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d927540b5f1633c61347dd0c06e087c82fcefd87
bits-runner-builder/src/Parser/Parser.cpp
Rafał Grodziński d927540b5f Fixed up errors
2025-07-05 22:50:16 +09:00

660 lines
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#include "Parser.h"
#include "Error.h"
#include "Logger.h"
#include "Lexer/Token.h"
#include "Parser/ValueType.h"
#include "Parser/Expression/ExpressionGrouping.h"
#include "Parser/Expression/ExpressionLiteral.h"
#include "Parser/Expression/ExpressionVariable.h"
#include "Parser/Expression/ExpressionCall.h"
#include "Parser/Expression/ExpressionIfElse.h"
#include "Parser/Expression/ExpressionBinary.h"
#include "Parser/Expression/ExpressionBlock.h"
#include "Parser/Statement/StatementFunction.h"
#include "Parser/Statement/StatementVariable.h"
#include "Parser/Statement/StatementAssignment.h"
#include "Parser/Statement/StatementReturn.h"
#include "Parser/Statement/StatementExpression.h"
#include "Parser/Statement/StatementMetaExternFunction.h"
#include "Parser/Statement/StatementBlock.h"
#include "Parser/Statement/StatementRepeat.h"
Parser::Parser(vector<shared_ptr<Token>> tokens) :
tokens(tokens) { }
vector<shared_ptr<Statement>> Parser::getStatements() {
vector<shared_ptr<Statement>> statements;
while (!tryMatchingTokenKinds({TokenKind::END}, true, false)) {
shared_ptr<Statement> statement = nextStatement();
if (statement != nullptr) {
statements.push_back(statement);
// Expect new line after statement
if (!tryMatchingTokenKinds({TokenKind::NEW_LINE}, true, true))
markError(TokenKind::NEW_LINE, {});
}
}
if (!errors.empty()) {
for (shared_ptr<Error> &error : errors)
Logger::print(error);
exit(1);
}
return statements;
}
//
// Statement
//
shared_ptr<Statement> Parser::nextStatement() {
shared_ptr<Statement> statement;
int errorsCount = errors.size();
statement = matchStatementFunction();
if (statement != nullptr || errors.size() > errorsCount)
return statement;
statement = matchStatementVariable();
if (statement != nullptr || errors.size() > errorsCount)
return statement;
statement = matchStatementMetaExternFunction();
if (statement != nullptr || errors.size() > errorsCount)
return statement;
markError({}, {});
return nullptr;
}
shared_ptr<Statement> Parser::nextInBlockStatement() {
shared_ptr<Statement> statement;
int errorsCount = errors.size();
statement = matchStatementVariable();
if (statement != nullptr || errors.size() > errorsCount)
return statement;
statement = matchStatementAssignment();
if (statement != nullptr || errors.size() > errorsCount)
return statement;
statement = matchStatementReturn();
if (statement != nullptr || errors.size() > errorsCount)
return statement;
statement = matchStatementRepeat();
if (statement != nullptr || errors.size() > errorsCount)
return statement;
statement = matchStatementExpression();
if (statement != nullptr || errors.size() > errorsCount)
return statement;
markError({}, {});
return nullptr;
}
shared_ptr<Statement> Parser::matchStatementMetaExternFunction() {
if (!tryMatchingTokenKinds({TokenKind::M_EXTERN, TokenKind::IDENTIFIER, TokenKind::FUNCTION}, true, false))
return nullptr;
string name;
vector<pair<string, shared_ptr<ValueType>>> arguments;
shared_ptr<ValueType> returnType = ValueType::NONE;
currentIndex++; // skip meta
shared_ptr<Token> identifierToken = tokens.at(currentIndex++);
currentIndex++; // skip fun
// arguments
if (tryMatchingTokenKinds({TokenKind::COLON}, true, true)) {
do {
tryMatchingTokenKinds({TokenKind::NEW_LINE}, true, true); // skip new line
if (!tryMatchingTokenKinds({TokenKind::IDENTIFIER, TokenKind::TYPE}, true, false)) {
markError({}, "Expected function argument");
return nullptr;
}
shared_ptr<Token> identifierToken = tokens.at(currentIndex++);
shared_ptr<Token> argumentTypeToken = tokens.at(currentIndex++);
shared_ptr<ValueType> argumentType = ValueType::valueTypeForToken(argumentTypeToken);
if (argumentType == nullptr) {
markError(TokenKind::TYPE, {});
return nullptr;
}
arguments.push_back(pair<string, shared_ptr<ValueType>>(identifierToken->getLexme(), argumentType));
} while (tryMatchingTokenKinds({TokenKind::COMMA}, true, true));
}
// Return type
if (tryMatchingTokenKinds({TokenKind::RIGHT_ARROW}, true, true)) {
tryMatchingTokenKinds({TokenKind::NEW_LINE}, true, true); // skip new line
shared_ptr<Token> returnTypeToken = tokens.at(currentIndex);
returnType = ValueType::valueTypeForToken(returnTypeToken);
if (returnType == nullptr) {
markError(TokenKind::TYPE, {});
return nullptr;
}
currentIndex++; // type
}
return make_shared<StatementMetaExternFunction>(identifierToken->getLexme(), arguments, returnType);
}
shared_ptr<Statement> Parser::matchStatementVariable() {
if (!tryMatchingTokenKinds({TokenKind::IDENTIFIER, TokenKind::TYPE}, true, false))
return nullptr;
shared_ptr<Token> identifierToken = tokens.at(currentIndex++);
shared_ptr<Token> valueTypeToken = tokens.at(currentIndex);
shared_ptr<ValueType> valueType;
if (valueTypeToken->getLexme().compare("bool") == 0)
valueType = ValueType::BOOL;
else if (valueTypeToken->getLexme().compare("sint32") == 0)
valueType = ValueType::SINT32;
else if (valueTypeToken->getLexme().compare("real32") == 0)
valueType = ValueType::REAL32;
else {
markError(TokenKind::TYPE, {});
return nullptr;
}
currentIndex++; // type
// Expect left arrow
if (!tryMatchingTokenKinds({TokenKind::LEFT_ARROW}, true, true)) {
markError(TokenKind::LEFT_ARROW, {});
return nullptr;
}
shared_ptr<Expression> expression = nextExpression();
if (expression == nullptr)
return nullptr;
return make_shared<StatementVariable>(identifierToken->getLexme(), valueType, expression);
}
shared_ptr<Statement> Parser::matchStatementFunction() {
if (!tryMatchingTokenKinds({TokenKind::IDENTIFIER, TokenKind::FUNCTION}, true, false))
return nullptr;
string name;
vector<pair<string, shared_ptr<ValueType>>> arguments;
shared_ptr<ValueType> returnType = ValueType::NONE;
shared_ptr<Statement> statementBlock;
// name
name = tokens.at(currentIndex++)->getLexme();
currentIndex++; // skip fun
// arguments
if (tryMatchingTokenKinds({TokenKind::COLON}, true, true)) {
do {
tryMatchingTokenKinds({TokenKind::NEW_LINE}, true, true); // skip new line
if (!tryMatchingTokenKinds({TokenKind::IDENTIFIER, TokenKind::TYPE}, true, false)) {
markError({}, "Expected function argument");
return nullptr;
}
shared_ptr<Token> identifierToken = tokens.at(currentIndex++);
shared_ptr<Token> argumentTypeToken = tokens.at(currentIndex++);
shared_ptr<ValueType> argumentType = ValueType::valueTypeForToken(argumentTypeToken);
if (argumentType == nullptr) {
markError(TokenKind::TYPE, {});
return nullptr;
}
arguments.push_back(pair<string, shared_ptr<ValueType>>(identifierToken->getLexme(), argumentType));
} while (tryMatchingTokenKinds({TokenKind::COMMA}, true, true));
}
// return type
if (tryMatchingTokenKinds({TokenKind::RIGHT_ARROW}, true, true)) {
tryMatchingTokenKinds({TokenKind::NEW_LINE}, true, true); // skip new line
shared_ptr<Token> returnTypeToken = tokens.at(currentIndex);
returnType = ValueType::valueTypeForToken(returnTypeToken);
if (returnType == nullptr) {
markError(TokenKind::TYPE, {});
return nullptr;
}
currentIndex++; // type
}
// consume new line
if (!tryMatchingTokenKinds({TokenKind::NEW_LINE}, true, true)) {
markError(TokenKind::NEW_LINE, {});
return nullptr;
}
// block
statementBlock = matchStatementBlock({TokenKind::SEMICOLON});
if (statementBlock == nullptr)
return nullptr;
if(!tryMatchingTokenKinds({TokenKind::SEMICOLON}, false, true)) {
markError(TokenKind::SEMICOLON, {});
return nullptr;
}
return make_shared<StatementFunction>(name, arguments, returnType, dynamic_pointer_cast<StatementBlock>(statementBlock));
}
shared_ptr<Statement> Parser::matchStatementBlock(vector<TokenKind> terminalTokenKinds) {
vector<shared_ptr<Statement>> statements;
while (!tryMatchingTokenKinds(terminalTokenKinds, false, false)) {
shared_ptr<Statement> statement = nextInBlockStatement();
if (statement != nullptr)
statements.push_back(statement);
if (tryMatchingTokenKinds(terminalTokenKinds, false, false))
break;
// except new line
if (statement != nullptr && !tryMatchingTokenKinds({TokenKind::NEW_LINE}, true, true)) {
markError(TokenKind::NEW_LINE, {});
return nullptr;
}
}
return make_shared<StatementBlock>(statements);
}
shared_ptr<Statement> Parser::matchStatementAssignment() {
if (!tryMatchingTokenKinds({TokenKind::IDENTIFIER, TokenKind::LEFT_ARROW}, true, false))
return nullptr;
shared_ptr<Token> identifierToken = tokens.at(currentIndex++);
currentIndex++; // arrow
shared_ptr<Expression> expression = nextExpression();
if (expression == nullptr)
return nullptr;
return make_shared<StatementAssignment>(identifierToken->getLexme(), expression);
}
shared_ptr<Statement> Parser::matchStatementReturn() {
if (!tryMatchingTokenKinds({TokenKind::RETURN}, true, true))
return nullptr;
shared_ptr<Expression> expression = nextExpression();
if (expression == nullptr)
return nullptr;
return make_shared<StatementReturn>(expression);
}
shared_ptr<Statement> Parser::matchStatementRepeat() {
if (!tryMatchingTokenKinds({TokenKind::REPEAT}, true, true))
return nullptr;
shared_ptr<Statement> initStatement;
shared_ptr<Expression> preConditionExpression;
shared_ptr<Expression> postConditionExpression;
shared_ptr<Statement> bodyBlockStatement;
bool isMultiLine;
// initial
initStatement = matchStatementVariable() ?: matchStatementAssignment();
if (!tryMatchingTokenKinds({TokenKind::COLON}, false, true)) {
// got initial, expect comma
if (initStatement != nullptr && !tryMatchingTokenKinds({TokenKind::COMMA}, true, true)) {
markError(TokenKind::COMMA, {});
return nullptr;
}
// optional new line
tryMatchingTokenKinds({TokenKind::NEW_LINE}, true, true);
// pre condition
preConditionExpression = nextExpression();
if (!tryMatchingTokenKinds({TokenKind::COLON}, true, true)) {
// got pre-condition, expect comma
if (!tryMatchingTokenKinds({TokenKind::COMMA}, true, true)) {
markError(TokenKind::COMMA, {});
return nullptr;
}
// optional new line
tryMatchingTokenKinds({TokenKind::NEW_LINE}, true, true);
// post condition
postConditionExpression = nextExpression();
// expect colon
if (!tryMatchingTokenKinds({TokenKind::COLON}, true, true)) {
markError(TokenKind::COLON, {});
return nullptr;
}
}
}
isMultiLine = tryMatchingTokenKinds({TokenKind::NEW_LINE}, true, true);
// body
if (isMultiLine)
bodyBlockStatement = matchStatementBlock({TokenKind::SEMICOLON});
else
bodyBlockStatement = matchStatementBlock({TokenKind::NEW_LINE});
if (bodyBlockStatement == nullptr)
return nullptr;
tryMatchingTokenKinds({TokenKind::SEMICOLON}, false, true);
return make_shared<StatementRepeat>(initStatement, preConditionExpression, postConditionExpression, dynamic_pointer_cast<StatementBlock>(bodyBlockStatement));
}
shared_ptr<Statement> Parser::matchStatementExpression() {
shared_ptr<Expression> expression = nextExpression();
if (expression == nullptr)
return nullptr;
return make_shared<StatementExpression>(expression);
}
//
// Expression
//
shared_ptr<Expression> Parser::nextExpression() {
shared_ptr<Expression> expression;
int errorsCount = errors.size();
expression = matchEquality();
if (expression != nullptr || errors.size() > errorsCount)
return expression;
expression = matchExpressionIfElse();
if (expression != nullptr || errors.size() > errorsCount)
return expression;
expression = matchExpressionVariable();
if (expression != nullptr || errors.size() > errorsCount)
return expression;
markError({}, {});
return nullptr;
}
shared_ptr<Expression> Parser::matchEquality() {
shared_ptr<Expression> expression = matchComparison();
if (expression == nullptr)
return nullptr;
if (tryMatchingTokenKinds({Token::tokensEquality}, false, false))
expression = matchExpressionBinary(expression);
return expression;
}
shared_ptr<Expression> Parser::matchComparison() {
shared_ptr<Expression> expression = matchTerm();
if (expression == nullptr)
return nullptr;
if (tryMatchingTokenKinds({Token::tokensComparison}, false, false))
expression = matchExpressionBinary(expression);
return expression;
}
shared_ptr<Expression> Parser::matchTerm() {
shared_ptr<Expression> expression = matchFactor();
if (expression == nullptr)
return nullptr;
if (tryMatchingTokenKinds({Token::tokensTerm}, false, false))
expression = matchExpressionBinary(expression);
return expression;
}
shared_ptr<Expression> Parser::matchFactor() {
shared_ptr<Expression> expression = matchPrimary();
if (expression == nullptr)
return nullptr;
if (tokens.at(currentIndex)->isOfKind(Token::tokensFactor))
expression = matchExpressionBinary(expression);
return expression;
}
shared_ptr<Expression> Parser::matchPrimary() {
shared_ptr<Expression> expression;
expression = matchExpressionGrouping();
if (expression != nullptr)
return expression;
expression = matchExpressionLiteral();
if (expression != nullptr)
return expression;
expression = matchExpressionCall();
if (expression != nullptr)
return expression;
expression = matchExpressionVariable();
if (expression != nullptr)
return expression;
return nullptr;
}
shared_ptr<Expression> Parser::matchExpressionGrouping() {
shared_ptr<Token> token = tokens.at(currentIndex);
if (tryMatchingTokenKinds({TokenKind::LEFT_PAREN}, true, true)) {
shared_ptr<Expression> expression = matchTerm();
// has grouped expression failed?
if (expression == nullptr) {
return nullptr;
} else if (tryMatchingTokenKinds({TokenKind::RIGHT_PAREN}, true, true)) {
return make_shared<ExpressionGrouping>(expression);
} else {
markError(TokenKind::RIGHT_PAREN, {});
}
}
return nullptr;
}
shared_ptr<Expression> Parser::matchExpressionLiteral() {
shared_ptr<Token> token = tokens.at(currentIndex);
if (tryMatchingTokenKinds(Token::tokensLiteral, false, true))
return make_shared<ExpressionLiteral>(token);
return nullptr;
}
shared_ptr<Expression> Parser::matchExpressionVariable() {
shared_ptr<Token> token = tokens.at(currentIndex);
if (tryMatchingTokenKinds({TokenKind::IDENTIFIER}, true, true))
return make_shared<ExpressionVariable>(token->getLexme());
return nullptr;
}
shared_ptr<Expression> Parser::matchExpressionCall() {
if (!tryMatchingTokenKinds({TokenKind::IDENTIFIER, TokenKind::LEFT_PAREN}, true, false))
return nullptr;
shared_ptr<Token> identifierToken = tokens.at(currentIndex);
currentIndex++; // identifier
currentIndex++; // left parenthesis
vector<shared_ptr<Expression>> argumentExpressions;
if (!tryMatchingTokenKinds({TokenKind::RIGHT_PAREN}, true, true)) {
do {
tryMatchingTokenKinds({TokenKind::NEW_LINE}, true, true); // optional new line
shared_ptr<Expression> argumentExpression = nextExpression();
if (argumentExpression == nullptr)
return nullptr;
argumentExpressions.push_back(argumentExpression);
} while (tryMatchingTokenKinds({TokenKind::COMMA}, true, true));
tryMatchingTokenKinds({TokenKind::NEW_LINE}, true, true); // optional new line
if (!tryMatchingTokenKinds({TokenKind::RIGHT_PAREN}, true, true)) {
markError(TokenKind::RIGHT_PAREN, {});
return nullptr;
}
}
return make_shared<ExpressionCall>(identifierToken->getLexme(), argumentExpressions);
}
shared_ptr<Expression> Parser::matchExpressionIfElse() {
if (!tryMatchingTokenKinds({TokenKind::IF}, true, true))
return nullptr;
shared_ptr<Expression> condition;
shared_ptr<Expression> thenBlock;
shared_ptr<Expression> elseBlock;
// condition expression
condition = nextExpression();
if (condition == nullptr)
return nullptr;
if (!tryMatchingTokenKinds({TokenKind::COLON}, true, true)) {
markError(TokenKind::COLON, {});
return nullptr;
}
// then
bool isMultiLine = tryMatchingTokenKinds({TokenKind::NEW_LINE}, true, true);
// then block
if (isMultiLine)
thenBlock = matchExpressionBlock({TokenKind::ELSE, TokenKind::SEMICOLON});
else
thenBlock = matchExpressionBlock({TokenKind::ELSE, TokenKind::NEW_LINE});
if (thenBlock == nullptr)
return nullptr;
// else
if (tryMatchingTokenKinds({TokenKind::ELSE}, true, true)) {
isMultiLine = (tryMatchingTokenKinds({TokenKind::NEW_LINE}, true, true));
// else block
if (isMultiLine)
elseBlock = matchExpressionBlock({TokenKind::SEMICOLON});
else
elseBlock = matchExpressionBlock({TokenKind::NEW_LINE});
if (elseBlock == nullptr)
return nullptr;
}
tryMatchingTokenKinds({TokenKind::SEMICOLON}, false, true);
return make_shared<ExpressionIfElse>(condition, dynamic_pointer_cast<ExpressionBlock>(thenBlock), dynamic_pointer_cast<ExpressionBlock>(elseBlock));
}
shared_ptr<Expression> Parser::matchExpressionBinary(shared_ptr<Expression> left) {
shared_ptr<Token> token = tokens.at(currentIndex);
shared_ptr<Expression> right;
// What level of binary expression are we having?
if (tryMatchingTokenKinds(Token::tokensEquality, false, true)) {
right = matchComparison();
} else if (tryMatchingTokenKinds(Token::tokensComparison, false, true)) {
right = matchTerm();
} else if (tryMatchingTokenKinds(Token::tokensTerm, false, true)) {
right = matchFactor();
} else if (tryMatchingTokenKinds(Token::tokensFactor, false, true)) {
right = matchPrimary();
}
if (right == nullptr) {
return nullptr;
} else {
return make_shared<ExpressionBinary>(token, left, right);
}
return nullptr;
}
shared_ptr<Expression> Parser::matchExpressionBlock(vector<TokenKind> terminalTokenKinds) {
vector<shared_ptr<Statement>> statements;
while (!tryMatchingTokenKinds(terminalTokenKinds, false, false)) {
shared_ptr<Statement> statement = nextInBlockStatement();
if (statement != nullptr)
statements.push_back(statement);
if (tryMatchingTokenKinds(terminalTokenKinds, false, false))
break;
// except new line
if (statement != nullptr && !tryMatchingTokenKinds({TokenKind::NEW_LINE}, true, true)) {
markError(TokenKind::NEW_LINE, {});
return nullptr;
}
}
return make_shared<ExpressionBlock>(statements);
}
bool Parser::tryMatchingTokenKinds(vector<TokenKind> kinds, bool shouldMatchAll, bool shouldAdvance) {
int requiredCount = shouldMatchAll ? kinds.size() : 1;
if (currentIndex + requiredCount > tokens.size())
return false;
if (shouldMatchAll) {
for (int i=0; i<kinds.size(); i++) {
if (kinds.at(i) != tokens.at(currentIndex + i)->getKind())
return false;
}
if (shouldAdvance)
currentIndex += kinds.size();
return true;
} else {
for (int i=0; i<kinds.size(); i++) {
if (kinds.at(i) == tokens.at(currentIndex)->getKind()) {
if (shouldAdvance)
currentIndex++;
return true;
}
}
return false;
}
}
void Parser::markError(optional<TokenKind> expectedTokenKind, optional<string> message) {
shared_ptr<Token> actualToken = tokens.at(currentIndex);
// Try reaching the next safe token
vector<TokenKind> safeKinds = {TokenKind::END};
if (!actualToken->isOfKind({TokenKind::NEW_LINE}))
safeKinds.push_back(TokenKind::NEW_LINE);
if (!actualToken->isOfKind({TokenKind::SEMICOLON}))
safeKinds.push_back(TokenKind::SEMICOLON);
while (!tryMatchingTokenKinds(safeKinds, false, true))
currentIndex++;
errors.push_back(Error::parserError(actualToken, expectedTokenKind, message));
}
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