refactor(ast2ir): 重构ABI类型系统并修复union结构问题
- 将scc_ast_def.h中的attr_of从union改为struct以修复结构定义问题 - 添加type_abi依赖到ast2ir模块的cbuild.toml配置文件中 - 重命名scc_ast2ir.h中的abi字段为type_abi,并更新相关初始化函数签名 - 移除废弃的scc_abi_type.h和相关平台ABI头文件 - 添加辅助函数is_variadic_marker和fixed_param_count用于处理可变参数 - 添加数组和聚合类型初始化的辅助函数
This commit is contained in:
925
libs/ast2ir/src/scc_ast2ir_expr.c
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925
libs/ast2ir/src/scc_ast2ir_expr.c
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#include <scc_ast2ir.h>
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#include <scc_ast_def.h>
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#include <scc_ast_utils.h>
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#include <scc_hir_builder.h>
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#include <scc_hir_def.h>
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// 判断是否为算术类型(整数或浮点)
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static cbool is_arithmetic_type(const scc_hir_type_t *type) {
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Assert(type != nullptr);
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switch (type->tag) {
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case SCC_HIR_TYPE_i8:
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case SCC_HIR_TYPE_i16:
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case SCC_HIR_TYPE_i32:
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case SCC_HIR_TYPE_i64:
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case SCC_HIR_TYPE_i128:
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case SCC_HIR_TYPE_u8:
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case SCC_HIR_TYPE_u16:
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case SCC_HIR_TYPE_u32:
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case SCC_HIR_TYPE_u64:
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case SCC_HIR_TYPE_u128:
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case SCC_HIR_TYPE_f16:
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case SCC_HIR_TYPE_f32:
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case SCC_HIR_TYPE_f64:
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case SCC_HIR_TYPE_f128:
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return true;
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default:
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return false;
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}
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}
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static inline bool scc_hir_type_is_signed(scc_hir_type_tag_t tag) {
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switch (tag) {
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case SCC_HIR_TYPE_i8:
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case SCC_HIR_TYPE_i16:
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case SCC_HIR_TYPE_i32:
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case SCC_HIR_TYPE_i64:
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case SCC_HIR_TYPE_i128:
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return true;
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case SCC_HIR_TYPE_u8:
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case SCC_HIR_TYPE_u16:
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case SCC_HIR_TYPE_u32:
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case SCC_HIR_TYPE_u64:
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case SCC_HIR_TYPE_u128:
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return false;
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default:
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// 指针可以视作无符号整数
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return false;
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}
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}
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scc_hir_value_ref_t scc_ast2ir_logical_expr(scc_ast2ir_ctx_t *ctx,
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const scc_ast_expr_t *expr) {
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// scc_hir_bblock_ref_t start_block =
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// scc_hir_builder_current_bblock(&ctx->builder);
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scc_hir_value_ref_t right_block =
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scc_hir_builder_create_bblock(&ctx->builder, "logic_right");
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scc_hir_value_ref_t end_block =
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scc_hir_builder_create_bblock(&ctx->builder, "logic_end");
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// 为结果创建临时存储空间
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scc_hir_type_ref_t int32_type = scc_hir_builder_type_i32(&ctx->builder);
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scc_hir_value_ref_t result_var =
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scc_hir_builder_alloca(&ctx->builder, int32_type, "logic_result");
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// 计算左操作数
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scc_hir_value_ref_t left_val =
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scc_ast2ir_expr(ctx, expr->binary.lhs, false);
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scc_ap_t zero_ap;
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scc_ap_set_int(&zero_ap, 0);
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scc_ap_t one_ap;
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scc_ap_set_int(&one_ap, 1);
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scc_hir_value_ref_t zero_val =
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scc_hir_builder_integer(&ctx->builder, int32_type, &zero_ap);
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scc_hir_value_ref_t one_val =
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scc_hir_builder_integer(&ctx->builder, int32_type, &one_ap);
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if (expr->binary.op == SCC_AST_OP_LOGICAL_AND) {
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// a && b
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scc_hir_value_ref_t false_block =
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scc_hir_builder_create_bblock(&ctx->builder, "and_false");
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// 如果左操作数为0,结果为0(短路)
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scc_hir_value_ref_t is_left_zero = scc_hir_builder_binop(
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&ctx->builder, SCC_HIR_OP_EQ, left_val, zero_val);
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scc_hir_builder_branch(&ctx->builder, is_left_zero, false_block,
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right_block);
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// false_block: 左边为0,结果为0
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scc_hir_builder_append_bblock(&ctx->builder, false_block);
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scc_hir_builder_set_current_bblock(&ctx->builder, false_block);
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scc_hir_builder_store(&ctx->builder, result_var, zero_val);
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scc_hir_builder_jump(&ctx->builder, end_block);
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// right_block: 左边非0,计算右边
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scc_hir_builder_append_bblock(&ctx->builder, right_block);
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scc_hir_builder_set_current_bblock(&ctx->builder, right_block);
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scc_hir_value_ref_t right_val =
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scc_ast2ir_expr(ctx, expr->binary.rhs, false);
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scc_hir_value_ref_t is_right_zero = scc_hir_builder_binop(
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&ctx->builder, SCC_HIR_OP_EQ, right_val, zero_val);
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scc_hir_value_ref_t result =
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scc_hir_builder_binop(&ctx->builder, SCC_HIR_OP_XOR, is_right_zero,
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one_val); // !right == 0 ? 1 : 0
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scc_hir_builder_store(&ctx->builder, result_var, result);
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scc_hir_builder_jump(&ctx->builder, end_block);
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} else { // SCC_AST_OP_LOGICAL_OR
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// a || b
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scc_hir_value_ref_t true_block =
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scc_hir_builder_create_bblock(&ctx->builder, "or_true");
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// 如果左操作数非0,结果为1(短路)
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scc_hir_value_ref_t is_left_nonzero = scc_hir_builder_binop(
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&ctx->builder, SCC_HIR_OP_NEQ, left_val, zero_val);
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scc_hir_builder_branch(&ctx->builder, is_left_nonzero, true_block,
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right_block);
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// true_block: 左边非0,结果为1
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scc_hir_builder_append_bblock(&ctx->builder, true_block);
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scc_hir_builder_set_current_bblock(&ctx->builder, true_block);
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scc_hir_builder_store(&ctx->builder, result_var, one_val);
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scc_hir_builder_jump(&ctx->builder, end_block);
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// right_block: 左边为0,计算右边
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scc_hir_builder_append_bblock(&ctx->builder, right_block);
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scc_hir_builder_set_current_bblock(&ctx->builder, right_block);
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scc_hir_value_ref_t right_val =
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scc_ast2ir_expr(ctx, expr->binary.rhs, false);
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scc_hir_value_ref_t is_right_zero = scc_hir_builder_binop(
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&ctx->builder, SCC_HIR_OP_EQ, right_val, zero_val);
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scc_hir_value_ref_t result =
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scc_hir_builder_binop(&ctx->builder, SCC_HIR_OP_XOR, is_right_zero,
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one_val); // !right == 0 ? 1 : 0
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scc_hir_builder_store(&ctx->builder, result_var, result);
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scc_hir_builder_jump(&ctx->builder, end_block);
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}
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// 设置结束块为当前块,并返回结果
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scc_hir_builder_append_bblock(&ctx->builder, end_block);
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scc_hir_builder_set_current_bblock(&ctx->builder, end_block);
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return scc_hir_builder_load(&ctx->builder, result_var);
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}
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/**
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* @brief
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*
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* @param ctx
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* @param expr
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* @return scc_hir_value_ref_t
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*/
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scc_hir_value_ref_t scc_ast2ir_expr(scc_ast2ir_ctx_t *ctx,
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const scc_ast_expr_t *expr,
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cbool is_lvalue) {
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if (ctx == nullptr || expr == nullptr) {
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LOG_ERROR("args is nullptr");
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return 0;
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}
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cbool is_assign = true;
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switch (expr->base.type) {
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case SCC_AST_EXPR_BINARY: {
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scc_ast_expr_t tmp_expr;
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scc_hir_value_ref_t lhs = SCC_HIR_REF_nullptr,
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rhs = SCC_HIR_REF_nullptr;
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switch (expr->binary.op) {
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case SCC_AST_OP_ASSIGN: // =
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rhs = scc_ast2ir_expr(ctx, expr->binary.rhs, false);
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break;
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case SCC_AST_OP_ASSIGN_ADD: // +=
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scc_ast_expr_binary_init(&tmp_expr, SCC_AST_OP_ADD,
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expr->binary.lhs, expr->binary.rhs,
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expr->base.loc);
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rhs = scc_ast2ir_expr(ctx, &tmp_expr, false);
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break;
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case SCC_AST_OP_ASSIGN_SUB: // -=
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scc_ast_expr_binary_init(&tmp_expr, SCC_AST_OP_SUB,
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expr->binary.lhs, expr->binary.rhs,
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expr->base.loc);
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rhs = scc_ast2ir_expr(ctx, &tmp_expr, false);
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break;
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case SCC_AST_OP_ASSIGN_MUL: // *=
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scc_ast_expr_binary_init(&tmp_expr, SCC_AST_OP_MUL,
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expr->binary.lhs, expr->binary.rhs,
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expr->base.loc);
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rhs = scc_ast2ir_expr(ctx, &tmp_expr, false);
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break;
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case SCC_AST_OP_ASSIGN_DIV: // /=
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scc_ast_expr_binary_init(&tmp_expr, SCC_AST_OP_DIV,
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expr->binary.lhs, expr->binary.rhs,
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expr->base.loc);
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rhs = scc_ast2ir_expr(ctx, &tmp_expr, false);
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break;
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case SCC_AST_OP_ASSIGN_MOD: // %=
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scc_ast_expr_binary_init(&tmp_expr, SCC_AST_OP_MOD,
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expr->binary.lhs, expr->binary.rhs,
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expr->base.loc);
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rhs = scc_ast2ir_expr(ctx, &tmp_expr, false);
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break;
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case SCC_AST_OP_ASSIGN_AND: // &=
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scc_ast_expr_binary_init(&tmp_expr, SCC_AST_OP_BITWISE_AND,
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expr->binary.lhs, expr->binary.rhs,
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expr->base.loc);
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rhs = scc_ast2ir_expr(ctx, &tmp_expr, false);
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break;
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case SCC_AST_OP_ASSIGN_XOR: // ^=
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scc_ast_expr_binary_init(&tmp_expr, SCC_AST_OP_BITWISE_XOR,
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expr->binary.lhs, expr->binary.rhs,
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expr->base.loc);
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rhs = scc_ast2ir_expr(ctx, &tmp_expr, false);
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break;
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case SCC_AST_OP_ASSIGN_OR: // |=
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scc_ast_expr_binary_init(&tmp_expr, SCC_AST_OP_BITWISE_OR,
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expr->binary.lhs, expr->binary.rhs,
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expr->base.loc);
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rhs = scc_ast2ir_expr(ctx, &tmp_expr, false);
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break;
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case SCC_AST_OP_ASSIGN_LSHIFT: // <<=
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scc_ast_expr_binary_init(&tmp_expr, SCC_AST_OP_LEFT_SHIFT,
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expr->binary.lhs, expr->binary.rhs,
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expr->base.loc);
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rhs = scc_ast2ir_expr(ctx, &tmp_expr, false);
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break;
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case SCC_AST_OP_ASSIGN_RSHIFT: // >>=
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scc_ast_expr_binary_init(&tmp_expr, SCC_AST_OP_RIGHT_SHIFT,
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expr->binary.lhs, expr->binary.rhs,
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expr->base.loc);
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rhs = scc_ast2ir_expr(ctx, &tmp_expr, false);
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break;
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default:
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is_assign = false;
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break;
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}
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if (is_assign) {
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Assert(rhs != SCC_HIR_REF_nullptr);
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lhs = scc_ast2ir_expr(ctx, expr->binary.lhs, true);
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// 将 RHS 转换为 LHS 指向的类型(C11 6.5.16.1 简单赋值)
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scc_hir_type_t *lhs_ptr_type = scc_hir_module_get_type_by_value(
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scc_ast2ir_mir_module(ctx), lhs);
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if (lhs_ptr_type->tag == SCC_HIR_TYPE_PTR &&
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is_arithmetic_type(
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scc_hir_module_get_type(scc_ast2ir_mir_module(ctx),
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lhs_ptr_type->data.pointer.base))) {
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rhs = scc_ast2ir_emit_conversion(
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ctx, rhs, lhs_ptr_type->data.pointer.base);
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}
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scc_hir_builder_store(&ctx->builder, lhs, rhs);
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return rhs;
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}
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if (expr->binary.op == SCC_AST_OP_LOGICAL_AND ||
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expr->binary.op == SCC_AST_OP_LOGICAL_OR) {
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// TODO 类型提升
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return scc_ast2ir_logical_expr(ctx, expr);
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}
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if (expr->binary.op == SCC_AST_OP_COMMA) {
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lhs = scc_ast2ir_expr(ctx, expr->binary.lhs, false);
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rhs = scc_ast2ir_expr(ctx, expr->binary.rhs, false);
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} else {
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rhs = scc_ast2ir_expr(ctx, expr->binary.rhs, false);
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lhs = scc_ast2ir_expr(ctx, expr->binary.lhs, false);
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}
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// 类型提升:对算术类型二元操作应用寻常算术转换(C11 6.3.1.8)
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// 移位操作符不适用(仅对每个操作数单独整数提升)
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cbool is_shift = (expr->binary.op == SCC_AST_OP_LEFT_SHIFT ||
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expr->binary.op == SCC_AST_OP_RIGHT_SHIFT);
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scc_hir_type_ref_t common_type = 0;
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if (!is_shift && expr->binary.op != SCC_AST_OP_COMMA) {
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scc_hir_module_t *module = scc_ast2ir_mir_module(ctx);
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scc_hir_type_ref_t lhs_type_ref =
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scc_hir_module_get_value(module, lhs)->type;
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scc_hir_type_ref_t rhs_type_ref =
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scc_hir_module_get_value(module, rhs)->type;
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Assert(lhs_type_ref != 0 && rhs_type_ref != 0);
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scc_hir_type_t *lhs_type =
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scc_hir_module_get_type(module, lhs_type_ref);
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scc_hir_type_t *rhs_type =
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scc_hir_module_get_type(module, rhs_type_ref);
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if (is_arithmetic_type(lhs_type) && is_arithmetic_type(rhs_type)) {
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common_type = scc_ast2ir_usual_arithmetic_conversion(
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ctx, lhs_type_ref, rhs_type_ref);
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if (common_type != 0) {
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lhs = scc_ast2ir_emit_conversion(ctx, lhs, common_type);
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rhs = scc_ast2ir_emit_conversion(ctx, rhs, common_type);
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}
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}
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} else if (is_shift) {
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// 移位操作符:只进行整数提升(C11 6.5.7)
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scc_hir_module_t *module = scc_ast2ir_mir_module(ctx);
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scc_hir_type_ref_t lhs_type_ref =
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scc_hir_module_get_value(module, lhs)->type;
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scc_hir_type_ref_t promoted =
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scc_ast2ir_integer_promotion(ctx, lhs_type_ref);
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if (promoted != 0)
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lhs = scc_ast2ir_emit_conversion(ctx, lhs, promoted);
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}
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// 映射操作符
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scc_hir_op_type_t op;
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switch (expr->binary.op) {
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/* clang-format off */
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case SCC_AST_OP_ADD: op = SCC_HIR_OP_ADD; break;
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case SCC_AST_OP_SUB: op = SCC_HIR_OP_SUB; break;
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case SCC_AST_OP_MUL: op = SCC_HIR_OP_MUL; break;
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case SCC_AST_OP_DIV: op = SCC_HIR_OP_DIV; break;
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case SCC_AST_OP_MOD: op = SCC_HIR_OP_MOD; break;
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case SCC_AST_OP_BITWISE_AND: op = SCC_HIR_OP_AND; break;
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case SCC_AST_OP_BITWISE_OR: op = SCC_HIR_OP_OR; break;
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case SCC_AST_OP_BITWISE_XOR: op = SCC_HIR_OP_XOR; break;
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case SCC_AST_OP_LEFT_SHIFT: op = SCC_HIR_OP_SHL; break;
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case SCC_AST_OP_RIGHT_SHIFT: {
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scc_hir_module_t *module = scc_ast2ir_mir_module(ctx);
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scc_hir_type_ref_t type_ref = scc_hir_module_get_value(module, lhs)->type;
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scc_hir_type_t *type = scc_hir_module_get_type(module, type_ref);
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op = scc_hir_type_is_signed(type->tag) ? SCC_HIR_OP_SAR : SCC_HIR_OP_SHR;
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break;
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}
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case SCC_AST_OP_EQUAL: op = SCC_HIR_OP_EQ; break;
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case SCC_AST_OP_NOT_EQUAL: op = SCC_HIR_OP_NEQ; break;
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case SCC_AST_OP_LESS: {
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scc_hir_module_t *module = scc_ast2ir_mir_module(ctx);
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scc_hir_type_ref_t tr = common_type ? common_type : scc_hir_module_get_value(module, lhs)->type;
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scc_hir_type_t *t = scc_hir_module_get_type(module, tr);
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op = scc_hir_type_is_signed(t->tag) ? SCC_HIR_OP_LT : SCC_HIR_OP_ULT;
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break;
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}
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case SCC_AST_OP_LESS_EQUAL: {
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scc_hir_module_t *module = scc_ast2ir_mir_module(ctx);
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scc_hir_type_ref_t tr = common_type ? common_type : scc_hir_module_get_value(module, lhs)->type;
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scc_hir_type_t *t = scc_hir_module_get_type(module, tr);
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op = scc_hir_type_is_signed(t->tag) ? SCC_HIR_OP_LE : SCC_HIR_OP_ULE;
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break;
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}
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case SCC_AST_OP_GREATER: {
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scc_hir_module_t *module = scc_ast2ir_mir_module(ctx);
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scc_hir_type_ref_t tr = common_type ? common_type : scc_hir_module_get_value(module, lhs)->type;
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scc_hir_type_t *t = scc_hir_module_get_type(module, tr);
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op = scc_hir_type_is_signed(t->tag) ? SCC_HIR_OP_GT : SCC_HIR_OP_UGT;
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break;
|
||||
}
|
||||
case SCC_AST_OP_GREATER_EQUAL: {
|
||||
scc_hir_module_t *module = scc_ast2ir_mir_module(ctx);
|
||||
scc_hir_type_ref_t tr = common_type ? common_type : scc_hir_module_get_value(module, lhs)->type;
|
||||
scc_hir_type_t *t = scc_hir_module_get_type(module, tr);
|
||||
op = scc_hir_type_is_signed(t->tag) ? SCC_HIR_OP_GE : SCC_HIR_OP_UGE;
|
||||
break;
|
||||
}
|
||||
case SCC_AST_OP_COMMA: {
|
||||
// 逗号运算符:计算左表达式,丢弃结果,返回右表达式
|
||||
return rhs;
|
||||
}
|
||||
/* 逻辑操作符 */
|
||||
case SCC_AST_OP_LOGICAL_OR: // ||
|
||||
case SCC_AST_OP_LOGICAL_AND: // &&
|
||||
UNREACHABLE();
|
||||
return 0;
|
||||
/* clang-format on */
|
||||
default:
|
||||
LOG_FATAL("Unsupported binary operator: %d", expr->binary.op);
|
||||
return 0;
|
||||
}
|
||||
// 创建操作节点
|
||||
return scc_hir_builder_binop(&ctx->builder, op, lhs, rhs);
|
||||
} break;
|
||||
case SCC_AST_EXPR_UNARY: {
|
||||
if (expr->unary.op == SCC_AST_OP_ADDRESS_OF) {
|
||||
return scc_ast2ir_expr(ctx, expr->unary.operand, true);
|
||||
} else if (expr->unary.op == SCC_AST_OP_INDIRECTION) {
|
||||
// 从地址取值
|
||||
scc_hir_value_ref_t ptr =
|
||||
scc_ast2ir_expr(ctx, expr->unary.operand, false);
|
||||
if (is_lvalue) {
|
||||
// 作为左值使用(如 *ptr = ...),直接返回指针值(地址)
|
||||
return ptr;
|
||||
} else {
|
||||
// 作为右值使用(如 x = *ptr),加载指针指向的值
|
||||
return scc_hir_builder_load(&ctx->builder, ptr);
|
||||
}
|
||||
}
|
||||
scc_hir_value_ref_t operand =
|
||||
scc_ast2ir_expr(ctx, expr->unary.operand, is_lvalue);
|
||||
switch (expr->unary.op) {
|
||||
case SCC_AST_OP_UNARY_PLUS:
|
||||
/* just pass */
|
||||
return operand;
|
||||
case SCC_AST_OP_UNARY_MINUS: {
|
||||
// 负号
|
||||
// 实现为0 - operand
|
||||
scc_hir_type_ref_t type_ref =
|
||||
scc_hir_builder_type_i32(&ctx->builder);
|
||||
scc_ap_t value;
|
||||
scc_ap_set_int(&value, 0);
|
||||
scc_hir_value_ref_t zero_ref =
|
||||
scc_hir_builder_integer(&ctx->builder, type_ref, &value);
|
||||
return scc_hir_builder_binop(&ctx->builder, SCC_HIR_OP_SUB,
|
||||
zero_ref, operand);
|
||||
}
|
||||
case SCC_AST_OP_ADDRESS_OF:
|
||||
case SCC_AST_OP_INDIRECTION:
|
||||
UNREACHABLE();
|
||||
break;
|
||||
case SCC_AST_OP_BITWISE_NOT:
|
||||
// 按位取反
|
||||
return scc_hir_builder_binop(&ctx->builder, SCC_HIR_OP_NOT, operand,
|
||||
0);
|
||||
case SCC_AST_OP_LOGICAL_NOT: {
|
||||
// 逻辑非
|
||||
// 实现为与0比较
|
||||
scc_hir_type_ref_t type_ref =
|
||||
scc_hir_builder_type_i32(&ctx->builder);
|
||||
scc_ap_t value;
|
||||
scc_ap_set_int(&value, 0);
|
||||
scc_hir_value_ref_t zero_ref =
|
||||
scc_hir_builder_integer(&ctx->builder, type_ref, &value);
|
||||
return scc_hir_builder_binop(&ctx->builder, SCC_HIR_OP_EQ, zero_ref,
|
||||
operand);
|
||||
}
|
||||
case SCC_AST_OP_PREFIX_INCREMENT:
|
||||
case SCC_AST_OP_PREFIX_DECREMENT: {
|
||||
// 获取左值地址
|
||||
scc_hir_value_ref_t addr =
|
||||
scc_ast2ir_expr(ctx, expr->unary.operand, true);
|
||||
scc_hir_value_ref_t old_val =
|
||||
scc_hir_builder_load(&ctx->builder, addr);
|
||||
scc_hir_type_ref_t old_type =
|
||||
scc_hir_module_get_value(
|
||||
scc_hir_builder_get_module(&ctx->builder), old_val)
|
||||
->type;
|
||||
|
||||
// 整数提升:C11 6.3.1.1,对 short/char 等类型提升为 int
|
||||
scc_hir_type_ref_t promoted_type_ref =
|
||||
scc_ast2ir_integer_promotion(ctx, old_type);
|
||||
scc_hir_value_ref_t promoted = old_val;
|
||||
if (promoted_type_ref != 0) {
|
||||
promoted =
|
||||
scc_ast2ir_emit_conversion(ctx, old_val, promoted_type_ref);
|
||||
} else {
|
||||
promoted_type_ref = old_type;
|
||||
}
|
||||
|
||||
scc_hir_value_ref_t one = scc_hir_builder_integer(
|
||||
&ctx->builder, promoted_type_ref,
|
||||
&(scc_ap_t){.data.digit = 1, .capacity = -1});
|
||||
scc_hir_op_type_t op =
|
||||
(expr->unary.op == SCC_AST_OP_PREFIX_INCREMENT)
|
||||
? SCC_HIR_OP_ADD
|
||||
: SCC_HIR_OP_SUB;
|
||||
scc_hir_value_ref_t new_val =
|
||||
scc_hir_builder_binop(&ctx->builder, op, promoted, one);
|
||||
|
||||
// 如果原类型不是提升后的类型,需要截断回原类型再存储
|
||||
scc_hir_value_ref_t stored_val = new_val;
|
||||
if (promoted_type_ref != old_type) {
|
||||
stored_val = scc_ast2ir_emit_conversion(ctx, new_val, old_type);
|
||||
}
|
||||
scc_hir_builder_store(&ctx->builder, addr, stored_val);
|
||||
Assert(new_val != SCC_HIR_REF_nullptr);
|
||||
return new_val; // 表达式的值是提升后的新值(符合 C 标准)
|
||||
} break;
|
||||
case SCC_AST_OP_POSTFIX_INCREMENT:
|
||||
case SCC_AST_OP_POSTFIX_DECREMENT: {
|
||||
// 获取左值地址
|
||||
scc_hir_value_ref_t addr =
|
||||
scc_ast2ir_expr(ctx, expr->unary.operand, true);
|
||||
scc_hir_value_ref_t old_val =
|
||||
scc_hir_builder_load(&ctx->builder, addr);
|
||||
scc_hir_type_ref_t old_type =
|
||||
scc_hir_module_get_value(
|
||||
scc_hir_builder_get_module(&ctx->builder), old_val)
|
||||
->type;
|
||||
|
||||
// 整数提升(C11 6.3.1.1)
|
||||
scc_hir_type_ref_t promoted_type_ref =
|
||||
scc_ast2ir_integer_promotion(ctx, old_type);
|
||||
scc_hir_value_ref_t promoted = old_val;
|
||||
if (promoted_type_ref != 0) {
|
||||
promoted =
|
||||
scc_ast2ir_emit_conversion(ctx, old_val, promoted_type_ref);
|
||||
} else {
|
||||
promoted_type_ref = old_type;
|
||||
}
|
||||
|
||||
scc_hir_value_ref_t one = scc_hir_builder_integer(
|
||||
&ctx->builder, promoted_type_ref,
|
||||
&(scc_ap_t){.data.digit = 1, .capacity = -1});
|
||||
scc_hir_op_type_t op =
|
||||
(expr->unary.op == SCC_AST_OP_POSTFIX_INCREMENT)
|
||||
? SCC_HIR_OP_ADD
|
||||
: SCC_HIR_OP_SUB;
|
||||
scc_hir_value_ref_t new_val =
|
||||
scc_hir_builder_binop(&ctx->builder, op, promoted, one);
|
||||
|
||||
scc_hir_value_ref_t stored_val = new_val;
|
||||
if (promoted_type_ref != old_type) {
|
||||
stored_val = scc_ast2ir_emit_conversion(ctx, new_val, old_type);
|
||||
}
|
||||
scc_hir_builder_store(&ctx->builder, addr, stored_val);
|
||||
|
||||
// 后缀返回旧值的提升后版本(C11 6.5.2.4)
|
||||
return promoted;
|
||||
} break;
|
||||
default:
|
||||
LOG_FATAL("Unsupported unary operator: %d", expr->unary.op);
|
||||
return 0;
|
||||
}
|
||||
UNREACHABLE();
|
||||
} break;
|
||||
case SCC_AST_EXPR_COND: {
|
||||
scc_hir_type_ref_t true_type = SCC_HIR_REF_nullptr;
|
||||
scc_hir_type_ref_t false_type = SCC_HIR_REF_nullptr;
|
||||
|
||||
scc_hir_value_ref_t true_block =
|
||||
scc_hir_builder_bblock(&ctx->builder, "cond_true");
|
||||
scc_hir_value_ref_t false_block =
|
||||
scc_hir_builder_bblock(&ctx->builder, "cond_false");
|
||||
scc_hir_value_ref_t merge_block =
|
||||
scc_hir_builder_bblock(&ctx->builder, "cond_merge");
|
||||
|
||||
scc_hir_value_ref_t cond_node =
|
||||
scc_ast2ir_expr(ctx, expr->cond.cond, false);
|
||||
scc_hir_builder_branch(&ctx->builder, cond_node, true_block,
|
||||
false_block);
|
||||
|
||||
// 生成true分支
|
||||
scc_hir_builder_set_current_bblock(&ctx->builder, true_block);
|
||||
scc_hir_value_ref_t true_val =
|
||||
scc_ast2ir_expr(ctx, expr->cond.then_expr, false);
|
||||
|
||||
true_type = scc_hir_module_get_value(
|
||||
scc_hir_builder_get_module(&ctx->builder), true_val)
|
||||
->type;
|
||||
Assert(true_type != SCC_HIR_REF_nullptr);
|
||||
scc_hir_value_ref_t result_slot =
|
||||
scc_hir_builder_alloca(&ctx->builder, true_type, "cond_result");
|
||||
|
||||
scc_hir_builder_store(&ctx->builder, result_slot, true_val);
|
||||
scc_hir_builder_jump(&ctx->builder, merge_block);
|
||||
|
||||
// 生成false分支
|
||||
scc_hir_builder_set_current_bblock(&ctx->builder, false_block);
|
||||
scc_hir_value_ref_t false_val =
|
||||
scc_ast2ir_expr(ctx, expr->cond.else_expr, false);
|
||||
false_type = scc_hir_module_get_value(
|
||||
scc_hir_builder_get_module(&ctx->builder), false_val)
|
||||
->type;
|
||||
Assert(false_type != SCC_HIR_REF_nullptr);
|
||||
|
||||
scc_hir_builder_store(&ctx->builder, result_slot, false_val);
|
||||
scc_hir_builder_jump(&ctx->builder, merge_block);
|
||||
|
||||
// 合并并返回
|
||||
scc_hir_builder_set_current_bblock(&ctx->builder, merge_block);
|
||||
if (true_type != false_type) {
|
||||
LOG_ERROR("Type mismatch in conditional expression");
|
||||
// FIXME need panic
|
||||
}
|
||||
return scc_hir_builder_load(&ctx->builder, result_slot);
|
||||
} break;
|
||||
case SCC_AST_EXPR_CALL: {
|
||||
// 转换参数
|
||||
scc_hir_value_ref_vec_t args;
|
||||
scc_vec_init(args);
|
||||
|
||||
// 获取函数类型信息用于参数转换。
|
||||
scc_hir_func_ref_t callee_func =
|
||||
(scc_hir_func_ref_t)(usize)scc_hashtable_get(
|
||||
&ctx->symtab, expr->call.callee->identifier._target->name);
|
||||
scc_hir_type_ref_t func_type_ref = SCC_HIR_REF_nullptr;
|
||||
cbool is_variadic = false;
|
||||
int fixed_count = 0;
|
||||
Assert(callee_func != SCC_HIR_REF_nullptr);
|
||||
scc_hir_func_t *hir_func =
|
||||
scc_hir_module_get_func(scc_ast2ir_mir_module(ctx), callee_func);
|
||||
scc_hir_func_meta_t *meta = SCC_HIR_FUNC_META(hir_func);
|
||||
is_variadic = meta->is_variadic;
|
||||
func_type_ref = meta->type;
|
||||
if (func_type_ref != SCC_HIR_REF_nullptr) {
|
||||
const scc_hir_type_t *ft = scc_hir_module_get_type(
|
||||
scc_ast2ir_mir_module(ctx), func_type_ref);
|
||||
if (ft != nullptr && ft->tag == SCC_HIR_TYPE_FUNC)
|
||||
fixed_count = (int)ft->data.function.params.size;
|
||||
}
|
||||
|
||||
scc_vec_foreach(expr->call.args, i) {
|
||||
scc_ast_expr_t *arg_expr = scc_vec_at(expr->call.args, i);
|
||||
scc_hir_value_ref_t arg_node;
|
||||
arg_node = scc_ast2ir_expr(ctx, arg_expr, false);
|
||||
if ((int)i < fixed_count) {
|
||||
// 固定参数:转换为形参类型
|
||||
// 每次迭代重新获取指针(scc_ast2ir_expr 可能触发 types 向量
|
||||
// realloc)
|
||||
scc_hir_module_t *module = scc_ast2ir_mir_module(ctx);
|
||||
const scc_hir_type_t *ft =
|
||||
scc_hir_module_get_type(module, func_type_ref);
|
||||
scc_hir_type_ref_t param_type =
|
||||
scc_vec_at(ft->data.function.params, i);
|
||||
arg_node =
|
||||
scc_ast2ir_emit_conversion(ctx, arg_node, param_type);
|
||||
} else if (is_variadic) {
|
||||
// 可变参数:只应用默认参数提升(C11 6.5.2.2)
|
||||
// 整数提升:char/short → int
|
||||
scc_hir_module_t *module = scc_ast2ir_mir_module(ctx);
|
||||
|
||||
scc_hir_value_t *arg_value =
|
||||
scc_hir_module_get_value(module, arg_node);
|
||||
Assert(arg_value != nullptr);
|
||||
scc_hir_type_ref_t arg_type_ref = arg_value->type;
|
||||
Assert(arg_type_ref != 0);
|
||||
scc_hir_type_tag_t arg_tag =
|
||||
scc_hir_module_get_type(module, arg_type_ref)->tag;
|
||||
scc_hir_type_ref_t promoted =
|
||||
scc_ast2ir_integer_promotion(ctx, arg_type_ref);
|
||||
if (promoted != 0) {
|
||||
arg_node =
|
||||
scc_ast2ir_emit_conversion(ctx, arg_node, promoted);
|
||||
} else if (arg_tag == SCC_HIR_TYPE_f32) {
|
||||
// float → double(默认参数提升)
|
||||
scc_hir_type_t f64_desc;
|
||||
scc_hir_type_init(&f64_desc, SCC_HIR_TYPE_f64);
|
||||
scc_hir_type_ref_t f64_ref =
|
||||
scc_hir_builder_type(&ctx->builder, &f64_desc);
|
||||
arg_node =
|
||||
scc_ast2ir_emit_conversion(ctx, arg_node, f64_ref);
|
||||
}
|
||||
// 指针、i32/i64 等保持不变
|
||||
}
|
||||
scc_vec_push(args, arg_node);
|
||||
}
|
||||
|
||||
// 创建调用节点(需要查找函数定义)
|
||||
if (!callee_func) {
|
||||
LOG_ERROR("Function %s not found",
|
||||
expr->call.callee->identifier._target->name);
|
||||
}
|
||||
scc_hir_value_ref_t node = scc_hir_builder_call(
|
||||
&ctx->builder, callee_func, args.data, args.size);
|
||||
scc_vec_free(args);
|
||||
return node;
|
||||
}
|
||||
case SCC_AST_EXPR_ARRAY_SUBSCRIPT: {
|
||||
// 1. 计算数组/指针基址(右值,得到地址)
|
||||
scc_hir_value_ref_t base_ptr =
|
||||
scc_ast2ir_expr(ctx, expr->subscript.array, true);
|
||||
// 2. 计算下标值
|
||||
scc_hir_value_ref_t index =
|
||||
scc_ast2ir_expr(ctx, expr->subscript.index, false);
|
||||
// 保证 index 至少 64 位,防止后端寄存器分配时宽度错误
|
||||
scc_hir_type_t *idx_type =
|
||||
scc_hir_module_get_type_by_value(scc_ast2ir_mir_module(ctx), index);
|
||||
if (idx_type != nullptr &&
|
||||
scc_hir_module_type_size(scc_ast2ir_mir_module(ctx), idx_type) <
|
||||
sizeof(void *) * 8) {
|
||||
scc_hir_type_t ptrw_desc;
|
||||
scc_hir_type_init(&ptrw_desc, SCC_HIR_TYPE_u64);
|
||||
scc_hir_type_ref_t ptrw_ref =
|
||||
scc_hir_builder_type(&ctx->builder, &ptrw_desc);
|
||||
index = scc_ast2ir_emit_conversion(ctx, index, ptrw_ref);
|
||||
}
|
||||
// 3. 生成 getptr(GEP)
|
||||
scc_hir_value_ref_t elem_ptr =
|
||||
scc_hir_builder_get_elem_ptr(&ctx->builder, base_ptr, index);
|
||||
// 4. 根据左值/右值返回
|
||||
if (is_lvalue) {
|
||||
return elem_ptr; // 作为左值:返回地址
|
||||
} else {
|
||||
return scc_hir_builder_load(&ctx->builder,
|
||||
elem_ptr); // 作为右值:加载值
|
||||
}
|
||||
}
|
||||
case SCC_AST_EXPR_MEMBER: {
|
||||
// 1. 获取基对象的左值(地址)
|
||||
scc_hir_value_ref_t base_ptr =
|
||||
scc_ast2ir_expr(ctx, expr->member.base, true);
|
||||
// 2. 通过偏移生成字段地址
|
||||
// 需要基对象类型来计算索引:假设 sema 填好了 _target_idx
|
||||
usize field_idx = expr->member._target_idx;
|
||||
scc_ap_t idx_ap;
|
||||
scc_ap_set_int(&idx_ap, field_idx);
|
||||
scc_hir_value_ref_t idx_val = scc_hir_builder_integer(
|
||||
&ctx->builder, scc_hir_builder_type_u64(&ctx->builder), &idx_ap);
|
||||
scc_hir_value_ref_t field_ptr =
|
||||
scc_hir_builder_get_elem_ptr(&ctx->builder, base_ptr, idx_val);
|
||||
if (is_lvalue)
|
||||
return field_ptr;
|
||||
else
|
||||
return scc_hir_builder_load(&ctx->builder, field_ptr);
|
||||
}
|
||||
case SCC_AST_EXPR_PTR_MEMBER: {
|
||||
// 1. 计算指针值(obj->field 等价于 (*obj).field)
|
||||
scc_hir_value_ref_t obj_ptr =
|
||||
scc_ast2ir_expr(ctx, expr->member.base, false);
|
||||
// 2. 解引用得到对象地址,再访问成员
|
||||
// 但更简单:先 load 出对象值?不对:obj
|
||||
// 是指向结构体的指针,我们需要指针的地址? 实际上,obj->field 相当于
|
||||
// (*(obj)).field,所以可以直接用 obj 作为基地址进行 get_elem_ptr
|
||||
// 因为 get_elem_ptr 接收一个指针,obj 本身就是指向结构体的指针。
|
||||
usize field_idx = expr->member._target_idx;
|
||||
scc_ap_t idx_ap;
|
||||
scc_ap_set_int(&idx_ap, field_idx);
|
||||
scc_hir_value_ref_t idx_val = scc_hir_builder_integer(
|
||||
&ctx->builder, scc_hir_builder_type_u64(&ctx->builder), &idx_ap);
|
||||
scc_hir_value_ref_t field_ptr =
|
||||
scc_hir_builder_get_elem_ptr(&ctx->builder, obj_ptr, idx_val);
|
||||
if (is_lvalue)
|
||||
return field_ptr;
|
||||
else
|
||||
return scc_hir_builder_load(&ctx->builder, field_ptr);
|
||||
}
|
||||
case SCC_AST_EXPR_CAST: {
|
||||
// 1. 转换操作数(右值)
|
||||
scc_hir_value_ref_t operand =
|
||||
scc_ast2ir_expr(ctx, expr->cast.expr, false);
|
||||
|
||||
// 2. 转换目标类型为 IR 类型
|
||||
scc_hir_type_ref_t target_type = scc_ast2ir_type(ctx, expr->cast.type);
|
||||
|
||||
// 3. 确定转换模式(SEXT / ZEXT / TRUNC)
|
||||
// 这里用简单的启发式:根据大小变化决定
|
||||
scc_hir_type_t *src_type = scc_hir_module_get_type_by_value(
|
||||
scc_ast2ir_mir_module(ctx), operand);
|
||||
scc_hir_type_t *dst_type =
|
||||
scc_hir_module_get_type(scc_ast2ir_mir_module(ctx), target_type);
|
||||
|
||||
usize src_size = scc_hir_module_type_size(
|
||||
scc_ast2ir_mir_module(ctx),
|
||||
src_type); // 你可能有这个函数,否则自行计算
|
||||
usize dst_size =
|
||||
scc_hir_module_type_size(scc_ast2ir_mir_module(ctx), dst_type);
|
||||
|
||||
int conv_kind;
|
||||
if (dst_size > src_size) {
|
||||
// 目标更大,需要扩展。根据源类型有无符号决定符号扩展还是零扩展
|
||||
conv_kind = scc_hir_type_is_signed(src_type->tag)
|
||||
? SCC_HIR_CONV_SEXT
|
||||
: SCC_HIR_CONV_ZEXT;
|
||||
} else if (dst_size < src_size) {
|
||||
conv_kind = SCC_HIR_CONV_TRUNC;
|
||||
} else {
|
||||
// 同大小,可以视为 NOP 转换,或者直接返回操作数
|
||||
return operand; // 或创建一个 CONV_SEXT 也没问题
|
||||
}
|
||||
|
||||
// 4. 构造转换节点
|
||||
scc_hir_value_t conv_node = {
|
||||
.tag = SCC_HIR_VALUE_TAG_CONV,
|
||||
.type = target_type,
|
||||
.data.conv.operand = operand,
|
||||
.data.conv.target_type = target_type,
|
||||
.data.conv.conv_type = conv_kind,
|
||||
};
|
||||
return scc_hir_module_add_value(scc_ast2ir_mir_module(ctx), &conv_node);
|
||||
}
|
||||
case SCC_AST_EXPR_SIZE_OF: {
|
||||
// 1. 将 sizeof 的操作数(类型或表达式)转换为 IR 类型
|
||||
scc_hir_type_ref_t hir_type;
|
||||
if (expr->attr_of.type) {
|
||||
// sizeof(type)
|
||||
hir_type = scc_ast2ir_type(ctx, expr->attr_of.type);
|
||||
} else if (expr->attr_of.expr) {
|
||||
// sizeof expression:计算表达式类型
|
||||
// 注意:sizeof
|
||||
// 不对表达式求值,只需类型,这里假设语义分析已经标注了类型
|
||||
scc_hir_value_ref_t dummy =
|
||||
scc_ast2ir_expr(ctx, expr->attr_of.expr, false);
|
||||
hir_type =
|
||||
scc_hir_module_get_value(scc_ast2ir_mir_module(ctx), dummy)
|
||||
->type;
|
||||
} else {
|
||||
scc_ap_t val;
|
||||
val.data.digit = 0;
|
||||
LOG_ERROR("[ast2ir] unsupported");
|
||||
return scc_hir_builder_integer(
|
||||
&ctx->builder, scc_hir_builder_type_u64(&ctx->builder), &val);
|
||||
}
|
||||
|
||||
// 2. 计算大小
|
||||
const scc_hir_type_t *type =
|
||||
scc_hir_module_get_type(scc_ast2ir_mir_module(ctx), hir_type);
|
||||
usize dst_size =
|
||||
scc_hir_module_type_size(scc_ast2ir_mir_module(ctx), type);
|
||||
|
||||
scc_ap_t val;
|
||||
val.data.digit = dst_size / 8;
|
||||
return scc_hir_builder_integer(
|
||||
&ctx->builder, scc_hir_builder_type_u64(&ctx->builder), &val);
|
||||
}
|
||||
case SCC_AST_EXPR_ALIGN_OF: {
|
||||
TODO();
|
||||
// return scc_hir_builder_integer(
|
||||
// &ctx->builder, scc_hir_builder_type_u64(&ctx->builder), val);
|
||||
}
|
||||
case SCC_AST_EXPR_COMPOUND: {
|
||||
// 1. 从 base 子节点取得类型(base 一定是 SCC_AST_EXPR_LVALUE)
|
||||
Assert(expr->compound.base != nullptr);
|
||||
Assert(expr->compound.base->base.type == SCC_AST_EXPR_LVALUE);
|
||||
scc_ast_qual_type_t *ast_type = expr->compound.base->lvalue.type;
|
||||
scc_hir_type_ref_t type_ref = scc_ast2ir_type(ctx, ast_type);
|
||||
const scc_hir_type_t *type =
|
||||
scc_hir_module_get_type(scc_ast2ir_mir_module(ctx), type_ref);
|
||||
|
||||
// 2. 分配栈上临时存储
|
||||
scc_hir_value_ref_t storage =
|
||||
scc_hir_builder_alloca(&ctx->builder, type_ref, "compound_literal");
|
||||
|
||||
// 3. 根据类型调用对应的初始化函数
|
||||
if (type->tag == SCC_HIR_TYPE_ARRAY) {
|
||||
emit_array_initialization(ctx, storage, type, expr);
|
||||
} else if (type->tag == SCC_HIR_TYPE_STRUCT ||
|
||||
type->tag == SCC_HIR_TYPE_UNION) {
|
||||
emit_aggregate_initialization(ctx, storage, type, expr);
|
||||
} else {
|
||||
// 标量:取初始化列表的第一个值
|
||||
Assert(expr->compound.rhs_exprs.size > 0);
|
||||
scc_ast_expr_t *init_expr = scc_vec_at(expr->compound.rhs_exprs, 0);
|
||||
scc_hir_value_ref_t val = scc_ast2ir_expr(ctx, init_expr, false);
|
||||
scc_hir_builder_store(&ctx->builder, storage, val);
|
||||
}
|
||||
|
||||
// 4. 根据左值 / 右值返回
|
||||
if (is_lvalue) {
|
||||
return storage; // 左值
|
||||
} else {
|
||||
// 右值:数组退化为首元素指针,结构体暂时返回地址
|
||||
if (type->tag == SCC_HIR_TYPE_ARRAY) {
|
||||
return scc_hir_builder_get_elem_ptr(&ctx->builder, storage,
|
||||
SCC_HIR_REF_nullptr);
|
||||
} else if (type->tag == SCC_HIR_TYPE_STRUCT ||
|
||||
type->tag == SCC_HIR_TYPE_UNION) {
|
||||
return storage; // 调用者会 memcpy
|
||||
} else {
|
||||
return scc_hir_builder_load(&ctx->builder, storage);
|
||||
}
|
||||
}
|
||||
} break;
|
||||
case SCC_AST_EXPR_LVALUE: {
|
||||
UNREACHABLE(); // should only appear as compound.base
|
||||
} break;
|
||||
case SCC_AST_EXPR_BUILTIN: {
|
||||
TODO();
|
||||
} break;
|
||||
case SCC_AST_EXPR_INT_LITERAL: {
|
||||
// FIXME maybe using some array to int;
|
||||
scc_hir_type_ref_t type_ref = scc_hir_builder_type_i32(&ctx->builder);
|
||||
scc_ap_t value;
|
||||
scc_ap_from_cstr(&value, expr->literal.lexme, 0);
|
||||
return scc_hir_builder_integer(&ctx->builder, type_ref, &value);
|
||||
}
|
||||
// SCC_AST_EXPR_FLOAT_LITERAL, // 浮点字面量
|
||||
case SCC_AST_EXPR_CHAR_LITERAL: {
|
||||
// FIXME just 'a' '\n'
|
||||
const char *lexme = expr->literal.lexme;
|
||||
Assert(lexme[0] == '\'');
|
||||
i8 int_lit = 0;
|
||||
if (lexme[1] == '\\') {
|
||||
switch (lexme[2]) {
|
||||
case 'a':
|
||||
int_lit = '\a';
|
||||
break;
|
||||
case 'b':
|
||||
int_lit = '\b';
|
||||
break;
|
||||
case 'f':
|
||||
int_lit = '\f';
|
||||
break;
|
||||
case 'n':
|
||||
int_lit = '\n';
|
||||
break;
|
||||
case 'r':
|
||||
int_lit = '\r';
|
||||
}
|
||||
} else {
|
||||
int_lit = lexme[1];
|
||||
}
|
||||
scc_ap_t value;
|
||||
// FIXME i32 maybe false, we need i8 or u8
|
||||
scc_hir_type_ref_t type_ref = scc_hir_builder_type_i32(&ctx->builder);
|
||||
scc_ap_set_int(&value, int_lit);
|
||||
return scc_hir_builder_integer(&ctx->builder, type_ref, &value);
|
||||
}
|
||||
case SCC_AST_EXPR_STRING_LITERAL: {
|
||||
// const_string 返回指向常量区字符串的指针,左右值都返回此指针
|
||||
scc_hir_value_ref_t value =
|
||||
scc_hir_builder_const_string(&ctx->builder, expr->literal.lexme,
|
||||
scc_strlen(expr->literal.lexme));
|
||||
return value;
|
||||
}
|
||||
case SCC_AST_EXPR_IDENTIFIER: {
|
||||
if (expr->identifier._target == nullptr) {
|
||||
LOG_ERROR("unknown identifier %s", expr->identifier.name);
|
||||
}
|
||||
// FIXME hack hashtable
|
||||
scc_hir_value_ref_t in = (scc_hir_value_ref_t)(usize)scc_hashtable_get(
|
||||
&ctx->ast2ir_cache, expr->identifier._target);
|
||||
Assert(in != 0);
|
||||
if (is_lvalue) {
|
||||
return in;
|
||||
} else {
|
||||
// 右值:如果是数组类型,退化为指针(返回地址)
|
||||
scc_hir_type_t *ir_type = scc_hir_module_get_type_by_value(
|
||||
scc_ast2ir_mir_module(ctx), in);
|
||||
if (ir_type->tag == SCC_HIR_TYPE_PTR) {
|
||||
scc_hir_type_t *target_type = scc_hir_module_get_type(
|
||||
scc_ast2ir_mir_module(ctx), ir_type->data.pointer.base);
|
||||
if (target_type->tag == SCC_HIR_TYPE_ARRAY) {
|
||||
// 生成 getptr 获取数组首地址
|
||||
return scc_hir_builder_get_elem_ptr(&ctx->builder, in,
|
||||
SCC_HIR_REF_nullptr);
|
||||
} else {
|
||||
// 标量类型:加载值
|
||||
return scc_hir_builder_load(&ctx->builder, in);
|
||||
}
|
||||
} else {
|
||||
return in;
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
default:
|
||||
LOG_FATAL("Unsupported expression type: %d", expr->base.type);
|
||||
return 0;
|
||||
}
|
||||
UNREACHABLE();
|
||||
}
|
||||
Reference in New Issue
Block a user