scan_ctx_.begin(); if (it + size > scan_ctx_.end() || !std::equal(begin, end, it)) on_error("invalid input"); scan_ctx_.advance_to(it + size); } void on_arg_id() { on_arg_id(next_arg_id_++); } void on_arg_id(unsigned id) { if (id >= args_.size) on_error("argument index out of range"); arg_ = args_.data[id]; } void on_arg_id(string_view) { on_error("invalid format"); } void on_replacement_field(const char*) { auto it = scan_ctx_.begin(), end = scan_ctx_.end(); switch (arg_.type) { case scan_type::int_type: *arg_.int_value = read_int(); break; case scan_type::uint_type: *arg_.uint_value = read_uint(); break; case scan_type::long_long_type: *arg_.long_long_value = read_int(); break; case scan_type::ulong_long_type: *arg_.ulong_long_value = read_uint(); break; case scan_type::string_type: while (it != end && *it != ' ') arg_.string->push_back(*it++); scan_ctx_.advance_to(it); break; case scan_type::string_view_type: { auto s = it; while (it != end && *it != ' ') ++it; *arg_.string_view = fmt::string_view(s, it - s); scan_ctx_.advance_to(it); break; } default: assert(false); } } const char* on_format_specs(const char* begin, const char*) { if (arg_.type != scan_type::custom_type) return begin; parse_ctx_.advance_to(begin); arg_.custom.scan(arg_.custom.value, parse_ctx_, scan_ctx_); return parse_ctx_.begin(); } }; } // namespace internal template std::array make_scan_args(Args&... args) { return std::array{args...}; } string_view::iterator vscan(string_view input, string_view format_str, scan_args args) { internal::scan_handler h(format_str, input, args); internal::parse_format_string(format_str, h); return input.begin() + (h.pos() - &*input.begin()); } template string_view::iterator scan(string_view input, string_view format_str, Args&... args) { return vscan(input, format_str, make_scan_args(args...)); } FMT_END_NAMESPACE