#pragma once #include "token.hpp" #include #include #include #include namespace hex::lang { class ASTNode { public: constexpr ASTNode() = default; constexpr virtual ~ASTNode() = default; constexpr ASTNode(const ASTNode &) = default; [[nodiscard]] constexpr u32 getLineNumber() const { return this->m_lineNumber; } constexpr void setLineNumber(u32 lineNumber) { this->m_lineNumber = lineNumber; } virtual ASTNode* clone() const = 0; private: u32 m_lineNumber = 1; }; class ASTNodeIntegerLiteral : public ASTNode { public: ASTNodeIntegerLiteral(Token::IntegerLiteral literal) : ASTNode(), m_literal(literal) { } ASTNodeIntegerLiteral(const ASTNodeIntegerLiteral&) = default; ASTNode* clone() const override { return new ASTNodeIntegerLiteral(*this); } [[nodiscard]] const auto& getValue() const { return this->m_literal.second; } [[nodiscard]] Token::ValueType getType() const { return this->m_literal.first; } private: Token::IntegerLiteral m_literal; }; class ASTNodeNumericExpression : public ASTNode { public: ASTNodeNumericExpression(ASTNode *left, ASTNode *right, Token::Operator op) : ASTNode(), m_left(left), m_right(right), m_operator(op) { } ~ASTNodeNumericExpression() override { delete this->m_left; delete this->m_right; } ASTNodeNumericExpression(const ASTNodeNumericExpression &other) : ASTNode(other) { this->m_operator = other.m_operator; this->m_left = other.m_left->clone(); this->m_right = other.m_right->clone(); } ASTNode* clone() const override { return new ASTNodeNumericExpression(*this); } ASTNode *getLeftOperand() { return this->m_left; } ASTNode *getRightOperand() { return this->m_right; } Token::Operator getOperator() { return this->m_operator; } private: ASTNode *m_left, *m_right; Token::Operator m_operator; }; class ASTNodeTernaryExpression : public ASTNode { public: ASTNodeTernaryExpression(ASTNode *first, ASTNode *second, ASTNode *third, Token::Operator op) : ASTNode(), m_first(first), m_second(second), m_third(third), m_operator(op) { } ~ASTNodeTernaryExpression() override { delete this->m_first; delete this->m_second; delete this->m_third; } ASTNodeTernaryExpression(const ASTNodeTernaryExpression &other) : ASTNode(other) { this->m_operator = other.m_operator; this->m_first = other.m_first->clone(); this->m_second = other.m_second->clone(); this->m_third = other.m_third->clone(); } ASTNode* clone() const override { return new ASTNodeTernaryExpression(*this); } ASTNode *getFirstOperand() { return this->m_first; } ASTNode *getSecondOperand() { return this->m_second; } ASTNode *getThirdOperand() { return this->m_third; } Token::Operator getOperator() { return this->m_operator; } private: ASTNode *m_first, *m_second, *m_third; Token::Operator m_operator; }; class ASTNodeBuiltinType : public ASTNode { public: constexpr explicit ASTNodeBuiltinType(Token::ValueType type) : ASTNode(), m_type(type) { } [[nodiscard]] constexpr const auto& getType() const { return this->m_type; } ASTNode* clone() const override { return new ASTNodeBuiltinType(*this); } private: const Token::ValueType m_type; }; class ASTNodeTypeDecl : public ASTNode { public: ASTNodeTypeDecl(std::string_view name, ASTNode *type, std::optional endian = { }) : ASTNode(), m_name(name), m_type(type), m_endian(endian) { } ASTNodeTypeDecl(const ASTNodeTypeDecl& other) : ASTNode(other) { this->m_name = other.m_name; this->m_type = other.m_type->clone(); this->m_endian = other.m_endian; } ~ASTNodeTypeDecl() override { delete this->m_type; } ASTNode* clone() const override { return new ASTNodeTypeDecl(*this); } [[nodiscard]] std::string_view getName() const { return this->m_name; } [[nodiscard]] ASTNode* getType() { return this->m_type; } [[nodiscard]] std::optional getEndian() const { return this->m_endian; } private: std::string m_name; ASTNode *m_type; std::optional m_endian; }; class ASTNodeVariableDecl : public ASTNode { public: ASTNodeVariableDecl(std::string_view name, ASTNode *type, ASTNode *placementOffset = nullptr) : ASTNode(), m_name(name), m_type(type), m_placementOffset(placementOffset) { } ASTNodeVariableDecl(const ASTNodeVariableDecl &other) : ASTNode(other) { this->m_name = other.m_name; this->m_type = other.m_type->clone(); if (other.m_placementOffset != nullptr) this->m_placementOffset = other.m_placementOffset->clone(); else this->m_placementOffset = nullptr; } ~ASTNodeVariableDecl() override { delete this->m_type; } ASTNode* clone() const override { return new ASTNodeVariableDecl(*this); } [[nodiscard]] std::string_view getName() const { return this->m_name; } [[nodiscard]] constexpr ASTNode* getType() const { return this->m_type; } [[nodiscard]] constexpr auto getPlacementOffset() const { return this->m_placementOffset; } private: std::string m_name; ASTNode *m_type; ASTNode *m_placementOffset; }; class ASTNodeArrayVariableDecl : public ASTNode { public: ASTNodeArrayVariableDecl(std::string_view name, ASTNode *type, ASTNode *size, ASTNode *placementOffset = nullptr) : ASTNode(), m_name(name), m_type(type), m_size(size), m_placementOffset(placementOffset) { } ASTNodeArrayVariableDecl(const ASTNodeArrayVariableDecl &other) : ASTNode(other) { this->m_name = other.m_name; this->m_type = other.m_type->clone(); if (other.m_size != nullptr) this->m_size = other.m_size->clone(); else this->m_size = nullptr; if (other.m_placementOffset != nullptr) this->m_placementOffset = other.m_placementOffset->clone(); else this->m_placementOffset = nullptr; } ~ASTNodeArrayVariableDecl() override { delete this->m_type; delete this->m_size; } ASTNode* clone() const override { return new ASTNodeArrayVariableDecl(*this); } [[nodiscard]] std::string_view getName() const { return this->m_name; } [[nodiscard]] constexpr ASTNode* getType() const { return this->m_type; } [[nodiscard]] constexpr ASTNode* getSize() const { return this->m_size; } [[nodiscard]] constexpr auto getPlacementOffset() const { return this->m_placementOffset; } private: std::string m_name; ASTNode *m_type; ASTNode *m_size; ASTNode *m_placementOffset; }; class ASTNodePointerVariableDecl : public ASTNode { public: ASTNodePointerVariableDecl(std::string_view name, ASTNode *type, ASTNode *sizeType, ASTNode *placementOffset = nullptr) : ASTNode(), m_name(name), m_type(type), m_sizeType(sizeType), m_placementOffset(placementOffset) { } ASTNodePointerVariableDecl(const ASTNodePointerVariableDecl &other) : ASTNode(other) { this->m_name = other.m_name; this->m_type = other.m_type->clone(); this->m_sizeType = other.m_sizeType->clone(); if (other.m_placementOffset != nullptr) this->m_placementOffset = other.m_placementOffset->clone(); else this->m_placementOffset = nullptr; } ~ASTNodePointerVariableDecl() override { delete this->m_type; } ASTNode* clone() const override { return new ASTNodePointerVariableDecl(*this); } [[nodiscard]] std::string_view getName() const { return this->m_name; } [[nodiscard]] constexpr ASTNode* getType() const { return this->m_type; } [[nodiscard]] constexpr ASTNode* getSizeType() const { return this->m_sizeType; } [[nodiscard]] constexpr auto getPlacementOffset() const { return this->m_placementOffset; } private: std::string m_name; ASTNode *m_type; ASTNode *m_sizeType; ASTNode *m_placementOffset; }; class ASTNodeStruct : public ASTNode { public: ASTNodeStruct() : ASTNode() { } ASTNodeStruct(const ASTNodeStruct &other) : ASTNode(other) { for (const auto &otherMember : other.getMembers()) this->m_members.push_back(otherMember->clone()); } ~ASTNodeStruct() override { for (auto &member : this->m_members) delete member; } ASTNode* clone() const override { return new ASTNodeStruct(*this); } [[nodiscard]] const std::vector& getMembers() const { return this->m_members; } void addMember(ASTNode *node) { this->m_members.push_back(node); } private: std::vector m_members; }; class ASTNodeUnion : public ASTNode { public: ASTNodeUnion() : ASTNode() { } ASTNodeUnion(const ASTNodeUnion &other) : ASTNode(other) { for (const auto &otherMember : other.getMembers()) this->m_members.push_back(otherMember->clone()); } ~ASTNodeUnion() override { for (auto &member : this->m_members) delete member; } ASTNode* clone() const override { return new ASTNodeUnion(*this); } [[nodiscard]] const std::vector& getMembers() const { return this->m_members; } void addMember(ASTNode *node) { this->m_members.push_back(node); } private: std::vector m_members; }; class ASTNodeEnum : public ASTNode { public: explicit ASTNodeEnum(ASTNode *underlyingType) : ASTNode(), m_underlyingType(underlyingType) { } ASTNodeEnum(const ASTNodeEnum &other) : ASTNode(other) { for (const auto &[name, entry] : other.getEntries()) this->m_entries.insert({ name, entry->clone() }); this->m_underlyingType = other.m_underlyingType->clone(); } ~ASTNodeEnum() override { for (auto &[name, expr] : this->m_entries) delete expr; delete this->m_underlyingType; } ASTNode* clone() const override { return new ASTNodeEnum(*this); } [[nodiscard]] const std::unordered_map& getEntries() const { return this->m_entries; } void addEntry(const std::string &name, ASTNode* expression) { this->m_entries.insert({ name, expression }); } [[nodiscard]] const ASTNode *getUnderlyingType() const { return this->m_underlyingType; } private: std::unordered_map m_entries; ASTNode *m_underlyingType; }; class ASTNodeBitfield : public ASTNode { public: ASTNodeBitfield() : ASTNode() { } ASTNodeBitfield(const ASTNodeBitfield &other) : ASTNode(other) { for (const auto &[name, entry] : other.getEntries()) this->m_entries.emplace_back(name, entry->clone()); } ~ASTNodeBitfield() override { for (auto &[name, expr] : this->m_entries) delete expr; } ASTNode* clone() const override { return new ASTNodeBitfield(*this); } [[nodiscard]] const std::vector>& getEntries() const { return this->m_entries; } void addEntry(const std::string &name, ASTNode* size) { this->m_entries.emplace_back(name, size); } private: std::vector> m_entries; }; class ASTNodeRValue : public ASTNode { public: explicit ASTNodeRValue(std::vector path) : ASTNode(), m_path(std::move(path)) { } ASTNodeRValue(const ASTNodeRValue&) = default; ASTNode* clone() const override { return new ASTNodeRValue(*this); } const std::vector& getPath() { return this->m_path; } private: std::vector m_path; }; class ASTNodeScopeResolution : public ASTNode { public: explicit ASTNodeScopeResolution(std::vector path) : ASTNode(), m_path(std::move(path)) { } ASTNodeScopeResolution(const ASTNodeScopeResolution&) = default; ASTNode* clone() const override { return new ASTNodeScopeResolution(*this); } const std::vector& getPath() { return this->m_path; } private: std::vector m_path; }; class ASTNodeConditionalStatement : public ASTNode { public: explicit ASTNodeConditionalStatement(ASTNode *condition, std::vector trueBody, std::vector falseBody) : ASTNode(), m_condition(condition), m_trueBody(std::move(trueBody)), m_falseBody(std::move(falseBody)) { } ~ASTNodeConditionalStatement() override { delete this->m_condition; for (auto &statement : this->m_trueBody) delete statement; for (auto &statement : this->m_falseBody) delete statement; } ASTNodeConditionalStatement(const ASTNodeConditionalStatement &other) : ASTNode(other) { this->m_condition = other.m_condition->clone(); for (auto &statement : other.m_trueBody) this->m_trueBody.push_back(statement->clone()); for (auto &statement : other.m_falseBody) this->m_falseBody.push_back(statement->clone()); } ASTNode* clone() const override { return new ASTNodeConditionalStatement(*this); } [[nodiscard]] ASTNode* getCondition() { return this->m_condition; } [[nodiscard]] const std::vector& getTrueBody() const { return this->m_trueBody; } [[nodiscard]] const std::vector& getFalseBody() const { return this->m_falseBody; } private: ASTNode *m_condition; std::vector m_trueBody, m_falseBody; }; class ASTNodeFunctionCall : public ASTNode { public: explicit ASTNodeFunctionCall(std::string_view functionName, std::vector params) : ASTNode(), m_functionName(functionName), m_params(std::move(params)) { } ~ASTNodeFunctionCall() override { for (auto ¶m : this->m_params) delete param; } ASTNodeFunctionCall(const ASTNodeFunctionCall &other) : ASTNode(other) { this->m_functionName = other.m_functionName; for (auto ¶m : other.m_params) this->m_params.push_back(param->clone()); } ASTNode* clone() const override { return new ASTNodeFunctionCall(*this); } [[nodiscard]] std::string_view getFunctionName() { return this->m_functionName; } [[nodiscard]] const std::vector& getParams() const { return this->m_params; } private: std::string m_functionName; std::vector m_params; }; }