#include #include "Binder.hpp" #include "../TableScriptType.hpp" #include "BoundExpressions/BoundTableExpression.hpp" #include "../UserData/UserDataScriptType.hpp" #include using namespace Porygon::Parser; namespace Porygon::Binder { BoundScriptStatement *Binder::Bind(Script *script, const ParsedScriptStatement *s, BoundScope *scriptScope) { auto binder = Binder(); binder._scriptData = script; binder._scope = scriptScope; auto statements = s->GetStatements(); vector boundStatements(statements->size()); for (int i = 0; i < statements->size(); i++) { boundStatements[i] = binder.BindStatement(statements->at(i)); } return new BoundScriptStatement(boundStatements, scriptScope->GetLocalVariableCount()); } Binder::~Binder() { delete _scope; } BoundStatement *Binder::BindStatement(const ParsedStatement *statement) { switch (statement->GetKind()) { case ParsedStatementKind::Script: throw; // This shouldn't happen. case ParsedStatementKind::Block: return this->BindBlockStatement(statement); case ParsedStatementKind::Expression: return this->BindExpressionStatement(statement); case ParsedStatementKind::Assignment: return this->BindAssignmentStatement(statement); case ParsedStatementKind::IndexAssignment: return this->BindIndexAssignmentStatement(statement); case ParsedStatementKind::FunctionDeclaration: return this->BindFunctionDeclarationStatement(statement); case ParsedStatementKind::Return: return this->BindReturnStatement(statement); case ParsedStatementKind::Conditional: return this->BindConditionalStatement(statement); case ParsedStatementKind::NumericalFor: return this->BindNumericalForStatement(statement); case ParsedStatementKind::GenericFor: return this -> BindGenericForStatement(statement); case ParsedStatementKind::Bad: return new BoundBadStatement(); } } BoundStatement *Binder::BindBlockStatement(const ParsedStatement *statement) { auto statements = ((ParsedBlockStatement *) statement)->GetStatements(); vector boundStatements(statements->size()); this->_scope->GoInnerScope(); for (int i = 0; i < statements->size(); i++) { boundStatements[i] = this->BindStatement(statements->at(i)); } this->_scope->GoOuterScope(); return new BoundBlockStatement(boundStatements); } BoundStatement *Binder::BindExpressionStatement(const ParsedStatement *statement) { auto exp = ((ParsedExpressionStatement *) statement)->GetExpression(); return new BoundExpressionStatement(this->BindExpression(exp)); } BoundStatement *Binder::BindAssignmentStatement(const ParsedStatement *statement) { auto s = (ParsedAssignmentStatement *) statement; auto boundExpression = this->BindExpression(s->GetExpression()); VariableAssignment assignment = s->IsLocal() ? this->_scope->CreateExplicitLocal(s->GetIdentifier(), boundExpression->GetType()) : this->_scope->AssignVariable(s->GetIdentifier(), boundExpression->GetType()); if (assignment.GetResult() == VariableAssignmentResult::Ok) { auto key = assignment.GetKey(); return new BoundAssignmentStatement(key, boundExpression); } else { this->_scriptData->Diagnostics->LogError(Diagnostics::DiagnosticCode::CantAssignVariable, statement->GetStartPosition(), statement->GetLength()); return new BoundBadStatement(); } } BoundStatement *Binder::BindIndexAssignmentStatement(const ParsedStatement *statement) { auto s = (ParsedIndexAssignmentStatement *) statement; auto indexExp = s->GetIndexExpression(); const BoundExpression *indexable; if (indexExp->GetKind() == ParsedExpressionKind::Indexer) { indexable = this->BindIndexExpression((IndexExpression *) indexExp, true); } else { indexable = this->BindPeriodIndexExpression((PeriodIndexExpression *) indexExp, true); } auto valueExpression = this->BindExpression(s->GetValueExpression()); auto boundIndexType = indexable->GetType(); if (boundIndexType->GetClass() != TypeClass::Error && boundIndexType->operator!=(valueExpression->GetType().get())) { this->_scriptData->Diagnostics->LogError(Diagnostics::DiagnosticCode::InvalidTableValueType, statement->GetStartPosition(), statement->GetLength()); return new BoundBadStatement(); } return new BoundIndexAssignmentStatement(indexable, valueExpression); } std::shared_ptr ParseTypeIdentifier(const HashedString& s) { auto hash = s.GetHash(); switch (hash) { case HashedString::ConstHash("number"): return std::make_shared(false, false); case HashedString::ConstHash("bool"): return std::make_shared(TypeClass::Bool); case HashedString::ConstHash("string"): return std::make_shared(false, 0); default: if (!UserData::UserDataStorage::HasUserDataType(hash)) { return nullptr; } return std::make_shared(hash); } } BoundStatement *Binder::BindFunctionDeclarationStatement(const ParsedStatement *statement) { auto functionStatement = (ParsedFunctionDeclarationStatement *) statement; auto parameters = functionStatement->GetParameters(); auto parameterTypes = vector>(parameters->size()); auto parameterKeys = vector>(parameters->size()); auto scopeIndex = this->_scope->GetCurrentScope(); this->_scope->GoInnerScope(); for (int i = 0; i < parameters->size(); i++) { auto var = parameters->at(i); auto parsedType = ParseTypeIdentifier(var->GetType()); if (parsedType == nullptr) { this->_scriptData->Diagnostics->LogError(Diagnostics::DiagnosticCode::InvalidTypeName, statement->GetStartPosition(), statement->GetLength()); return new BoundBadStatement(); } parameterTypes.at(i) = parsedType; auto parameterAssignment = this->_scope->CreateExplicitLocal(var->GetIdentifier(), parsedType); if (parameterAssignment.GetResult() == VariableAssignmentResult::Ok) { parameterKeys.at(i) = std::shared_ptr(parameterAssignment.GetKey()); } else { //TODO: log error continue; } } auto identifier = functionStatement->GetIdentifier(); auto returnType = make_shared(TypeClass::Nil); auto type = make_shared(returnType, parameterTypes, parameterKeys, scopeIndex); this->_currentFunction = type; auto assignment = this->_scope->AssignVariable(identifier, type); if (assignment.GetResult() != VariableAssignmentResult::Ok) { this->_scriptData->Diagnostics->LogError(Diagnostics::DiagnosticCode::CantAssignVariable, statement->GetStartPosition(), statement->GetLength()); return new BoundBadStatement(); } auto boundBlock = this->BindBlockStatement(functionStatement->GetBlock()); this->_scope->GoOuterScope(); this->_currentFunction = nullptr; return new BoundFunctionDeclarationStatement(type, assignment.GetKey(), (BoundBlockStatement *) boundBlock); } BoundStatement *Binder::BindReturnStatement(const ParsedStatement *statement) { auto expression = ((ParsedReturnStatement *) statement)->GetExpression(); shared_ptr currentReturnType; if (this->_currentFunction == nullptr) { currentReturnType = this->_scriptData->GetReturnType(); } else { currentReturnType = this->_currentFunction->GetReturnType(); } if (expression == nullptr && (currentReturnType != nullptr && currentReturnType -> GetClass() != TypeClass::Nil)) { this->_scriptData->Diagnostics->LogError(Diagnostics::DiagnosticCode::InvalidReturnType, statement->GetStartPosition(), statement->GetLength()); return new BoundBadStatement(); } else if (expression == nullptr){ currentReturnType = make_shared(TypeClass::Nil); return new BoundReturnStatement(nullptr); } auto boundExpression = this->BindExpression(expression); auto expresionType = boundExpression->GetType(); if (currentReturnType == nullptr || currentReturnType->GetClass() == TypeClass::Nil) { if (this->_currentFunction == nullptr) { this->_scriptData->SetReturnType(expresionType); } else { this->_currentFunction->SetReturnType(expresionType); } return new BoundReturnStatement(boundExpression); } if (currentReturnType.get()->operator!=(expresionType.get())) { this->_scriptData->Diagnostics->LogError(Diagnostics::DiagnosticCode::InvalidReturnType, statement->GetStartPosition(), statement->GetLength()); return new BoundBadStatement(); } return new BoundReturnStatement(boundExpression); } BoundStatement *Binder::BindConditionalStatement(const ParsedStatement *statement) { auto conditionalStatement = (ParsedConditionalStatement *) statement; auto boundCondition = this->BindExpression(conditionalStatement->GetCondition()); if (boundCondition->GetType()->GetClass() != TypeClass::Bool) { this->_scriptData->Diagnostics->LogError(Diagnostics::DiagnosticCode::ConditionNotABool, statement->GetStartPosition(), statement->GetLength()); return new BoundBadStatement(); } auto boundBlock = this->BindStatement(conditionalStatement->GetBlock()); BoundStatement *elseStatement = nullptr; if (conditionalStatement->GetElseStatement() != nullptr) { elseStatement = this->BindStatement(conditionalStatement->GetElseStatement()); } return new BoundConditionalStatement(boundCondition, boundBlock, elseStatement); } BoundStatement *Binder::BindNumericalForStatement(const ParsedStatement *statement) { auto forStatement = (ParsedNumericalForStatement*) statement; auto identifier = forStatement->GetIdentifier(); auto start = this -> BindExpression(forStatement->GetStart()); auto end = this -> BindExpression(forStatement->GetEnd()); auto parsedStep = forStatement -> GetStep(); BoundExpression* step = nullptr; if (parsedStep != nullptr){ step = this -> BindExpression(parsedStep); } if (start -> GetType()->GetClass() != TypeClass::Number){ this->_scriptData->Diagnostics->LogError(Diagnostics::DiagnosticCode::NumericalForArgumentNotANumber, start->GetStartPosition(), start->GetLength()); return new BoundBadStatement(); } if (end -> GetType()->GetClass() != TypeClass::Number){ this->_scriptData->Diagnostics->LogError(Diagnostics::DiagnosticCode::NumericalForArgumentNotANumber, end->GetStartPosition(), end->GetLength()); return new BoundBadStatement(); } if (step != nullptr && step -> GetType()->GetClass() != TypeClass::Number){ this->_scriptData->Diagnostics->LogError(Diagnostics::DiagnosticCode::NumericalForArgumentNotANumber, step->GetStartPosition(), step->GetLength()); return new BoundBadStatement(); } this -> _scope ->GoInnerScope(); auto variableKey = this -> _scope ->CreateExplicitLocal(identifier, make_shared(true, false)); if (variableKey.GetResult() != VariableAssignmentResult::Ok){ this->_scriptData->Diagnostics->LogError(Diagnostics::DiagnosticCode::CantAssignVariable, statement->GetStartPosition(), statement->GetLength()); return new BoundBadStatement(); } auto block = this -> BindBlockStatement(forStatement->GetBlock()); this -> _scope ->GoOuterScope(); return new BoundNumericalForStatement(variableKey.GetKey(), start, end, step, block); } BoundStatement *Binder::BindGenericForStatement(const ParsedStatement *statement) { auto genericFor = (ParsedGenericForStatement*) statement; auto boundIterator = BindExpression(genericFor -> GetIteratorExpression()); const auto& itType = boundIterator -> GetType(); if (!itType -> CanBeIterated()){ this->_scriptData->Diagnostics->LogError(Diagnostics::DiagnosticCode::CantIterateExpression, statement->GetStartPosition(), statement->GetLength()); return new BoundBadStatement(); } auto keyType = itType -> GetIteratorKeyType(); auto keyIdentifier = genericFor -> GetKeyIdentifier(); this -> _scope -> GoInnerScope(); auto keyVariableAssignment = this -> _scope -> CreateExplicitLocal(keyIdentifier, keyType); if (keyVariableAssignment.GetResult() != VariableAssignmentResult::Ok){ this->_scriptData->Diagnostics->LogError(Diagnostics::DiagnosticCode::CantAssignVariable, statement->GetStartPosition(), statement->GetLength()); return new BoundBadStatement(); } auto keyVariable = keyVariableAssignment.GetKey(); auto valueIdentifier = genericFor -> GetValueIdentifier(); auto isValueVariableDefined = valueIdentifier.GetHash() != 0; BoundVariableKey* valueVariable = nullptr; if (isValueVariableDefined){ auto valueType = itType -> GetIndexedType(keyType.get()); auto valueVariableAssignment = this -> _scope -> CreateExplicitLocal(valueIdentifier, valueType); if (valueVariableAssignment.GetResult() != VariableAssignmentResult::Ok){ this->_scriptData->Diagnostics->LogError(Diagnostics::DiagnosticCode::CantAssignVariable, statement->GetStartPosition(), statement->GetLength()); return new BoundBadStatement(); } valueVariable = valueVariableAssignment.GetKey(); } auto boundBlock = this -> BindBlockStatement(genericFor -> GetBlock()); this -> _scope -> GoOuterScope(); return new BoundGenericForStatement(keyVariable, valueVariable, boundIterator, boundBlock); } ///////////////// // Expressions // ///////////////// BoundExpression *Binder::BindExpression(const ParsedExpression *expression) { switch (expression->GetKind()) { case ParsedExpressionKind::LiteralInteger: return new BoundLiteralIntegerExpression(((LiteralIntegerExpression *) expression)->GetValue(), expression->GetStartPosition(), expression->GetLength()); case ParsedExpressionKind::LiteralFloat: return new BoundLiteralFloatExpression(((LiteralFloatExpression *) expression)->GetValue(), expression->GetStartPosition(), expression->GetLength()); case ParsedExpressionKind::LiteralString: return new BoundLiteralStringExpression(((LiteralStringExpression *) expression)->GetValue(), expression->GetStartPosition(), expression->GetLength()); case ParsedExpressionKind::LiteralBool: return new BoundLiteralBoolExpression(((LiteralBoolExpression *) expression)->GetValue(), expression->GetStartPosition(), expression->GetLength()); case ParsedExpressionKind::Variable: return this->BindVariableExpression((VariableExpression *) expression); case ParsedExpressionKind::Binary: return this->BindBinaryOperator((BinaryExpression *) expression); case ParsedExpressionKind::Unary: return this->BindUnaryOperator((UnaryExpression *) expression); case ParsedExpressionKind::Parenthesized: return BindExpression(((ParenthesizedExpression *) expression)->GetInnerExpression()); case ParsedExpressionKind::FunctionCall: return this->BindFunctionCall((FunctionCallExpression *) expression); case ParsedExpressionKind::Indexer: return this->BindIndexExpression((IndexExpression *) expression, false); case ParsedExpressionKind::PeriodIndexer: return this->BindPeriodIndexExpression((PeriodIndexExpression *) expression, false); case ParsedExpressionKind::NumericalTable: return this->BindNumericalTableExpression((ParsedNumericalTableExpression *) expression); case ParsedExpressionKind::Table: return this->BindTableExpression((ParsedTableExpression *) expression); case ParsedExpressionKind::Bad: return new BoundBadExpression(expression->GetStartPosition(), expression->GetLength()); } } BoundExpression *Binder::BindVariableExpression(const VariableExpression *expression) { auto key = expression->GetValue(); auto scope = this->_scope->Exists(key); if (scope == -1) { this->_scriptData->Diagnostics->LogError(Diagnostics::DiagnosticCode::VariableNotFound, expression->GetStartPosition(), expression->GetLength()); return new BoundBadExpression(expression->GetStartPosition(), expression->GetLength()); } auto var = this->_scope->GetVariable(scope, key); auto type = var->GetType(); return new BoundVariableExpression(new BoundVariableKey(key, scope, false), type, expression->GetStartPosition(), expression->GetLength()); } BoundExpression *Binder::BindBinaryOperator(const BinaryExpression *expression) { auto boundLeft = this->BindExpression(expression->GetLeft()); auto boundRight = this->BindExpression(expression->GetRight()); auto boundLeftType = boundLeft->GetType(); auto boundRightType = boundRight->GetType(); switch (expression->GetOperatorKind()) { case BinaryOperatorKind::Addition: if (boundLeftType->GetClass() == TypeClass::Number && boundRightType->GetClass() == TypeClass::Number) { auto leftNumeric = std::dynamic_pointer_cast(boundLeftType); auto rightNumeric = std::dynamic_pointer_cast(boundRightType); if (leftNumeric->IsAwareOfFloat() && rightNumeric->IsAwareOfFloat()) { return new BoundBinaryExpression(boundLeft, boundRight, BoundBinaryOperation::Addition, std::make_shared(true, leftNumeric->IsFloat() || rightNumeric->IsFloat()), expression->GetStartPosition(), expression->GetLength()); } else { return new BoundBinaryExpression(boundLeft, boundRight, BoundBinaryOperation::Addition, std::make_shared(false, false), expression->GetStartPosition(), expression->GetLength()); } } else if (boundLeftType->GetClass() == TypeClass::String) { return new BoundBinaryExpression(boundLeft, boundRight, BoundBinaryOperation::Concatenation, std::make_shared(false, 0), expression->GetStartPosition(), expression->GetLength()); } break; case BinaryOperatorKind::Subtraction: if (boundLeftType->GetClass() == TypeClass::Number && boundRightType->GetClass() == TypeClass::Number) { auto leftNumeric = std::dynamic_pointer_cast(boundLeftType); auto rightNumeric = std::dynamic_pointer_cast(boundRightType); if (leftNumeric->IsAwareOfFloat() && rightNumeric->IsAwareOfFloat()) { return new BoundBinaryExpression(boundLeft, boundRight, BoundBinaryOperation::Subtraction, std::make_shared(true, leftNumeric->IsFloat() || rightNumeric->IsFloat()), expression->GetStartPosition(), expression->GetLength()); } else { return new BoundBinaryExpression(boundLeft, boundRight, BoundBinaryOperation::Subtraction, std::make_shared(false, false), expression->GetStartPosition(), expression->GetLength()); } } break; case BinaryOperatorKind::Multiplication: if (boundLeftType->GetClass() == TypeClass::Number && boundRightType->GetClass() == TypeClass::Number) { auto leftNumeric = std::dynamic_pointer_cast(boundLeftType); auto rightNumeric = std::dynamic_pointer_cast(boundRightType); if (leftNumeric->IsAwareOfFloat() && rightNumeric->IsAwareOfFloat()) { return new BoundBinaryExpression(boundLeft, boundRight, BoundBinaryOperation::Multiplication, std::make_shared(true, leftNumeric->IsFloat() || rightNumeric->IsFloat()), expression->GetStartPosition(), expression->GetLength()); } else { return new BoundBinaryExpression(boundLeft, boundRight, BoundBinaryOperation::Multiplication, std::make_shared(false, false), expression->GetStartPosition(), expression->GetLength()); } } break; case BinaryOperatorKind::Division: if (boundLeftType->GetClass() == TypeClass::Number && boundRightType->GetClass() == TypeClass::Number) { auto leftNumeric = std::dynamic_pointer_cast(boundLeftType); auto rightNumeric = std::dynamic_pointer_cast(boundRightType); if (leftNumeric->IsAwareOfFloat() && rightNumeric->IsAwareOfFloat()) { return new BoundBinaryExpression(boundLeft, boundRight, BoundBinaryOperation::Division, std::make_shared(true, leftNumeric->IsFloat() || rightNumeric->IsFloat()), expression->GetStartPosition(), expression->GetLength()); } else { return new BoundBinaryExpression(boundLeft, boundRight, BoundBinaryOperation::Division, std::make_shared(false, false), expression->GetStartPosition(), expression->GetLength()); } } break; case BinaryOperatorKind::Equality: return new BoundBinaryExpression(boundLeft, boundRight, BoundBinaryOperation::Equality, std::make_shared(TypeClass::Bool), expression->GetStartPosition(), expression->GetLength()); case BinaryOperatorKind::Inequality: return new BoundBinaryExpression(boundLeft, boundRight, BoundBinaryOperation::Inequality, std::make_shared(TypeClass::Bool), expression->GetStartPosition(), expression->GetLength()); case BinaryOperatorKind::Less: if (boundLeft->GetType()->GetClass() == TypeClass::Number && boundRight->GetType()->GetClass() == TypeClass::Number) { return new BoundBinaryExpression(boundLeft, boundRight, BoundBinaryOperation::LessThan, std::make_shared(TypeClass::Bool), expression->GetStartPosition(), expression->GetLength()); } case BinaryOperatorKind::LessOrEquals: if (boundLeft->GetType()->GetClass() == TypeClass::Number && boundRight->GetType()->GetClass() == TypeClass::Number) { return new BoundBinaryExpression(boundLeft, boundRight, BoundBinaryOperation::LessThanEquals, std::make_shared(TypeClass::Bool), expression->GetStartPosition(), expression->GetLength()); } case BinaryOperatorKind::Greater: if (boundLeft->GetType()->GetClass() == TypeClass::Number && boundRight->GetType()->GetClass() == TypeClass::Number) { return new BoundBinaryExpression(boundLeft, boundRight, BoundBinaryOperation::GreaterThan, std::make_shared(TypeClass::Bool), expression->GetStartPosition(), expression->GetLength()); } case BinaryOperatorKind::GreaterOrEquals: if (boundLeft->GetType()->GetClass() == TypeClass::Number && boundRight->GetType()->GetClass() == TypeClass::Number) { return new BoundBinaryExpression(boundLeft, boundRight, BoundBinaryOperation::GreaterThanEquals, std::make_shared(TypeClass::Bool), expression->GetStartPosition(), expression->GetLength()); } case BinaryOperatorKind::LogicalAnd: if (boundLeftType->GetClass() == TypeClass::Bool && boundRightType->GetClass() == TypeClass::Bool) return new BoundBinaryExpression(boundLeft, boundRight, BoundBinaryOperation::LogicalAnd, std::make_shared(TypeClass::Bool), expression->GetStartPosition(), expression->GetLength()); break; case BinaryOperatorKind::LogicalOr: if (boundLeftType->GetClass() == TypeClass::Bool && boundRightType->GetClass() == TypeClass::Bool) return new BoundBinaryExpression(boundLeft, boundRight, BoundBinaryOperation::LogicalOr, std::make_shared(TypeClass::Bool), expression->GetStartPosition(), expression->GetLength()); break; } this->_scriptData->Diagnostics->LogError(Diagnostics::DiagnosticCode::NoBinaryOperationFound, expression->GetStartPosition(), expression->GetLength()); return new BoundBadExpression(expression->GetStartPosition(), expression->GetLength()); } BoundExpression *Binder::BindUnaryOperator(const UnaryExpression *expression) { auto operand = this->BindExpression(expression->GetOperand()); auto operandType = operand->GetType(); switch (expression->GetOperatorKind()) { case UnaryOperatorKind::Identity: if (operandType->GetClass() == TypeClass::Number) { // Identity won't change anything during evaluation, so just return the inner operand. return operand; } break; case UnaryOperatorKind::Negation: if (operandType->GetClass() == TypeClass::Number) { auto innerType = std::dynamic_pointer_cast(operandType); return new BoundUnaryExpression(operand, BoundUnaryOperation::Negation, std::make_shared( innerType.get()->IsAwareOfFloat(), innerType.get()->IsFloat()), expression->GetStartPosition(), expression->GetLength()); } break; case UnaryOperatorKind::LogicalNegation: if (operandType->GetClass() == TypeClass::Bool) { return new BoundUnaryExpression(operand, BoundUnaryOperation::LogicalNegation, std::make_shared(TypeClass::Bool), expression->GetStartPosition(), expression->GetLength()); } break; default: break; } this->_scriptData->Diagnostics->LogError(Diagnostics::DiagnosticCode::NoUnaryOperationFound, expression->GetStartPosition(), expression->GetLength()); return new BoundBadExpression(expression->GetStartPosition(), expression->GetLength()); } BoundExpression *Binder::BindFunctionCall(const FunctionCallExpression *expression) { auto functionExpression = BindExpression(expression->GetFunction()); auto type = functionExpression->GetType(); if (type->GetClass() != TypeClass::Function) { this->_scriptData->Diagnostics->LogError(Diagnostics::DiagnosticCode::ExpressionIsNotAFunction, expression->GetStartPosition(), expression->GetLength()); return new BoundBadExpression(expression->GetStartPosition(), expression->GetLength()); } auto functionType = std::dynamic_pointer_cast(type); auto parameterTypes = functionType->GetParameterTypes(); auto givenParameters = expression->GetParameters(); if (parameterTypes.size() != givenParameters->size()) { this->_scriptData->Diagnostics->LogError(Diagnostics::DiagnosticCode::ParameterCountMismatch, expression->GetStartPosition(), expression->GetLength()); return new BoundBadExpression(expression->GetStartPosition(), expression->GetLength()); } vector boundParameters = vector(givenParameters->size()); for (int i = 0; i < givenParameters->size(); i++) { auto parameter = givenParameters->at(i); auto boundParameter = this->BindExpression(parameter); if (boundParameter->GetType().get()->operator!=(parameterTypes.at(i).get())) { this->_scriptData->Diagnostics->LogError(Diagnostics::DiagnosticCode::ParameterTypeMismatch, parameter->GetStartPosition(), parameter->GetLength()); return new BoundBadExpression(expression->GetStartPosition(), expression->GetLength()); } boundParameters[i] = boundParameter; } return new BoundFunctionCallExpression(functionExpression, boundParameters, functionType.get()->GetReturnType(), expression->GetStartPosition(), expression->GetLength()); } BoundExpression *Binder::BindIndexExpression(const IndexExpression *expression, bool setter) { auto indexer = this->BindExpression(expression->GetIndexer()); auto index = this->BindExpression(expression->GetIndex()); auto indexerType = indexer->GetType(); if (!indexerType->CanBeIndexedWith(index->GetType().get())) { this->_scriptData->Diagnostics->LogError(Diagnostics::DiagnosticCode::CantIndex, index->GetStartPosition(), index->GetLength()); return new BoundBadExpression(expression->GetStartPosition(), expression->GetLength()); } if (indexerType->GetClass() == TypeClass::UserData) { auto stringKey = dynamic_pointer_cast(index->GetType()); auto field = dynamic_pointer_cast(indexerType)->GetField(stringKey->GetHashValue()); if (!setter) { if (!field->HasGetter()) { this->_scriptData->Diagnostics->LogError(Diagnostics::DiagnosticCode::UserDataFieldNoGetter, index->GetStartPosition(), index->GetLength()); return new BoundBadExpression(expression->GetStartPosition(), expression->GetLength()); } } else { if (!field->HasSetter()) { this->_scriptData->Diagnostics->LogError(Diagnostics::DiagnosticCode::UserDataFieldNoSetter, index->GetStartPosition(), index->GetLength()); return new BoundBadExpression(expression->GetStartPosition(), expression->GetLength()); } } } auto resultType = indexer->GetType()->GetIndexedType(index->GetType().get()); return new BoundIndexExpression(indexer, index, resultType, expression->GetStartPosition(), expression->GetLength()); } BoundExpression *Binder::BindPeriodIndexExpression(const PeriodIndexExpression *expression, bool setter) { auto indexer = this->BindExpression(expression->GetIndexer()); const auto &identifier = expression->GetIndex(); const auto &indexerType = indexer->GetType(); if (!indexerType->CanBeIndexedWithIdentifier(identifier.GetHash())) { this->_scriptData->Diagnostics->LogError(Diagnostics::DiagnosticCode::CantIndex, expression->GetStartPosition(), expression->GetLength()); return new BoundBadExpression(expression->GetStartPosition(), expression->GetLength()); } if (indexerType->GetClass() == TypeClass::UserData) { auto field = dynamic_pointer_cast(indexerType)->GetField(identifier.GetHash()); if (!setter) { if (!field->HasGetter()) { this->_scriptData->Diagnostics->LogError(Diagnostics::DiagnosticCode::UserDataFieldNoGetter, expression->GetStartPosition(), expression->GetLength()); return new BoundBadExpression(expression->GetStartPosition(), expression->GetLength()); } } else { if (!field->HasSetter()) { this->_scriptData->Diagnostics->LogError(Diagnostics::DiagnosticCode::UserDataFieldNoSetter, expression->GetStartPosition(), expression->GetLength()); return new BoundBadExpression(expression->GetStartPosition(), expression->GetLength()); } } } auto resultType = indexer->GetType()->GetIndexedType(identifier.GetHash()); return new BoundPeriodIndexExpression(indexer, identifier, resultType, expression->GetStartPosition(), expression->GetLength()); } BoundExpression *Binder::BindNumericalTableExpression(const ParsedNumericalTableExpression *expression) { auto expressions = expression->GetExpressions(); auto boundExpressions = vector(expressions->size()); shared_ptr valueType = nullptr; if (!boundExpressions.empty()) { boundExpressions[0] = this->BindExpression(expressions->at(0)); valueType = boundExpressions[0]->GetType(); for (int i = 1; i < expressions->size(); i++) { boundExpressions[i] = this->BindExpression(expressions->at(i)); if (boundExpressions[i]->GetType().get()->operator!=(valueType.get())) { this->_scriptData->Diagnostics->LogError(Diagnostics::DiagnosticCode::InvalidTableValueType, boundExpressions[i]->GetStartPosition(), boundExpressions[i]->GetLength()); } } } if (valueType == nullptr) { valueType = std::make_shared(TypeClass::Nil); } auto tableType = std::make_shared(valueType); return new BoundNumericalTableExpression(boundExpressions, tableType, expression->GetStartPosition(), expression->GetLength()); } BoundExpression *Binder::BindTableExpression(const ParsedTableExpression *expression) { auto tableScope = new map(); auto innerScope = new BoundScope(tableScope); auto currentScope = this->_scope; this->_scope = innerScope; auto block = this->BindBlockStatement(expression->GetBlock()); this->_scope = currentScope; auto tableType = std::make_shared(tableScope, innerScope->GetLocalVariableCount()); delete innerScope; return new BoundTableExpression((BoundBlockStatement *) block, tableType, expression->GetStartPosition(), expression->GetLength()); } }