#ifndef INTERPRETER_CALL_EXPRESSION_NODE_HPP
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#define INTERPRETER_CALL_EXPRESSION_NODE_HPP
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#include <string>
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#include <vector>
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#include <memory>
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#include "Interpreter/ExpressionNode.hpp"
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#include "Interpreter/Interpreter.hpp"
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#include "Interpreter/ReturnException.hpp"
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#include "Interpreter/OperationContainer.hpp"
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#include "Interpreter/Operation.hpp"
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#include "Symbols/SymbolContainer.hpp"
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#include "Symbols/SymbolFactory.hpp"
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#include "Symbols/FunctionSymbol.hpp"
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#include "Symbols/Value.hpp"
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#include "Modules/ModuleManager.hpp"
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namespace Interpreter {
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/**
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* @brief Expression node representing a function call returning a value.
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*/
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class CallExpressionNode : public ExpressionNode {
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std::string functionName_;
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std::vector<std::unique_ptr<ExpressionNode>> args_;
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// Source location for error reporting
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std::string filename_;
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int line_;
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size_t column_;
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public:
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CallExpressionNode(std::string functionName,
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std::vector<std::unique_ptr<ExpressionNode>> args,
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const std::string & filename,
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int line, size_t column) :
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functionName_(std::move(functionName)), args_(std::move(args)),
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filename_(filename), line_(line), column_(column) {}
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Symbols::Value evaluate(Interpreter &interpreter) const override {
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using namespace Symbols;
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try {
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// Evaluate argument expressions
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std::vector<Value> argValues;
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argValues.reserve(args_.size());
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for (const auto &expr : args_) {
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argValues.push_back(expr->evaluate(interpreter));
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}
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// Built-in function
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auto &mgr = Modules::ModuleManager::instance();
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if (mgr.hasFunction(functionName_)) {
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return mgr.callFunction(functionName_, argValues);
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}
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// User-defined function: lookup through scope hierarchy
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SymbolContainer *sc = SymbolContainer::instance();
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std::string lookupNs = sc->currentScopeName();
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std::shared_ptr<FunctionSymbol> funcSym;
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// Search for function symbol in current and parent scopes
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while (true) {
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std::string fnSymNs = lookupNs + ".functions";
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auto sym = sc->get(fnSymNs, functionName_);
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if (sym && sym->getKind() == Kind::Function) {
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funcSym = std::static_pointer_cast<FunctionSymbol>(sym);
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break;
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}
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auto pos = lookupNs.find_last_of('.');
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if (pos == std::string::npos) {
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break;
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}
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lookupNs = lookupNs.substr(0, pos);
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}
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if (!funcSym) {
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throw std::runtime_error("Function not found: " + functionName_);
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}
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const auto ¶ms = funcSym->parameters();
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if (params.size() != argValues.size()) {
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throw std::runtime_error(
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"Function '" + functionName_ + "' expects " + std::to_string(params.size()) +
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" args, got " + std::to_string(argValues.size()));
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}
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// Enter function scope and bind parameters
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const std::string fnOpNs = funcSym->context() + "." + functionName_;
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sc->enter(fnOpNs);
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for (size_t i = 0; i < params.size(); ++i) {
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const auto &p = params[i];
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const Value &v = argValues[i];
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auto varSym = SymbolFactory::createVariable(p.name, v, fnOpNs);
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sc->add(varSym);
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}
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// Execute function body operations and capture return
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Symbols::Value returnValue;
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auto ops = Operations::Container::instance()->getAll(fnOpNs);
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for (const auto &op : ops) {
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try {
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interpreter.runOperation(*op);
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} catch (const ReturnException &ret) {
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returnValue = ret.value();
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break;
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}
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}
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sc->enterPreviousScope();
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return returnValue;
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} catch (const std::exception &e) {
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throw ::Interpreter::Exception(e.what(), filename_, line_, column_);
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}
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// Unreachable: all paths either return or throw
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return Symbols::Value();
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}
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std::string toString() const override {
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return "CallExpressionNode{ function='" + functionName_ + "', args=" + std::to_string(args_.size()) + " }";
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}
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};
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} // namespace Interpreter
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#endif // INTERPRETER_CALL_EXPRESSION_NODE_HPP
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