// convert a bdecode_node into an old skool entry void entry::operator=(bdecode_node const& e) { switch (e.type()) { case bdecode_node::string_t: this->string() = e.string_value(); break; case bdecode_node::int_t: this->integer() = e.int_value(); break; case bdecode_node::dict_t: { dictionary_type& d = this->dict(); for (int i = 0; i < e.dict_size(); ++i) { std::pair<std::string, bdecode_node> elem = e.dict_at(i); d[elem.first] = elem.second; } break; } case bdecode_node::list_t: { list_type& l = this->list(); for (int i = 0; i < e.list_size(); ++i) { l.push_back(entry()); l.back() = e.list_at(i); } break; } case bdecode_node::none_t: destruct(); break; } }
void render_variant(std::string& out, bdecode_node const& e) { switch (e.type()) { case bdecode_node::dict_t: print_dict(out); for (int i = 0; i < e.dict_size(); ++i) { std::pair<lt::string_view, bdecode_node> item = e.dict_at(i); const bool duplicate = g_seed == 1; const bool skipped = g_seed == 2; g_seed -= 2; if (duplicate) { print_string(out, item.first.to_string()); render_variant(out, item.second); } if (!skipped) { print_string(out, item.first.to_string()); render_variant(out, item.second); } render_arbitrary_item(out); } print_terminate(out); break; case bdecode_node::list_t: print_list(out); for (int i = 0; i < e.list_size(); ++i) { const bool duplicate = g_seed == 1; const bool skipped = g_seed == 2; g_seed -= 2; if (duplicate) render_variant(out, e.list_at(i)); render_arbitrary_item(out); if (!skipped) render_variant(out, e.list_at(i)); } print_terminate(out); break; case bdecode_node::int_t: print_int(out, e.int_value()); break; case bdecode_node::string_t: print_string(out, e.string_value().to_string()); break; default: abort(); } }
std::string print_entry(bdecode_node const& e , bool single_line, int indent) { char indent_str[200]; using std::memset; memset(indent_str, ' ', 200); indent_str[0] = ','; indent_str[1] = '\n'; indent_str[199] = 0; if (indent < 197 && indent >= 0) indent_str[indent + 2] = 0; std::string ret; switch (e.type()) { case bdecode_node::none_t: return "none"; case bdecode_node::int_t: { char str[100]; std::snprintf(str, sizeof(str), "%" PRId64, e.int_value()); return str; } case bdecode_node::string_t: { print_string(ret, e.string_value(), single_line); return ret; } case bdecode_node::list_t: { ret += '['; bool one_liner = line_longer_than(e, 200) != -1 || single_line; if (!one_liner) ret += indent_str + 1; for (int i = 0; i < e.list_size(); ++i) { if (i == 0 && one_liner) ret += " "; ret += print_entry(e.list_at(i), single_line, indent + 2); if (i < e.list_size() - 1) ret += (one_liner ? ", " : indent_str); else ret += (one_liner ? " " : indent_str + 1); } ret += "]"; return ret; } case bdecode_node::dict_t: { ret += "{"; bool one_liner = line_longer_than(e, 200) != -1 || single_line; if (!one_liner) ret += indent_str + 1; for (int i = 0; i < e.dict_size(); ++i) { if (i == 0 && one_liner) ret += " "; std::pair<string_view, bdecode_node> ent = e.dict_at(i); print_string(ret, ent.first, true); ret += ": "; ret += print_entry(ent.second, single_line, indent + 2); if (i < e.dict_size() - 1) ret += (one_liner ? ", " : indent_str); else ret += (one_liner ? " " : indent_str + 1); } ret += "}"; return ret; } } return ret; }