/* This file is part of TON Blockchain Library. TON Blockchain Library is free software: you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation, either version 2 of the License, or (at your option) any later version. TON Blockchain Library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with TON Blockchain Library. If not, see . Copyright 2017-2019 Telegram Systems LLP */ #include "tl_writer_h.h" #include #include namespace td { std::string TD_TL_writer_h::forward_declaration(std::string type) { std::string prefix; std::string suffix; do { std::size_t pos = type.find("::"); if (pos == std::string::npos) { return prefix + "class " + type + ";\n" + suffix; } std::string namespace_name = type.substr(0, pos); type = type.substr(pos + 2); prefix += "namespace " + namespace_name + " {\n"; suffix += "} // namespace " + namespace_name + "\n"; } while (true); assert(false); return ""; } std::string TD_TL_writer_h::gen_output_begin() const { std::string ext_include_str; for (auto &it : ext_include) { ext_include_str += "#include " + it + "\n"; } if (!ext_include_str.empty()) { ext_include_str += "\n"; } std::string ext_forward_declaration; for (auto &storer_name : get_storers()) { ext_forward_declaration += forward_declaration(storer_name); } for (auto &parser_name : get_parsers()) { ext_forward_declaration += forward_declaration(parser_name); } if (!ext_forward_declaration.empty()) { ext_forward_declaration += "\n"; } return "#pragma once\n\n" "#include \"tl/TlObject.h\"\n\n" "#include \"td/utils/int_types.h\"\n\n" + ext_include_str + "#include \n" "#include \n" "#include \n" "#include \n\n" + ext_forward_declaration + "namespace ton {\n" + "namespace " + tl_name + "{\n" + "using BaseObject = ::ton::TlObject;\n\n" "template \n" "using object_ptr = ::ton::tl_object_ptr;\n\n" "template \n" "object_ptr make_object(Args &&... args) {\n" " return object_ptr(new Type(std::forward(args)...));\n" "}\n\n" "template \n" "object_ptr move_object_as(FromType &&from) {\n" " return object_ptr(static_cast(from.release()));\n" "}\n\n" "std::string to_string(const BaseObject &value);\n\n" "template \n" "std::string to_string(const object_ptr &value) {\n" " if (value == nullptr) {\n" " return \"null\";\n" " }\n" "\n" " return to_string(*value);\n" "}\n\n"; } std::string TD_TL_writer_h::gen_output_end() const { return "} // namespace " + tl_name + "\n" "} // namespace ton\n"; } std::string TD_TL_writer_h::gen_field_definition(const std::string &class_name, const std::string &type_name, const std::string &field_name) const { return " " + type_name + (type_name.empty() || type_name[type_name.size() - 1] == ' ' ? "" : " ") + field_name + ";\n"; } std::string TD_TL_writer_h::gen_vars(const tl::tl_combinator *t, const tl::tl_tree_type *result_type, std::vector &vars) const { return ""; } std::string TD_TL_writer_h::gen_function_vars(const tl::tl_combinator *t, std::vector &vars) const { for (std::size_t i = 0; i < vars.size(); i++) { vars[i].index = static_cast(i); vars[i].is_stored = false; vars[i].is_type = false; vars[i].parameter_num = -1; vars[i].function_arg_num = -1; } for (std::size_t i = 0; i < t->args.size(); i++) { const tl::arg &a = t->args[i]; int arg_type = a.type->get_type(); if (arg_type == tl::NODE_TYPE_VAR_TYPE) { const tl::tl_tree_var_type *var_type = static_cast(a.type); assert(a.flags & tl::FLAG_EXCL); assert(var_type->var_num >= 0); assert(!vars[var_type->var_num].is_type); vars[var_type->var_num].is_type = true; vars[var_type->var_num].function_arg_num = static_cast(i); } } std::string res; for (std::size_t i = 0; i < vars.size(); i++) { if (!vars[i].is_type) { assert(vars[i].parameter_num == -1); assert(vars[i].function_arg_num == -1); assert(vars[i].is_stored == false); res += " mutable " + gen_class_name("#") + " " + gen_var_name(vars[i]) + ";\n"; } } return res; } std::string TD_TL_writer_h::gen_flags_definitions(const tl::tl_combinator *t) const { std::vector> flags; for (std::size_t i = 0; i < t->args.size(); i++) { const tl::arg &a = t->args[i]; if (a.exist_var_num != -1) { auto name = a.name; for (auto &c : name) { c = to_upper(c); } flags.push_back(std::make_pair(name, a.exist_var_bit)); } } std::string res; if (!flags.empty()) { res += " enum Flags : std::int32_t {"; bool first = true; for (auto &p : flags) { if (first) { first = false; } else { res += ", "; } res += p.first + "_MASK = " + int_to_string(1 << p.second); } res += "};\n"; } return res; } std::string TD_TL_writer_h::gen_uni(const tl::tl_tree_type *result_type, std::vector &vars, bool check_negative) const { return ""; } std::string TD_TL_writer_h::gen_constructor_id_store(std::int32_t id, int storer_type) const { return ""; } std::string TD_TL_writer_h::gen_field_fetch(int field_num, const tl::arg &a, std::vector &vars, bool flat, int parser_type) const { return ""; } std::string TD_TL_writer_h::gen_field_store(const tl::arg &a, std::vector &vars, bool flat, int storer_type) const { return ""; } std::string TD_TL_writer_h::gen_type_fetch(const std::string &field_name, const tl::tl_tree_type *tree_type, const std::vector &vars, int parser_type) const { return ""; } std::string TD_TL_writer_h::gen_type_store(const std::string &field_name, const tl::tl_tree_type *tree_type, const std::vector &vars, int storer_type) const { return ""; } std::string TD_TL_writer_h::gen_var_type_fetch(const tl::arg &a) const { assert(false); return ""; } std::string TD_TL_writer_h::gen_forward_class_declaration(const std::string &class_name, bool is_proxy) const { return "class " + class_name + ";\n\n"; } std::string TD_TL_writer_h::gen_class_begin(const std::string &class_name, const std::string &base_class_name, bool is_proxy) const { return "class " + class_name + (!is_proxy ? " final " : "") + ": public " + base_class_name + " {\n" " public:\n"; } std::string TD_TL_writer_h::gen_class_end() const { return "};\n\n"; } std::string TD_TL_writer_h::gen_class_alias(const std::string &class_name, const std::string &alias_name) const { return ""; // return "typedef " + class_name + " " + alias_name + ";\n\n\n"; } std::string TD_TL_writer_h::gen_get_id(const std::string &class_name, std::int32_t id, bool is_proxy) const { if (is_proxy) { if (class_name == gen_base_tl_class_name()) { return "\n virtual std::int32_t get_id() const = 0;\n"; } return ""; } return "\n" " static const std::int32_t ID = " + int_to_string(id) + ";\n" " std::int32_t get_id() const final {\n" " return ID;\n" " }\n"; } std::string TD_TL_writer_h::gen_function_result_type(const tl::tl_tree *result) const { assert(result->get_type() == tl::NODE_TYPE_TYPE); const tl::tl_tree_type *result_type = static_cast(result); std::string fetched_type = gen_type_name(result_type); if (!fetched_type.empty() && fetched_type[fetched_type.size() - 1] == ' ') { fetched_type.pop_back(); } return "\n" " using ReturnType = " + fetched_type + ";\n"; } std::string TD_TL_writer_h::gen_fetch_function_begin(const std::string &parser_name, const std::string &class_name, const std::string &parent_class_name, int arity, std::vector &vars, int parser_type) const { std::string returned_type = "object_ptr<" + parent_class_name + "> "; if (parser_type == 0) { return "\n" " static " + returned_type + "fetch(" + parser_name + " &p);\n\n" + " explicit " + class_name + "(" + parser_name + " &p);\n"; } assert(arity == 0); return "\n" " static " + returned_type + "fetch(" + parser_name + " &p);\n"; } std::string TD_TL_writer_h::gen_fetch_function_end(bool has_parent, int field_num, const std::vector &vars, int parser_type) const { return ""; } std::string TD_TL_writer_h::gen_fetch_function_result_begin(const std::string &parser_name, const std::string &class_name, const tl::tl_tree *result) const { return "\n" " static ReturnType fetch_result(" + parser_name + " &p);\n"; } std::string TD_TL_writer_h::gen_fetch_function_result_end() const { return ""; } std::string TD_TL_writer_h::gen_fetch_function_result_any_begin(const std::string &parser_name, const std::string &class_name, bool is_proxy) const { return ""; } std::string TD_TL_writer_h::gen_fetch_function_result_any_end(bool is_proxy) const { return ""; } std::string TD_TL_writer_h::gen_store_function_begin(const std::string &storer_name, const std::string &class_name, int arity, std::vector &vars, int storer_type) const { assert(arity == 0); if (storer_type == -1) { return ""; } return "\n" " void store(" + storer_name + " &s" + std::string(storer_type == 0 ? "" : ", const char *field_name") + ") const final;\n"; } std::string TD_TL_writer_h::gen_store_function_end(const std::vector &vars, int storer_type) const { return ""; } std::string TD_TL_writer_h::gen_fetch_switch_begin() const { return ""; } std::string TD_TL_writer_h::gen_fetch_switch_case(const tl::tl_combinator *t, int arity) const { return ""; } std::string TD_TL_writer_h::gen_fetch_switch_end() const { return ""; } std::string TD_TL_writer_h::gen_constructor_begin(int fields_num, const std::string &class_name, bool is_default) const { return "\n" " " + std::string(fields_num == 1 ? "explicit " : "") + class_name + "("; } std::string TD_TL_writer_h::gen_constructor_field_init(int field_num, const std::string &class_name, const tl::arg &a, bool is_default) const { return ""; } std::string TD_TL_writer_h::gen_constructor_end(const tl::tl_combinator *t, int fields_num, bool is_default) const { return ");\n"; } } // namespace td