#include "rust-compile-asm.h" #include "rust-compile-expr.h" namespace Rust { namespace Compile { CompileAsm::CompileAsm (Context *ctx) : HIRCompileBase (ctx), translated (error_mark_node) {} tree CompileAsm::tree_codegen_asm (HIR::InlineAsm &expr) { auto asm_expr = asm_build_stmt (expr.get_locus (), {asm_construct_string_tree (expr), asm_construct_outputs (expr), asm_construct_inputs (expr), asm_construct_clobber_tree (expr), asm_construct_label_tree (expr)}); ASM_BASIC_P (asm_expr) = expr.is_simple_asm (); ASM_VOLATILE_P (asm_expr) = false; ASM_INLINE_P (asm_expr) = expr.is_inline_asm (); /*Backend::debug (asm_expr);*/ return asm_expr; } tree CompileAsm::asm_build_stmt ( location_t loc, const std::array &trees) { // Prototype functiion for building an ASM_EXPR tree. tree ret; bool side_effects; ret = make_node (ASM_EXPR); TREE_TYPE (ret) = void_type_node; SET_EXPR_LOCATION (ret, loc); /* TREE_SIDE_EFFECTS will already be set for statements with implicit side effects. Here we make sure it is set for other expressions by checking whether the parameters have side effects. */ // This is here because of c-typeck.cc's code // I'm not sure what kind of effects it has side_effects = false; for (size_t i = 0; i < trees.size (); i++) { tree t = trees[i]; if (t && !TYPE_P (t)) side_effects |= TREE_SIDE_EFFECTS (t); TREE_OPERAND (ret, i) = t; } TREE_SIDE_EFFECTS (ret) |= side_effects; return ret; } tree CompileAsm::asm_construct_string_tree (HIR::InlineAsm &expr) { // To construct an ASM_EXPR tree, we need to build a STRING_CST tree. // // We do this by concatenating all the template strings in the InlineAsm // into one big std::string seperated by tabs and newlines. (For easier // debugging and reading) std::stringstream ss; for (const auto &template_str : expr.template_strs) ss << template_str.symbol << "\n"; std::string result = ss.str (); return Backend::string_constant_expression (result); } tree CompileAsm::asm_construct_outputs (HIR::InlineAsm &expr) { // TODO: Do i need to do this? tree head = NULL_TREE; for (auto &output : expr.get_operands ()) { if (output.get_register_type () == AST::InlineAsmOperand::RegisterType::Out) { auto out = output.get_out (); tree out_tree = CompileExpr::Compile (out.expr.get (), this->ctx); // expects a tree list // TODO: This assumes that the output is a register std::string expr_name = "=r"; auto name = build_string (expr_name.size () + 1, expr_name.c_str ()); head = chainon (head, build_tree_list (build_tree_list (NULL_TREE, name), out_tree)); /*Backend::debug (head);*/ /*head = chainon (head, out_tree);*/ } } return head; } tree CompileAsm::asm_construct_inputs (HIR::InlineAsm &expr) { // TODO: Do i need to do this? tree head = NULL_TREE; for (auto &input : expr.get_operands ()) { if (input.get_register_type () == AST::InlineAsmOperand::RegisterType::In) { auto in = input.get_in (); tree in_tree = CompileExpr::Compile (in.expr.get (), this->ctx); // expects a tree list // TODO: This assumes that the input is a register std::string expr_name = "r"; auto name = build_string (expr_name.size () + 1, expr_name.c_str ()); head = chainon (head, build_tree_list (build_tree_list (NULL_TREE, name), in_tree)); /*head = chainon (head, out_tree);*/ } } return head; } tree CompileAsm::asm_construct_clobber_tree (HIR::InlineAsm &expr) { // TODO: Do i need to do this? return NULL_TREE; } tree CompileAsm::asm_construct_label_tree (HIR::InlineAsm &expr) { // TODO: Do i need to do this? return NULL_TREE; } } // namespace Compile } // namespace Rust