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@ -10,10 +10,14 @@ namespace IR
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// You can define global variables here
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// to store state
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std::vector<SysYF::Ptr<Type>> funcParam;
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int exprRes = 0;
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// store temporary value
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Ptr<Value> tmp_val = nullptr;
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std::vector<SysYF::Ptr<Type>> funcFParam;
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int exprRes = 0;
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std::string curFuncName = "";
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Ptr<SysYF::IR::Instruction> tmpInst;
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bool isFloat = false;
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// types
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Ptr<Type> VOID_T;
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@ -61,13 +65,13 @@ void IRBuilder::visit(SyntaxTree::InitVal &node) {
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void IRBuilder::visit(SyntaxTree::FuncDef &node) {
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node.param_list->accept(*this);
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auto funcType = FunctionType::create(GetType(node.ret_type), funcParam);
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auto funcType = FunctionType::create(GetType(node.ret_type), funcFParam);
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auto createFunc = Function::create(funcType, node.name, module);
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node.body->accept(*this);
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}
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void IRBuilder::visit(SyntaxTree::FuncFParamList &node) {
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funcParam.clear();
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funcFParam.clear();
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for (const auto ¶ : node.params) {
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para->accept(*this);
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}
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@ -77,30 +81,30 @@ void IRBuilder::visit(SyntaxTree::FuncParam &node) {
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case SyntaxTree::Type::INT:
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if (!node.array_index.empty()) {
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// TODO: high dim array
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funcParam.push_back(INT32PTR_T);
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funcFParam.push_back(INT32PTR_T);
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}
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else
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funcParam.push_back(INT32_T);
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funcFParam.push_back(INT32_T);
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break;
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case SyntaxTree::Type::FLOAT:
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if (!node.array_index.empty()) {
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// TODO: high dim array
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funcParam.push_back(FLOATPTR_T);
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funcFParam.push_back(FLOATPTR_T);
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}
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else
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funcParam.push_back(FLOAT_T);
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funcFParam.push_back(FLOAT_T);
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break;
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case SyntaxTree::Type::VOID:
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funcParam.push_back(VOID_T);
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funcFParam.push_back(VOID_T);
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break;
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case SyntaxTree::Type::STRING:
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funcParam.push_back(INT32PTR_T);
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funcFParam.push_back(INT32PTR_T);
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break;
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case SyntaxTree::Type::BOOL:
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funcParam.push_back(INT1_T);
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funcFParam.push_back(INT1_T);
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break;
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default:
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funcParam.push_back(INT32_T);
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funcFParam.push_back(INT32_T);
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break;
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}
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}
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@ -110,47 +114,207 @@ void IRBuilder::visit(SyntaxTree::VarDef &node) {
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}
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void IRBuilder::visit(SyntaxTree::LVal &node) {
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auto ident = scope.find(node.name, false);
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if (!node.array_index.empty()) {
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//TODO: high dim array
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node.array_index[0]->accept(*this);
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auto index = tmpInst;
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tmpInst = builder->create_gep(ident, {CONST_INT(0), index});
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}
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else {
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tmpInst = dynamic_pointer_cast<Instruction>(ident);
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}
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}
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void IRBuilder::visit(SyntaxTree::AssignStmt &node) {
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node.target->accept(*this);
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auto target = tmpInst;
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node.value->accept(*this);
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auto value = tmpInst;
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builder->create_store(value, target);
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}
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void IRBuilder::visit(SyntaxTree::Literal &node) {
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/*
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switch(node.literal_type) {
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case SyntaxTree::Type::INT:
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tmp_val = CONST_INT(node.int_val);
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break;
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case SyntaxTree::Type::FLOAT:
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tmp_val = CONST_FLOAT(node.float_val);
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break;
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case SyntaxTree::Type::BOOL:
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tmp_val = CONST_INT(node.bool_val);
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break;
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case SyntaxTree::Type::STRING:
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tmp_val = CONST_INT(node.str_val);
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break;
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default:
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tmp_val = CONST_INT(0);
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break;
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}
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*/
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}
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void IRBuilder::visit(SyntaxTree::ReturnStmt &node) {
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node.ret->accept(*this);
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builder->create_ret(tmpInst);
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return ;
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}
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void IRBuilder::visit(SyntaxTree::BlockStmt &node) {
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for (const auto &stmt : node.body) {
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stmt->accept(*this);
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}
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return ;
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}
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void IRBuilder::visit(SyntaxTree::EmptyStmt &node) {
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return ;
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}
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void IRBuilder::visit(SyntaxTree::ExprStmt &node) {
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node.exp->accept(*this);
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return ;
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}
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void IRBuilder::visit(SyntaxTree::UnaryCondExpr &node) {
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node.rhs->accept(*this);
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switch (node.op) {
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case SyntaxTree::UnaryCondOp::NOT:
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if(isFloat){
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tmpInst = builder->create_fcmp_eq(tmpInst, CONST_FLOAT(0.0));
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}
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else
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tmpInst = builder->create_icmp_eq(tmpInst, CONST_INT(0));
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default:
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break;
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}
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}
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void IRBuilder::visit(SyntaxTree::BinaryCondExpr &node) {
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node.lhs->accept(*this);
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auto lhs = tmpInst;
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node.rhs->accept(*this);
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auto rhs = tmpInst;
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switch (node.op) {
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case SyntaxTree::BinaryCondOp::LT:
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if (isFloat) {
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tmpInst = builder->create_fcmp_lt(lhs, rhs);
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}
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else {
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tmpInst = builder->create_icmp_gt(lhs, rhs);
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}
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break;
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case SyntaxTree::BinaryCondOp::LTE:
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if (isFloat) {
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tmpInst = builder->create_fcmp_le(lhs, rhs);
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}
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else {
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tmpInst = builder->create_icmp_le(lhs, rhs);
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}
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break;
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case SyntaxTree::BinaryCondOp::GT:
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if (isFloat) {
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tmpInst = builder->create_fcmp_gt(lhs, rhs);
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}
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else {
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tmpInst = builder->create_icmp_gt(lhs, rhs);
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}
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break;
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case SyntaxTree::BinaryCondOp::GTE:
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if (isFloat) {
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tmpInst = builder->create_fcmp_ge(lhs, rhs);
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}
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else {
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tmpInst = builder->create_icmp_ge(lhs, rhs);
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}
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break;
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case SyntaxTree::BinaryCondOp::EQ:
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if (isFloat) {
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tmpInst = builder->create_fcmp_eq(lhs, rhs);
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}
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else {
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tmpInst = builder->create_icmp_eq(lhs, rhs);
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}
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break;
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case SyntaxTree::BinaryCondOp::NEQ:
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if (isFloat) {
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tmpInst = builder->create_fcmp_ne(lhs, rhs);
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}
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else {
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tmpInst = builder->create_icmp_ne(lhs, rhs);
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}
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break;
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case SyntaxTree::BinaryCondOp::LAND:
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//TODO: and
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break;
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case SyntaxTree::BinaryCondOp::LOR:
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//TODO: or
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break;
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}
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}
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void IRBuilder::visit(SyntaxTree::BinaryExpr &node) {
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node.lhs->accept(*this);
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auto lhs = tmpInst;
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node.rhs->accept(*this);
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auto rhs = tmpInst;
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switch (node.op) {
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case SyntaxTree::BinOp::PLUS:
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if(isFloat){
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tmpInst = builder->create_fadd(lhs, rhs);
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}
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else
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tmpInst = builder->create_iadd(lhs, rhs);
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break;
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case SyntaxTree::BinOp::MINUS:
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if(isFloat){
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tmpInst = builder->create_fsub(lhs, rhs);
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}
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else
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tmpInst = builder->create_isub(lhs, rhs);
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break;
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case SyntaxTree::BinOp::MULTIPLY:
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if(isFloat){
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tmpInst = builder->create_fmul(lhs, rhs);
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}
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else
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tmpInst = builder->create_imul(lhs, rhs);
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break;
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case SyntaxTree::BinOp::DIVIDE:
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if(isFloat){
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tmpInst = builder->create_fdiv(lhs, rhs);
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} else {
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tmpInst = builder->create_isdiv(lhs, rhs);
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}
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break;
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case SyntaxTree::BinOp::MODULO:
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if(isFloat){
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// not support
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} else {
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tmpInst = builder->create_isrem(lhs, rhs);
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}
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break;
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}
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}
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void IRBuilder::visit(SyntaxTree::UnaryExpr &node) {
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node.rhs->accept(*this);
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switch (node.op) {
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case SyntaxTree::UnaryOp::PLUS:
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break;
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case SyntaxTree::UnaryOp::MINUS:
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if(isFloat){
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tmpInst = builder->create_fsub(CONST_FLOAT(0.0), tmpInst);
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}
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else
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tmpInst = builder->create_isub(CONST_INT(0), tmpInst);
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break;
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default:
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break;
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}
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}
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void IRBuilder::visit(SyntaxTree::FuncCallStmt &node) {
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@ -158,11 +322,37 @@ void IRBuilder::visit(SyntaxTree::FuncCallStmt &node) {
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}
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void IRBuilder::visit(SyntaxTree::IfStmt &node) {
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auto curFunc = dynamic_pointer_cast<Function>(scope.find(curFuncName, true));
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node.cond_exp->accept(*this);
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auto cond = tmp_val;
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auto trueBB = BasicBlock::create(module, "trueBB_if", curFunc);
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auto falseBB = BasicBlock::create(module, "falseBB_if", curFunc);
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builder->create_cond_br(cond, trueBB, falseBB);
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builder->set_insert_point(trueBB);
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node.if_statement->accept(*this);
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builder->set_insert_point(falseBB);
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node.else_statement->accept(*this);
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}
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void IRBuilder::visit(SyntaxTree::WhileStmt &node) {
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auto curFunc = dynamic_pointer_cast<Function>(scope.find(curFuncName, true));
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auto condBB = BasicBlock::create(module, "condBB_while", curFunc);
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auto bodyBB = BasicBlock::create(module, "bodyBB_while", curFunc);
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auto afterBB = BasicBlock::create(module, "afterBB_while", curFunc);
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builder->create_br(condBB);
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builder->set_insert_point(condBB);
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node.cond_exp->accept(*this);
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auto cond = tmp_val;
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builder->create_cond_br(cond, bodyBB, afterBB);
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builder->set_insert_point(bodyBB);
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node.statement->accept(*this);
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builder->create_br(condBB);
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builder->set_insert_point(afterBB);
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}
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void IRBuilder::visit(SyntaxTree::BreakStmt &node) {
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Odeinjul
12 months ago