// LLL -> tokens std::vector<Node> prettyCompileLLL(Node program) { return prettyAssemble(buildFragmentTree(program)); }
int main(int argv, char** argc) { if (argv == 1) { std::cerr << "Must provide a command and arguments! Try parse, rewrite, compile, assemble\n"; return 0; } std::string flag = ""; std::string command = argc[1]; std::string input; std::string secondInput; if (std::string(argc[1]) == "-s") { flag = command.substr(1); command = argc[2]; input = ""; std::string line; while (std::getline(std::cin, line)) { input += line + "\n"; } secondInput = argv == 3 ? "" : argc[3]; } else { if (argv == 2) { std::cerr << "Not enough arguments for serpent cmdline\n"; throw(0); } input = argc[2]; secondInput = argv == 3 ? "" : argc[3]; } bool haveSec = secondInput.length() > 0; if (command == "parse" || command == "parse_serpent") { std::cout << printAST(parseSerpent(input), haveSec) << "\n"; } else if (command == "rewrite") { std::cout << printAST(rewrite(parseLLL(input, true)), haveSec) << "\n"; } else if (command == "compile_to_lll") { std::cout << printAST(compileToLLL(input), haveSec) << "\n"; } else if (command == "build_fragtree") { std::cout << printAST(buildFragmentTree(parseLLL(input, true))) << "\n"; } else if (command == "compile_lll") { std::cout << binToHex(compileLLL(parseLLL(input, true))) << "\n"; } else if (command == "dereference") { std::cout << printAST(dereference(parseLLL(input, true)), haveSec) <<"\n"; } else if (command == "pretty_assemble") { std::cout << printTokens(prettyAssemble(parseLLL(input, true))) <<"\n"; } else if (command == "pretty_compile_lll") { std::cout << printTokens(prettyCompileLLL(parseLLL(input, true))) << "\n"; } else if (command == "pretty_compile") { std::cout << printTokens(prettyCompile(input)) << "\n"; } else if (command == "assemble") { std::cout << assemble(parseLLL(input, true)) << "\n"; } else if (command == "serialize") { std::cout << binToHex(serialize(tokenize(input, Metadata(), false))) << "\n"; } else if (command == "flatten") { std::cout << printTokens(flatten(parseLLL(input, true))) << "\n"; } else if (command == "deserialize") { std::cout << printTokens(deserialize(hexToBin(input))) << "\n"; } else if (command == "compile") { std::cout << binToHex(compile(input)) << "\n"; } else if (command == "encode_datalist") { std::vector<Node> tokens = tokenize(input); std::vector<std::string> o; for (int i = 0; i < (int)tokens.size(); i++) { o.push_back(tokens[i].val); } std::cout << binToHex(encodeDatalist(o)) << "\n"; } else if (command == "decode_datalist") { std::vector<std::string> o = decodeDatalist(hexToBin(input)); std::vector<Node> tokens; for (int i = 0; i < (int)o.size(); i++) tokens.push_back(token(o[i])); std::cout << printTokens(tokens) << "\n"; } else if (command == "tokenize") { std::cout << printTokens(tokenize(input)); } else if (command == "biject") { if (argv == 3) std::cerr << "Not enough arguments for biject\n"; int pos = decimalToUnsigned(secondInput); std::vector<Node> n = prettyCompile(input); if (pos >= (int)n.size()) std::cerr << "Code position too high\n"; Metadata m = n[pos].metadata; std::cout << "Opcode: " << n[pos].val << ", file: " << m.file << ", line: " << m.ln << ", char: " << m.ch << "\n"; } }
// LLL -> bin std::string compileLLL(Node program) { return assemble(buildFragmentTree(program)); }