#pragma once #include #include "token.hpp" #include "ast_node.hpp" #include #include #include #include #include namespace hex::lang { class Parser { public: using TokenIter = std::vector::const_iterator; using ParseError = std::pair; Parser() = default; ~Parser() = default; std::optional> parse(const std::vector &tokens); const ParseError& getError() { return this->m_error; } private: ParseError m_error; TokenIter m_curr; TokenIter m_originalPosition; std::unordered_map m_types; std::vector m_matchedOptionals; std::vector> m_currNamespace; u32 getLineNumber(s32 index) const { return this->m_curr[index].lineNumber; } template const T& getValue(s32 index) const { auto value = std::get_if(&this->m_curr[index].value); if (value == nullptr) throwParseError("failed to decode token. Invalid type.", getLineNumber(index)); return *value; } Token::Type getType(s32 index) const { return this->m_curr[index].type; } std::string getNamespacePrefixedName(const std::string &name) { std::string result; for (const auto &part : this->m_currNamespace.back()) { result += part + "::"; } result += name; return result; } ASTNode* parseFunctionCall(); ASTNode* parseStringLiteral(); std::string parseScopeResolution(); ASTNode* parseRValue(ASTNodeRValue::Path &path); ASTNode* parseFactor(); ASTNode* parseUnaryExpression(); ASTNode* parseMultiplicativeExpression(); ASTNode* parseAdditiveExpression(); ASTNode* parseShiftExpression(); ASTNode* parseRelationExpression(); ASTNode* parseEqualityExpression(); ASTNode* parseBinaryAndExpression(); ASTNode* parseBinaryXorExpression(); ASTNode* parseBinaryOrExpression(); ASTNode* parseBooleanAnd(); ASTNode* parseBooleanXor(); ASTNode* parseBooleanOr(); ASTNode* parseTernaryConditional(); ASTNode* parseMathematicalExpression(); ASTNode* parseFunctionDefintion(); ASTNode* parseFunctionStatement(); ASTNode* parseFunctionVariableAssignment(); ASTNode* parseFunctionReturnStatement(); ASTNode* parseFunctionConditional(); ASTNode* parseFunctionWhileLoop(); void parseAttribute(Attributable *currNode); ASTNode* parseConditional(); ASTNode* parseWhileStatement(); ASTNodeTypeDecl* parseType(); ASTNode* parseUsingDeclaration(); ASTNode* parsePadding(); ASTNode* parseMemberVariable(ASTNodeTypeDecl *type); ASTNode* parseMemberArrayVariable(ASTNodeTypeDecl *type); ASTNode* parseMemberPointerVariable(ASTNodeTypeDecl *type); ASTNode* parseMember(); ASTNode* parseStruct(); ASTNode* parseUnion(); ASTNode* parseEnum(); ASTNode* parseBitfield(); ASTNode* parseVariablePlacement(ASTNodeTypeDecl *type); ASTNode* parseArrayVariablePlacement(ASTNodeTypeDecl *type); ASTNode* parsePointerVariablePlacement(ASTNodeTypeDecl *type); ASTNode* parsePlacement(); std::vector parseNamespace(); std::vector parseStatements(); std::vector parseTillToken(Token::Type endTokenType, const auto value) { std::vector program; auto guard = SCOPE_GUARD { for (auto &node : program) delete node; }; while (this->m_curr->type != endTokenType || (*this->m_curr) != value) { for (auto statement : parseStatements()) program.push_back(statement); } this->m_curr++; guard.release(); return program; } [[noreturn]] void throwParseError(std::string_view error, s32 token = -1) const { throw ParseError(this->m_curr[token].lineNumber, "Parser: " + std::string(error)); } /* Token consuming */ enum class Setting{ }; constexpr static auto Normal = static_cast(0); constexpr static auto Not = static_cast(1); bool begin() { this->m_originalPosition = this->m_curr; this->m_matchedOptionals.clear(); return true; } void reset() { this->m_curr = this->m_originalPosition; } template bool sequence() { if constexpr (S == Normal) return true; else if constexpr (S == Not) return false; else __builtin_unreachable(); } template bool sequence(Token::Type type, auto value, auto ... args) { if constexpr (S == Normal) { if (!peek(type, value)) { reset(); return false; } this->m_curr++; if (!sequence(args...)) { reset(); return false; } return true; } else if constexpr (S == Not) { if (!peek(type, value)) return true; this->m_curr++; if (!sequence(args...)) return true; reset(); return false; } else __builtin_unreachable(); } template bool oneOf() { if constexpr (S == Normal) return false; else if constexpr (S == Not) return true; else __builtin_unreachable(); } template bool oneOf(Token::Type type, auto value, auto ... args) { if constexpr (S == Normal) return sequence(type, value) || oneOf(args...); else if constexpr (S == Not) return sequence(type, value) && oneOf(args...); else __builtin_unreachable(); } bool variant(Token::Type type1, auto value1, Token::Type type2, auto value2) { if (!peek(type1, value1)) { if (!peek(type2, value2)) { reset(); return false; } } this->m_curr++; return true; } bool optional(Token::Type type, auto value) { if (peek(type, value)) { this->m_matchedOptionals.push_back(this->m_curr); this->m_curr++; } return true; } bool peek(Token::Type type, auto value, s32 index = 0) { return this->m_curr[index].type == type && this->m_curr[index] == value; } bool peekOptional(Token::Type type, auto value, u32 index = 0) { if (index >= this->m_matchedOptionals.size()) return false; return peek(type, value, std::distance(this->m_curr, this->m_matchedOptionals[index])); } }; }