#include "lang/lexer.hpp" #include #include namespace hex::lang { Lexer::Lexer() { } std::string matchTillInvalid(const char* characters, std::function predicate) { std::string ret; while (*characters != 0x00) { ret += *characters; characters++; if (!predicate(*characters)) break; } return ret; } std::optional parseInt(std::string_view string) { u64 integer = 0; u8 base; std::string_view numberData; if (string.starts_with("0x")) { numberData = string.substr(2); base = 16; if (numberData.find_first_not_of("0123456789ABCDEFabcdef") != std::string_view::npos) return { }; } else if (string.starts_with("0b")) { numberData = string.substr(2); base = 2; if (numberData.find_first_not_of("01") != std::string_view::npos) return { }; } else if (isdigit(string[0])) { numberData = string; base = 10; if (numberData.find_first_not_of("0123456789") != std::string_view::npos) return { }; } else return { }; if (numberData.length() == 0) return { }; for (const char& c : numberData) { integer *= base; if (isdigit(c)) integer += (c - '0'); else if (c >= 'A' && c <= 'F') integer += 10 + (c - 'A'); else if (c >= 'a' && c <= 'f') integer += 10 + (c - 'a'); else return { }; } return integer; } std::pair> Lexer::lex(const std::string& code) { std::vector tokens; u32 offset = 0; while (offset < code.length()) { // Handle comments if (code[offset] == '/') { offset++; if (offset < code.length() && code[offset] == '/') { offset++; while (offset < code.length()) { if (code[offset] == '\n' || code[offset] == '\r') break; offset++; } } else if (offset < code.length() && code[offset] == '*') { offset++; while (offset < (code.length() - 1)) { if (code[offset] == '*' && code[offset + 1] == '/') break; offset++; } offset += 2; } else offset--; } const char& c = code[offset]; if (c == 0x00) break; if (std::isblank(c) || std::isspace(c)) { offset += 1; } else if (c == ';') { tokens.push_back({ .type = Token::Type::EndOfExpression }); offset += 1; } else if (c == '{') { tokens.push_back({ .type = Token::Type::ScopeOpen }); offset += 1; } else if (c == '}') { tokens.push_back({ .type = Token::Type::ScopeClose }); offset += 1; } else if (c == '[') { tokens.push_back({ .type = Token::Type::ArrayOpen }); offset += 1; } else if (c == ']') { tokens.push_back({.type = Token::Type::ArrayClose}); offset += 1; } else if (c == ',') { tokens.push_back({ .type = Token::Type::Separator }); offset += 1; } else if (c == '@') { tokens.push_back({ .type = Token::Type::Operator, .operatorToken = { .op = Token::OperatorToken::Operator::AtDeclaration } }); offset += 1; } else if (c == '=') { tokens.push_back({ .type = Token::Type::Operator, .operatorToken = { .op = Token::OperatorToken::Operator::Assignment } }); offset += 1; } else if (c == ':') { tokens.push_back({ .type = Token::Type::Operator, .operatorToken = { .op = Token::OperatorToken::Operator::Inherit } }); offset += 1; } else if (c == '*') { tokens.push_back({ .type = Token::Type::Operator, .operatorToken = { .op = Token::OperatorToken::Operator::Star } }); offset += 1; } else if (std::isalpha(c)) { std::string identifier = matchTillInvalid(&code[offset], [](char c) -> bool { return std::isalnum(c) || c == '_'; }); // Check for reserved keywords if (identifier == "struct") tokens.push_back({ .type = Token::Type::Keyword, .keywordToken = { .keyword = Token::KeywordToken::Keyword::Struct } }); else if (identifier == "union") tokens.push_back({ .type = Token::Type::Keyword, .keywordToken = { .keyword = Token::KeywordToken::Keyword::Union } }); else if (identifier == "using") tokens.push_back({ .type = Token::Type::Keyword, .keywordToken = { .keyword = Token::KeywordToken::Keyword::Using } }); else if (identifier == "enum") tokens.push_back({ .type = Token::Type::Keyword, .keywordToken = { .keyword = Token::KeywordToken::Keyword::Enum } }); else if (identifier == "bitfield") tokens.push_back({ .type = Token::Type::Keyword, .keywordToken = { .keyword = Token::KeywordToken::Keyword::Bitfield } }); // Check for built-in types else if (identifier == "u8") tokens.push_back({ .type = Token::Type::Type, .typeToken = { .type = Token::TypeToken::Type::Unsigned8Bit } }); else if (identifier == "s8") tokens.push_back({ .type = Token::Type::Type, .typeToken = { .type = Token::TypeToken::Type::Signed8Bit } }); else if (identifier == "u16") tokens.push_back({ .type = Token::Type::Type, .typeToken = { .type = Token::TypeToken::Type::Unsigned16Bit } }); else if (identifier == "s16") tokens.push_back({ .type = Token::Type::Type, .typeToken = { .type = Token::TypeToken::Type::Signed16Bit } }); else if (identifier == "u32") tokens.push_back({ .type = Token::Type::Type, .typeToken = { .type = Token::TypeToken::Type::Unsigned32Bit } }); else if (identifier == "s32") tokens.push_back({ .type = Token::Type::Type, .typeToken = { .type = Token::TypeToken::Type::Signed32Bit } }); else if (identifier == "u64") tokens.push_back({ .type = Token::Type::Type, .typeToken = { .type = Token::TypeToken::Type::Unsigned64Bit } }); else if (identifier == "s64") tokens.push_back({ .type = Token::Type::Type, .typeToken = { .type = Token::TypeToken::Type::Signed64Bit } }); else if (identifier == "u128") tokens.push_back({ .type = Token::Type::Type, .typeToken = { .type = Token::TypeToken::Type::Unsigned128Bit } }); else if (identifier == "s128") tokens.push_back({ .type = Token::Type::Type, .typeToken = { .type = Token::TypeToken::Type::Signed128Bit } }); else if (identifier == "float") tokens.push_back({ .type = Token::Type::Type, .typeToken = { .type = Token::TypeToken::Type::Float } }); else if (identifier == "double") tokens.push_back({ .type = Token::Type::Type, .typeToken = { .type = Token::TypeToken::Type::Double } }); else if (identifier == "padding") tokens.push_back({ .type = Token::Type::Type, .typeToken = { .type = Token::TypeToken::Type::Padding } }); // If it's not a keyword and a builtin type, it has to be an identifier else tokens.push_back({.type = Token::Type::Identifier, .identifierToken = { .identifier = identifier } }); offset += identifier.length(); } else if (std::isdigit(c)) { char *end = nullptr; std::strtoull(&code[offset], &end, 0); auto integer = parseInt(std::string_view(&code[offset], end)); if (!integer.has_value()) return { ResultLexicalError, {}}; tokens.push_back({ .type = Token::Type::Integer, .integerToken = { .integer = integer.value() } }); offset += (end - &code[offset]); } else return { ResultLexicalError, {}}; } tokens.push_back({ .type = Token::Type::EndOfProgram }); return { ResultSuccess, tokens }; } }