feat(argparse): 支持列表类型参数解析

当参数指定为列表类型时，验证和处理逻辑现在会检查 vec_store 是否为空或大小为0，而不是检查 str_store。 fix(hir): 初始化聚合类型值的数据结构在 HIR 值初始化过程中，为聚合类型添加适当的初始化逻辑，确保其字段向量被正确初始化。 refactor(hir_builder): 优化指针类型创建和GEP操作实现 - 简化全局分配器中的指针类型创建代码 - 扩展 GEP 操作以支持结构体和联合体字段访问 - 添加字段偏移计算支持 feat(hir_dump): 增强HIR类型和值的线性转储功能 - 实现类型定义的线性转储输出 - 改进结构体和联合体的转储格式 - 优化聚合值的转储表示 perf(hir_layout): 优化类型布局计算性能改进结构体、联合体和聚合类型的对齐和大小计算算法，提高字段偏移计算的准确性。 fix(hir_module): 完善模块资源清理机制在模块析构时正确释放结构体和联合体类型的字段向量内存。 docs(lir): 更新文档注释中的空值表示将初始化数据参数的空值描述从 NULL 统一为 nullptr。 refactor(hir2lir): 改进HIR到LIR的类型转换逻辑 - 重构类型到LIR大小扩展的转换函数 - 修复STORE指令的类型推导逻辑 - 增强GEP指令的规模因子和偏移量计算 - 添加对结构体/联合体字段访问的支持 refactor(x86_isel): 优化x86-64地址加载指令生成改进LOAD_ADDR指令生成，更好地支持结构体字段访问的零比例因子。 docs(ir2mcode): 统一空值表示文档注释更新初始化数据参数的空值描述为nullptr。 refactor(lexer): 简化词法分析器非空白标记预览逻辑优化非空白标记预览函数，减少不必要的标记消费和销毁操作。
2026-06-03 17:34:16 +08:00
parent be33eb3942
commit 0acea43e4e
17 changed files with 486 additions and 174 deletions
--- a/libs/argparse/src/argparse.c
+++ b/libs/argparse/src/argparse.c
@@ -171,7 +171,14 @@ static int validate_and_cleanup(scc_argparse_context_t *ctx,
    scc_vec_foreach(ctx->current_cmd->args, i) {
        scc_argparse_arg_t *arg = &scc_vec_at(ctx->current_cmd->args, i);
        if (arg->spec.flag_required) {
-            // 检查是否已存储（非空）
+            if (arg->spec.value_type == SCC_ARGPARSE_VAL_TYPE_LIST) {
                if (arg->spec.store.vec_store == nullptr ||
                    scc_vec_size(*arg->spec.store.vec_store) == 0) {
                    errcode = SCC_ARGPARSE_ERR_MISSING_ARG;
                    ctx->err_ctx = arg->name;
                    goto END;
                }
            } else {
                if (arg->spec.store.str_store == nullptr ||
                    *arg->spec.store.str_store == nullptr) {
                    errcode = SCC_ARGPARSE_ERR_MISSING_ARG;
@@ -180,6 +187,7 @@ static int validate_and_cleanup(scc_argparse_context_t *ctx,
                }
            }
        }
    }
    scc_vec_foreach(ctx->current_cmd->opts, i) {
        scc_argparse_opt_t *opt = &scc_vec_at(ctx->current_cmd->opts, i);
        if (opt->spec.flag_required) {
@@ -265,9 +273,13 @@ static int handle_positional_arg(scc_argparse_context_t *ctx,
    if (ctx->positional_index < (int)scc_vec_size(ctx->current_cmd->args)) {
        scc_argparse_arg_t *arg =
            &scc_vec_at(ctx->current_cmd->args, ctx->positional_index);
        if (arg->spec.value_type == SCC_ARGPARSE_VAL_TYPE_LIST) {
            scc_vec_push(*arg->spec.store.vec_store, ctx->result.value);
        } else {
            *arg->spec.store.str_store = ctx->result.value;
        arg->spec.raw_value = ctx->result.value;
            ctx->positional_index++;
        }
        arg->spec.raw_value = ctx->result.value;
    } else {
        ctx->parsing_done = true;
        return SCC_ARGPARSE_ERR_UNKNOWN_ARG;
--- a/libs/ir/hir/src/scc_hir.c
+++ b/libs/ir/hir/src/scc_hir.c
@@ -117,6 +117,9 @@ void scc_hir_value_init(scc_hir_value_t *in, const char *name,
        in->data.conv.operand = 0;
        in->data.conv.target_type = 0;
        break;
    case SCC_HIR_VALUE_TAG_AGGREGATE:
        scc_vec_init(in->data.aggregate.fields);
        break;
    default:
        UNREACHABLE();
        break;
--- a/libs/ir/hir/src/scc_hir_builder.c
+++ b/libs/ir/hir/src/scc_hir_builder.c
@@ -492,10 +492,9 @@ scc_hir_value_ref_t scc_hir_builder_global_alloca(scc_hir_builder_t *builder,
                                                  scc_hir_type_ref_t type,
                                                  scc_hir_value_ref_t value) {
    SCC_HIR_BUILDER_CHECK_NO_BORROW(builder);
-    // 全局变量的实际类型是指向 type 的指针
+    scc_hir_type_ref_t ptr_type_ref = scc_hir_builder_type(
-    scc_hir_type_t ptr_type = {.tag = SCC_HIR_TYPE_PTR,
+        builder,
-                               .data.pointer.base = type};
+        &(scc_hir_type_t){.tag = SCC_HIR_TYPE_PTR, .data.pointer.base = type});
    scc_hir_type_ref_t ptr_type_ref = scc_hir_builder_type(builder, &ptr_type);
    // FIXME
    char *name = scc_malloc(32);
@@ -612,28 +611,52 @@ scc_hir_value_ref_t scc_hir_builder_get_elem_ptr(scc_hir_builder_t *builder,
        builder, type_ref,
        scc_hir_module_get_type_by_value(GET_MODULE(builder), target));
    Assert(type_ref != nullptr);
-    scc_hir_type_t type = *type_ref;     // 拷贝一份，避免后续借用
+    scc_hir_type_t val_type = *type_ref; // 拷贝一份，避免后续借用
    SCC_HIR_BUILDER_END_BORROW(builder); // type_ref
-    if (type.tag == SCC_HIR_TYPE_PTR) {
+    if (val_type.tag == SCC_HIR_TYPE_PTR) {
        scc_hir_type_ref_t base_ref = val_type.data.pointer.base;
        scc_hir_type_t *base_type = nullptr;
        SCC_HIR_BUILDER_BEGIN_BORROW(
            builder, base_type,
-            scc_hir_module_get_type(GET_MODULE(builder),
+            scc_hir_module_get_type(GET_MODULE(builder), base_ref));
-                                    type_ref->data.pointer.base));
+        Assert(base_type != nullptr);
-        if (base_type->tag == SCC_HIR_TYPE_ARRAY) {
+        scc_hir_type_tag_t base_tag = base_type->tag;
-            scc_hir_type_t type = (scc_hir_type_t){
+
        if (base_tag == SCC_HIR_TYPE_ARRAY) {
            // 数组 GEP：返回指向元素类型的指针
            scc_hir_type_ref_t elem_ref = base_type->data.array.base;
            SCC_HIR_BUILDER_END_BORROW(builder);
            get_ptr_node.type =
                scc_hir_builder_type(builder, &(scc_hir_type_t){
                                                  .tag = SCC_HIR_TYPE_PTR,
-                .data.pointer.base = base_type->data.array.base,
+                                                  .data.pointer.base = elem_ref,
-            };
+                                              });
-            SCC_HIR_BUILDER_END_BORROW(builder); // base_type
+        } else if (base_tag == SCC_HIR_TYPE_STRUCT ||
-            get_ptr_node.type = scc_hir_builder_type(builder, &type);
+                   base_tag == SCC_HIR_TYPE_UNION) {
            // 结构体/联合体 GEP：index 是字段编号，返回指向字段类型的指针
            usize field_idx = 0;
            scc_hir_value_t *idx_val =
                scc_hir_module_get_value(GET_MODULE(builder), index);
            if (idx_val && idx_val->tag == SCC_HIR_VALUE_TAG_INTEGER) {
                field_idx = (usize)idx_val->data.integer.data.digit;
            }
            Assert(field_idx < scc_vec_size(base_type->data.aggregate.fields));
            scc_hir_type_ref_t field_ref =
                scc_vec_at(base_type->data.aggregate.fields, field_idx);
            SCC_HIR_BUILDER_END_BORROW(builder);
            get_ptr_node.type = scc_hir_builder_type(
                builder, &(scc_hir_type_t){
                             .tag = SCC_HIR_TYPE_PTR,
                             .data.pointer.base = field_ref,
                         });
        } else {
-            SCC_HIR_BUILDER_END_BORROW(builder); // base_type
+            // 其他类型：保持原指针类型
-            get_ptr_node.type = scc_hir_builder_type(builder, &type);
+            SCC_HIR_BUILDER_END_BORROW(builder);
            get_ptr_node.type = scc_hir_builder_type(builder, &val_type);
        }
    } else {
-        get_ptr_node.type = scc_hir_builder_type(builder, &type);
+        get_ptr_node.type = scc_hir_builder_type(builder, &val_type);
    }
    scc_hir_value_ref_t value_ref =
--- a/libs/ir/hir/src/scc_hir_dump.c
+++ b/libs/ir/hir/src/scc_hir_dump.c
@@ -79,17 +79,16 @@ static const char *get_type_tag_str(scc_hir_type_tag_t tag) {
 static void dump_type_linear_with_visited(scc_hir_dump_t *ctx,
                                          scc_hir_type_ref_t type_ref,
-                                          scc_hashtable_t *visited) {
+                                          scc_hashtable_t *visited,
                                          cbool extened) {
    if (!ctx || !type_ref) {
        LOG_ERROR("invalid parameter");
        return;
    }
    // 检查循环
    if (scc_hashtable_get(visited, (void *)(usize)type_ref)) {
-        scc_tree_dump_append(ctx->dump_ctx, " <recursive>");
+        extened = false;
        return;
    }
    scc_hashtable_set(visited, (void *)(usize)type_ref, (void *)1);
    scc_hir_type_t *type = scc_hir_module_get_type(GET_MODULE(ctx), type_ref);
    if (!type) {
@@ -117,12 +116,14 @@ static void dump_type_linear_with_visited(scc_hir_dump_t *ctx,
        break;
    case SCC_HIR_TYPE_ARRAY:
        scc_tree_dump_append(ctx->dump_ctx, "[");
-        dump_type_linear_with_visited(ctx, type->data.array.base, visited);
+        dump_type_linear_with_visited(ctx, type->data.array.base, visited,
                                      extened);
        scc_tree_dump_append_fmt(ctx->dump_ctx, ", %zu]", type->data.array.len);
        break;
    case SCC_HIR_TYPE_PTR:
        scc_tree_dump_append(ctx->dump_ctx, "*");
-        dump_type_linear_with_visited(ctx, type->data.pointer.base, visited);
+        dump_type_linear_with_visited(ctx, type->data.pointer.base, visited,
                                      extened);
        break;
    case SCC_HIR_TYPE_FUNC:
        scc_tree_dump_append(ctx->dump_ctx, "(");
@@ -130,26 +131,40 @@ static void dump_type_linear_with_visited(scc_hir_dump_t *ctx,
            if (i > 0)
                scc_tree_dump_append(ctx->dump_ctx, ", ");
            dump_type_linear_with_visited(
-                ctx, scc_vec_at(type->data.function.params, i), visited);
+                ctx, scc_vec_at(type->data.function.params, i), visited,
                extened);
        }
        if (type->data.function.ret_type) {
            scc_tree_dump_append(ctx->dump_ctx, ") -> ");
            dump_type_linear_with_visited(ctx, type->data.function.ret_type,
-                                          visited);
+                                          visited, extened);
        } else {
            scc_tree_dump_append(ctx->dump_ctx, ")");
        }
        break;
    case SCC_HIR_TYPE_STRUCT:
    case SCC_HIR_TYPE_UNION:
-        scc_tree_dump_append_fmt(ctx->dump_ctx, "%s {",
+        scc_hashtable_set(visited, (void *)(usize)type_ref, (void *)1);
-                                 type->tag == SCC_HIR_TYPE_STRUCT ? "struct"
+        const char *tag_name =
-                                                                  : "union");
+            type->tag == SCC_HIR_TYPE_STRUCT ? "struct" : "union";
-        for (usize i = 0; i < scc_vec_size(type->data.aggregate.fields); i++) {
+        if (type->name) {
            scc_tree_dump_append_fmt(ctx->dump_ctx, "%s %s {", tag_name,
                                     type->name);
        } else {
            scc_tree_dump_append_fmt(ctx->dump_ctx, "%s T%u {", tag_name,
                                     type_ref);
        }
        if (extened) {
            for (usize i = 0; i < scc_vec_size(type->data.aggregate.fields);
                 i++) {
                dump_type_linear_with_visited(
-                ctx, scc_vec_at(type->data.aggregate.fields, i), visited);
+                    ctx, scc_vec_at(type->data.aggregate.fields, i), visited,
                    extened);
                scc_tree_dump_append(ctx->dump_ctx, ";");
            }
        } else {
            scc_tree_dump_append(ctx->dump_ctx, "...");
        }
        scc_tree_dump_append(ctx->dump_ctx, "}");
        break;
    default:
@@ -162,9 +177,29 @@ void scc_hir_dump_type_linear(scc_hir_dump_t *ctx,
                              scc_hir_type_ref_t type_ref) {
    scc_hashtable_t visited;
    scc_hashtable_usize_init(&visited);
-    dump_type_linear_with_visited(ctx, type_ref, &visited);
+    dump_type_linear_with_visited(ctx, type_ref, &visited, false);
    scc_hashtable_drop(&visited);
 }
 static void scc_hir_dump_types_linear(scc_hir_dump_t *ctx) {
    scc_hir_module_t *module = GET_MODULE(ctx);
    // 遍历所有类型（跳过索引0，保留给无效引用）
    for (usize i = 1; i < scc_vec_size(module->types); i++) {
        scc_hir_type_t *type = &module->types.data[i];
        if (type->tag == SCC_HIR_TYPE_unknown)
            continue;
        scc_hashtable_t visited;
        scc_hashtable_usize_init(&visited);
        scc_tree_dump_begin_line(ctx->dump_ctx);
        scc_tree_dump_node(ctx->dump_ctx, "T%u", (unsigned)i);
        scc_tree_dump_append(ctx->dump_ctx, " = ");
        dump_type_linear_with_visited(ctx, (scc_hir_type_ref_t)i, &visited,
                                      true);
        scc_hashtable_drop(&visited);
    }
 }
 static void format_ref_or_value(scc_hir_dump_t *ctx,
                                scc_hir_value_ref_t value_ref) {
@@ -249,12 +284,18 @@ void scc_hir_dump_value_linear(scc_hir_dump_t *ctx,
        // 值已经在 format 中输出，这里不需要再做
        break;
    case SCC_HIR_VALUE_TAG_AGGREGATE:
-        // 聚合类型：递归输出每个元素（每个占一行）
+        scc_tree_dump_append(ctx->dump_ctx, "{");
        if (scc_vec_size(value->data.aggregate.fields) > 0) {
            scc_tree_dump_push(ctx->dump_ctx, true);
            scc_vec_foreach(value->data.aggregate.fields, i) {
                scc_tree_dump_begin_line(ctx->dump_ctx);
                scc_hir_dump_value_linear(
                    ctx, scc_vec_at(value->data.aggregate.fields, i));
            scc_tree_dump_append(ctx->dump_ctx, "\n");
            }
            scc_tree_dump_pop(ctx->dump_ctx);
            scc_tree_dump_begin_line(ctx->dump_ctx);
        }
        scc_tree_dump_append(ctx->dump_ctx, "}");
        return;
    case SCC_HIR_VALUE_TAG_ALLOC:
        scc_tree_dump_append(ctx->dump_ctx, "alloc");
@@ -325,8 +366,9 @@ void scc_hir_dump_value_linear(scc_hir_dump_t *ctx,
                                 value->data.arg_ref.idx);
        break;
    case SCC_HIR_VALUE_TAG_GLOBAL_ALLOC:
-        scc_tree_dump_append_fmt(ctx->dump_ctx, "global %s", value->name);
+        scc_tree_dump_append_fmt(ctx->dump_ctx, "global %s:", value->name);
        scc_tree_dump_begin_line(ctx->dump_ctx);
        scc_tree_dump_append(ctx->dump_ctx, "  ");
        if (value->data.global_alloc.value) {
            scc_hir_dump_value_linear(ctx, value->data.global_alloc.value);
        } else {
@@ -422,6 +464,7 @@ void scc_hir_dump_func_linear(scc_hir_dump_t *ctx, scc_hir_func_ref_t func_ref,
 }
 void scc_hir_dump_cprog_linear(scc_hir_dump_t *ctx) {
    scc_hir_dump_types_linear(ctx);
    for (usize i = 0; i < scc_vec_size(ctx->cprog->global_vals); i++) {
        scc_tree_dump_begin_line(ctx->dump_ctx);
        scc_hir_dump_value_linear(ctx, scc_vec_at(ctx->cprog->global_vals, i));
--- a/libs/ir/hir/src/scc_hir_layout.c
+++ b/libs/ir/hir/src/scc_hir_layout.c
@@ -45,7 +45,8 @@ int scc_hir_type_align(scc_hir_module_t *mod, scc_hir_type_ref_t ref,
            scc_hir_type_ref_t fr = scc_vec_at(type->data.aggregate.fields, i);
            int fa_bits = scc_hir_type_align(mod, fr, abi);
            int fs_bits = scc_hir_type_size(mod, fr, abi);
-            int fa2_bits = scc_type_abi_get_field_align(abi, fs_bits / 8, fa_bits / 8) * 8;
+            int fa2_bits =
                scc_type_abi_get_field_align(abi, fs_bits / 8, fa_bits / 8) * 8;
            if (fa2_bits > max_align_bits)
                max_align_bits = fa2_bits;
        }
@@ -116,13 +117,15 @@ int scc_hir_type_size(scc_hir_module_t *mod, scc_hir_type_ref_t ref,
            scc_hir_type_ref_t fr = scc_vec_at(type->data.aggregate.fields, i);
            int fs_bits = scc_hir_type_size(mod, fr, abi);
            int fa_bits = scc_hir_type_align(mod, fr, abi);
-            int fa2_bits = scc_type_abi_get_field_align(abi, fs_bits / 8, fa_bits / 8) * 8;
+            int fa2_bits =
                scc_type_abi_get_field_align(abi, fs_bits / 8, fa_bits / 8) * 8;
            offset_bits = SCC_ALIGN_UP(offset_bits, fa2_bits);
            offset_bits += fs_bits;
            if (fa2_bits > max_align_bits)
                max_align_bits = fa2_bits;
        }
-        return SCC_ALIGN_UP(offset_bits,
+        return SCC_ALIGN_UP(
            offset_bits,
            scc_type_abi_get_aggregate_align(abi, max_align_bits / 8) * 8);
    }
@@ -137,7 +140,8 @@ int scc_hir_type_size(scc_hir_module_t *mod, scc_hir_type_ref_t ref,
            if (fa_bits > max_align_bits)
                max_align_bits = fa_bits;
        }
-        return SCC_ALIGN_UP(max_size_bits,
+        return SCC_ALIGN_UP(
            max_size_bits,
            scc_type_abi_get_aggregate_align(abi, max_align_bits / 8) * 8);
    }
@@ -149,8 +153,8 @@ int scc_hir_type_size(scc_hir_module_t *mod, scc_hir_type_ref_t ref,
 int scc_hir_field_offset(scc_hir_module_t *mod, scc_hir_type_ref_t ref,
                         int field_idx, const scc_type_abi_t *abi) {
    scc_hir_type_t *type = scc_hir_module_get_type(mod, ref);
-    if (!type || (type->tag != SCC_HIR_TYPE_STRUCT &&
+    if (!type ||
-                  type->tag != SCC_HIR_TYPE_UNION))
+        (type->tag != SCC_HIR_TYPE_STRUCT && type->tag != SCC_HIR_TYPE_UNION))
        return 0;
    if (type->tag == SCC_HIR_TYPE_UNION)
@@ -162,10 +166,12 @@ int scc_hir_field_offset(scc_hir_module_t *mod, scc_hir_type_ref_t ref,
        return 0;
    for (int i = 0; i < count; i++) {
-        scc_hir_type_ref_t fr = scc_vec_at(type->data.aggregate.fields, (usize)i);
+        scc_hir_type_ref_t fr =
            scc_vec_at(type->data.aggregate.fields, (usize)i);
        int fs_bits = scc_hir_type_size(mod, fr, abi);
        int fa_bits = scc_hir_type_align(mod, fr, abi);
-        int fa2_bits = scc_type_abi_get_field_align(abi, fs_bits / 8, fa_bits / 8) * 8;
+        int fa2_bits =
            scc_type_abi_get_field_align(abi, fs_bits / 8, fa_bits / 8) * 8;
        offset_bits = SCC_ALIGN_UP(offset_bits, fa2_bits);
        if (i == field_idx)
            return offset_bits;
@@ -178,9 +184,9 @@ scc_hir_aggregate_layout_t *
 scc_hir_aggregate_layout(scc_hir_module_t *mod, scc_hir_type_ref_t ref,
                         const scc_type_abi_t *abi) {
    scc_hir_type_t *type = scc_hir_module_get_type(mod, ref);
-    if (!type || (type->tag != SCC_HIR_TYPE_STRUCT &&
+    if (!type ||
-                  type->tag != SCC_HIR_TYPE_UNION))
+        (type->tag != SCC_HIR_TYPE_STRUCT && type->tag != SCC_HIR_TYPE_UNION))
-        return NULL;
+        return nullptr;
    int fc = (int)scc_vec_size(type->data.aggregate.fields);
@@ -226,7 +232,8 @@ scc_hir_aggregate_layout(scc_hir_module_t *mod, scc_hir_type_ref_t ref,
            scc_vec_at(type->data.aggregate.fields, (usize)i);
        int fs_bits = scc_hir_type_size(mod, fr, abi);
        int fa_bits = scc_hir_type_align(mod, fr, abi);
-        int fa2_bits = scc_type_abi_get_field_align(abi, fs_bits / 8, fa_bits / 8) * 8;
+        int fa2_bits =
            scc_type_abi_get_field_align(abi, fs_bits / 8, fa_bits / 8) * 8;
        offset_bits = SCC_ALIGN_UP(offset_bits, fa2_bits);
        al->fields[i].offset = offset_bits;
@@ -238,7 +245,8 @@ scc_hir_aggregate_layout(scc_hir_module_t *mod, scc_hir_type_ref_t ref,
            max_align_bits = fa2_bits;
    }
-    al->size = SCC_ALIGN_UP(offset_bits,
+    al->size = SCC_ALIGN_UP(
        offset_bits,
        scc_type_abi_get_aggregate_align(abi, max_align_bits / 8) * 8);
    al->align = scc_type_abi_get_aggregate_align(abi, max_align_bits / 8) * 8;
    return al;
--- a/libs/ir/hir/src/scc_hir_module.c
+++ b/libs/ir/hir/src/scc_hir_module.c
@@ -46,8 +46,16 @@ void scc_hir_module_drop(scc_hir_module_t *ctx) {
    for (usize i = 1; i < ctx->types.size; i++) {
        scc_hir_type_t *type = &ctx->types.data[i];
-        if (type->tag == SCC_HIR_TYPE_FUNC) {
+        switch (type->tag) {
        case SCC_HIR_TYPE_FUNC:
            scc_vec_free(type->data.function.params);
            break;
        case SCC_HIR_TYPE_STRUCT:
        case SCC_HIR_TYPE_UNION:
            scc_vec_free(type->data.aggregate.fields);
            break;
        default:
            break;
        }
    }
--- a/libs/ir/lir/include/scc_lir_module.h
+++ b/libs/ir/lir/include/scc_lir_module.h
@@ -44,7 +44,7 @@ scc_lir_symbol_id_t scc_lir_module_add_func_decl(scc_lir_module_t *lir_module,
 * @param mod       模块
 * @param name      符号名
 * @param kind      种类 (DATA 或 EXTERN)
- * @param init_data 初始化数据 (若为 DATA 定义；若为 NULL 则零初始化)
+ * @param init_data 初始化数据 (若为 DATA 定义；若为 nullptr 则零初始化)
 * @param size      数据大小 (若为 EXTERN 可为 0)
 * @param align     对齐要求
 * @param attr      属性
--- a/libs/ir/lir/src/scc_hir2lir.c
+++ b/libs/ir/lir/src/scc_hir2lir.c
@@ -38,8 +38,15 @@ static scc_lir_val_t ir_value_to_lir_operand(ir2lir_ctx_t *ctx,
 static void translate_hir_value(ir2lir_ctx_t *ctx, scc_hir_value_t *value,
                                scc_hir_value_ref_t value_ref);
-static void ir_type_to_lir_size_ext(scc_hir_type_t *type, u8 *out_size,
+static void ir_type_to_lir_size_ext(scc_hir_module_t *mod,
                                    scc_hir_type_ref_t type_ref, u8 *out_size,
                                    scc_lir_ext_t *out_ext) {
    scc_hir_type_t *type = scc_hir_module_get_type(mod, type_ref);
    if (!type) {
        *out_size = 0;
        *out_ext = SCC_LIR_EXT_NONE;
        return;
    }
    switch (type->tag) {
    case SCC_HIR_TYPE_i8:
        *out_size = SCC_LIR_SIZE_8;
@@ -90,6 +97,11 @@ static void ir_type_to_lir_size_ext(scc_hir_type_t *type, u8 *out_size,
        *out_size = 0;
        *out_ext = SCC_LIR_EXT_NONE;
        break;
    case SCC_HIR_TYPE_STRUCT:
    case SCC_HIR_TYPE_UNION:
        *out_size = (u8)scc_hir_module_type_size(mod, type_ref);
        *out_ext = SCC_LIR_EXT_NONE;
        break;
    default:
        Panic("unsupported IR type in lowering at %d", type->tag);
    }
@@ -311,12 +323,10 @@ static void translate_hir_value(ir2lir_ctx_t *ctx, scc_hir_value_t *value,
    if (scc_hashtable_get(&ctx->value_to_vreg, (void *)(uintptr_t)value_ref))
        return;
    scc_hir_type_t *ty = scc_hir_module_get_type(ctx->hir_module, value->type);
    u8 size_bits = 0;
    scc_lir_ext_t ext = SCC_LIR_EXT_NONE;
-    if (ty != nullptr) {
+    ir_type_to_lir_size_ext(ctx->hir_module, value->type, &size_bits, &ext);
-        ir_type_to_lir_size_ext(ty, &size_bits, &ext);
+    scc_hir_type_t *ty = scc_hir_module_get_type(ctx->hir_module, value->type);
    }
    bool is_float = (ext == SCC_LIR_EXT_FLOAT);
    int dst_vreg = get_vreg_for_value(ctx, value_ref);
@@ -361,15 +371,11 @@ static void translate_hir_value(ir2lir_ctx_t *ctx, scc_hir_value_t *value,
        /* 修复: 使用目标指针的元素类型确定 store 宽度而非源值类型 */
        scc_hir_type_t *ptr_type = scc_hir_module_get_type_by_value(
            ctx->hir_module, value->data.store.target);
        scc_hir_type_ref_t store_type = value->data.store.value;
        if (ptr_type && ptr_type->tag == SCC_HIR_TYPE_PTR) {
-            scc_hir_type_t *elem_type = scc_hir_module_get_type(
+            store_type = ptr_type->data.pointer.base;
                ctx->hir_module, ptr_type->data.pointer.base);
            ir_type_to_lir_size_ext(elem_type, &size_bits, &ext);
        } else {
            ty = scc_hir_module_get_type_by_value(ctx->hir_module,
                                                  value->data.store.value);
            ir_type_to_lir_size_ext(ty, &size_bits, &ext);
        }
        ir_type_to_lir_size_ext(ctx->hir_module, store_type, &size_bits, &ext);
        scc_lir_instr_t instr = {.op = SCC_LIR_STORE,
                                 .ext = ext,
                                 .size_bits = size_bits,
@@ -378,25 +384,50 @@ static void translate_hir_value(ir2lir_ctx_t *ctx, scc_hir_value_t *value,
        scc_lir_builder_add_instr(ctx, &instr);
    } break;
    case SCC_HIR_VALUE_TAG_GET_ELEM_PTR: {
        // 1. 获取基址和索引的 LIR 操作数
        scc_lir_val_t base =
            ir_value_to_lir_operand(ctx, value->data.get_elem_ptr.src_addr);
        scc_lir_val_t index =
            ir_value_to_lir_operand(ctx, value->data.get_elem_ptr.index);
-        // 2. 获取元素类型和大小
+        // 获取 src_addr 的原始指针类型，判断是否为结构体字段访问
-        scc_hir_type_t *ptr_type =
+        scc_hir_type_t *src_type = scc_hir_module_get_type_by_value(
-            scc_hir_module_get_type(ctx->hir_module, value->type);
+            ctx->hir_module, value->data.get_elem_ptr.src_addr);
-        scc_hir_type_ref_t pointee = SCC_CFG_ID_nullptr;
+        int scale = 0, offset = 0;
-        if (ptr_type->tag == SCC_HIR_TYPE_PTR) {
+
-            pointee = ptr_type->data.pointer.base;
+        if (src_type && src_type->tag == SCC_HIR_TYPE_PTR) {
-        } else if (ptr_type->tag == SCC_HIR_TYPE_ARRAY) {
+            scc_hir_type_ref_t pointee_ref = src_type->data.pointer.base;
-            // 数组名退化为指针，元素类型为数组的元素类型
+            scc_hir_type_t *pointee =
-            pointee = ptr_type->data.array.base;
+                scc_hir_module_get_type(ctx->hir_module, pointee_ref);
-        } else {
+            if (pointee && (pointee->tag == SCC_HIR_TYPE_STRUCT ||
-            Panic("GET_ELEM_PTR on non-pointer/array type");
+                            pointee->tag == SCC_HIR_TYPE_UNION)) {
                // 结构体/联合体字段 GEP：使用字段字节偏移
                int field_idx = 0;
                scc_hir_value_t *idx_val = scc_hir_module_get_value(
                    ctx->hir_module, value->data.get_elem_ptr.index);
                if (idx_val && idx_val->tag == SCC_HIR_VALUE_TAG_INTEGER) {
                    field_idx = (int)idx_val->data.integer.data.digit;
                }
                offset = scc_hir_field_offset(ctx->hir_module, pointee_ref,
                                              field_idx, ctx->hir_module->abi) /
                         8;
            } else if (pointee && pointee->tag == SCC_HIR_TYPE_ARRAY) {
                // 数组 GEP：index * elem_size
                scc_hir_type_ref_t elem_ref = pointee->data.array.base;
                int elem_size_bits =
                    scc_hir_module_type_size(ctx->hir_module, elem_ref);
                scale = elem_size_bits / 8;
            } else {
                // 其他类型：按元素大小缩放
                int elem_size_bits =
                    scc_hir_module_type_size(ctx->hir_module, pointee_ref);
                scale = elem_size_bits / 8;
            }
        } else if (src_type && src_type->tag == SCC_HIR_TYPE_ARRAY) {
            scc_hir_type_ref_t elem_ref = src_type->data.array.base;
            int elem_size_bits =
                scc_hir_module_type_size(ctx->hir_module, elem_ref);
            scale = elem_size_bits / 8;
        }
        int elem_size_bits = scc_hir_module_type_size(ctx->hir_module, pointee);
        int dst_vreg = get_vreg_for_value(ctx, value_ref);
        scc_lir_instr_t instr = {
@@ -405,9 +436,8 @@ static void translate_hir_value(ir2lir_ctx_t *ctx, scc_hir_value_t *value,
            .to = SCC_LIR_VREG(dst_vreg),
            .arg0 = base,
            .arg1 = index,
-            // FIXME
+            .metadata.addr.scale = scale,
-            .metadata.addr.scale = elem_size_bits / 8,
+            .metadata.addr.offset = offset,
            .metadata.addr.offset = 0,
        };
        scc_lir_builder_add_instr(ctx, &instr);
    } break;
@@ -556,11 +586,10 @@ static void translate_hir_value(ir2lir_ctx_t *ctx, scc_hir_value_t *value,
        }
        case SCC_HIR_BUILTIN_TAG_VA_ARG: {
            // 需要从类型中获取大小和对齐以及是否为浮点
            scc_hir_type_t *ty =
                scc_hir_module_get_type(ctx->hir_module, b->func.va_arg.type);
            u8 size = 0;
            scc_lir_ext_t ext = SCC_LIR_EXT_NONE;
-            ir_type_to_lir_size_ext(ty, &size, &ext);
+            ir_type_to_lir_size_ext(ctx->hir_module, b->func.va_arg.type, &size,
                                    &ext);
            bool is_float = (ext == SCC_LIR_EXT_FLOAT);
            scc_lir_val_t ap = ir_value_to_lir_operand(ctx, b->func.va_arg.ap);
            scc_lir_instr_t instr = {
@@ -598,6 +627,13 @@ static void translate_hir_value(ir2lir_ctx_t *ctx, scc_hir_value_t *value,
    } break;
    case SCC_HIR_VALUE_TAG_FUNC_ARG_REF:
    case SCC_HIR_VALUE_TAG_BLOCK_ARG_REF:
    case SCC_HIR_VALUE_TAG_INTEGER:
    case SCC_HIR_VALUE_TAG_DECIMAL:
    case SCC_HIR_VALUE_TAG_NULLPTR:
    case SCC_HIR_VALUE_TAG_ARRAY:
    case SCC_HIR_VALUE_TAG_AGGREGATE:
    case SCC_HIR_VALUE_TAG_GLOBAL_ALLOC:
        // 常量/全局值：不需要生成指令，由 ir_value_to_lir_operand 处理
        break;
    default:
        Panic("unsupported opcode %d", value->tag);
@@ -672,7 +708,11 @@ void scc_hir2lir(scc_lir_module_t *module, scc_hir_cprog_t *cprog) {
            &cprog->module, galloc->data.global_alloc.value);
        scc_lir_symbol_id_t id = SCC_CFG_ID_nullptr;
-        int size = scc_hir_module_type_size(&cprog->module, val->type);
+        scc_hir_type_t *gtype =
            scc_hir_module_get_type(&cprog->module, galloc->type);
        Assert(gtype->tag == SCC_HIR_TYPE_PTR);
        int size =
            scc_hir_module_type_size(&cprog->module, gtype->data.pointer.base);
        Assert(size > 0);
        if (val == nullptr) {
            // TODO char == 8 bit
--- a/libs/ir/mir/src/arch/scc_x86_isel.c
+++ b/libs/ir/mir/src/arch/scc_x86_isel.c
@@ -266,58 +266,60 @@ static void emit_load_addr(scc_x86_64_isel_t *isel, scc_x86_operand_value_t dst,
                           i64 offset) {
    usize size_bits = dst.size_bits;
    Assert(size_bits == 64);
    // 前置断言：dst 必须是寄存器
    Assert(dst.kind == SCC_X86_OPR_REG);
    // scale 必须是 1,2,4,8 之一
    Assert(scale == 1 || scale == 2 || scale == 4 || scale == 8);
    // ---- 处理 base ----
    scc_x86_operand_value_t base_reg = base;
    switch (base.kind) {
-    case SCC_X86_OPR_REG: {
+    case SCC_X86_OPR_REG:
-        base_reg = base;
+        break;
-    } break;
+    case SCC_X86_OPR_RELOC:
    case SCC_X86_OPR_RELOC: {
        Assert(base.reloc.target == SCC_X86_RELOC_TARGET_SYMBOL);
        base_reg = new_vreg_temp(isel, 64);
        scc_x86_emit_move(isel, base_reg, base);
-    } break;
+        break;
-    case SCC_X86_OPR_MEM: {
+    case SCC_X86_OPR_MEM:
        base_reg = new_vreg_temp(isel, 64);
        scc_x86_emit_move(isel, base_reg, base);
-    } break;
+        break;
-    default: {
+    default:
        Panic("Unsupported base kind %d in load_addr", base.kind);
    }
    }
-    scc_x86_operand_value_t index_reg = index;
+    // ---- 处理 index 和 scale ----
    // scale=0 表示 struct/union 字段 GEP：字段索引已被折叠进 offset，
    // x86-64 SIB 不支持 scale=0，所以跳 index register，直接用 base+disp
    scc_x86_reg_t index_reg = SCC_X86_REG_INVALID;
    int sib_scale = 1;
    if (scale != 0) {
        Assert(scale == 1 || scale == 2 || scale == 4 || scale == 8);
        sib_scale = scale;
        switch (index.kind) {
-    case SCC_X86_OPR_REG: {
+        case SCC_X86_OPR_REG:
-        index_reg = index;
+            index_reg = index.reg;
-    } break;
+            break;
-    case SCC_X86_OPR_RELOC: {
+        case SCC_X86_OPR_RELOC:
            Assert(index.reloc.target == SCC_X86_RELOC_TARGET_SYMBOL);
-        index_reg = new_vreg_temp(isel, 64);
+            index_reg = new_vreg_temp(isel, 64).reg;
-        scc_x86_emit_move(isel, index_reg, index);
+            scc_x86_emit_move(isel, scc_x86_op_preg(index_reg, 64), index);
-    } break;
+            break;
-    case SCC_X86_OPR_MEM: {
+        case SCC_X86_OPR_MEM:
-        index_reg = new_vreg_temp(isel, 64);
+            index_reg = new_vreg_temp(isel, 64).reg;
-        scc_x86_emit_move(isel, index_reg, index);
+            scc_x86_emit_move(isel, scc_x86_op_preg(index_reg, 64), index);
-    } break;
+            break;
-    case SCC_X86_OPR_IMM: {
+        case SCC_X86_OPR_IMM:
-        index_reg = new_vreg_temp(isel, index.size_bits);
+            index_reg = new_vreg_temp(isel, index.size_bits).reg;
-        scc_x86_emit_move(isel, index_reg, index);
+            scc_x86_emit_move(isel, scc_x86_op_preg(index_reg, 64), index);
-    } break;
+            break;
-    default: {
+        default:
-        Panic("Unsupported index kind %d in load_addr", base.kind);
+            Panic("Unsupported index kind %d in load_addr", index.kind);
        }
    }
    scc_x86_operand_value_t mem_op =
        scc_x86_op_mem((scc_x86_mem_t){.base = base_reg.reg,
-                                       .index = index_reg.reg,
+                                       .index = index_reg,
-                                       .scale = scale,
+                                       .scale = sib_scale,
                                       .disp.displacement = offset,
                                       .disp.displacement_bits = 8},
                       size_bits);
--- a/libs/ir2mcode/src/scc_ir2sccf.c
+++ b/libs/ir2mcode/src/scc_ir2sccf.c
@@ -39,7 +39,7 @@ static inline void scc_ir_symbol_to_sect_data(const scc_cfg_symbol_t *symbol,
        scc_vec_push(*sect_data, meta->data.init_data[i]);
    }
    // struct {
-    //     u8 *init_data; // 初始化数据（若为 NULL 则零初始化）
+    //     u8 *init_data; // 初始化数据（若为 nullptr 则零初始化）
    //     usize size;    // 数据大小（字节）
    //     int align;     // 对齐要求
    // } data;
--- a/libs/lexer/include/scc_lexer_utils.h
+++ b/libs/lexer/include/scc_lexer_utils.h
@@ -22,8 +22,7 @@ static inline cbool scc_lexer_peek_non_blank(scc_lexer_tok_ring_t *stream,
        scc_ring_peek(*stream, *out, ok);
        if (!ok || out->type != SCC_TOK_BLANK)
            break;
-        scc_ring_next_consume(*stream, *out, ok);
+        scc_ring_next(*stream, *out, ok);
        scc_lexer_tok_drop(out);
    }
    return ok;
 }
--- a/libs/parser/src/parse_expr.c
+++ b/libs/parser/src/parse_expr.c
@@ -481,7 +481,8 @@ static scc_ast_expr_t *parse_cast_expression(scc_parser_t *parser) {
                scc_ast_expr_t *operand = parse_cast_expression(parser);
                if (!operand) {
                    // FIXME postfix-expression
-                    scc_ast_expr_t *expr = SCC_AST_ALLOC_EXPR(parser->ast_module);
+                    scc_ast_expr_t *expr =
                        SCC_AST_ALLOC_EXPR(parser->ast_module);
                    // FIXME pos
                    scc_ast_expr_lvalue_init(expr, type, type->base.loc);
                    operand = scc_parse_initializer(parser, expr);
@@ -681,7 +682,7 @@ static scc_ast_expr_t *parse_postfix_expression(scc_parser_t *parser) {
        case SCC_TOK_L_PAREN: // left(args)
        {
            if (!scc_parser_next_consume(parser, nullptr))
-                return left;
+                goto done;
            pos = left->base.loc;
            scc_ast_expr_vec_t args;
            scc_vec_init(args);
@@ -719,7 +720,7 @@ static scc_ast_expr_t *parse_postfix_expression(scc_parser_t *parser) {
        case SCC_TOK_DEREF: {
            scc_lexer_tok_t op_tok;
            if (!scc_parser_next_consume(parser, &op_tok))
-                return left;
+                goto done;
            scc_lexer_tok_t ident_tok;
            if (!scc_parser_next_consume(parser, &ident_tok) ||
                ident_tok.type != SCC_TOK_IDENT) {
@@ -729,18 +730,22 @@ static scc_ast_expr_t *parse_postfix_expression(scc_parser_t *parser) {
                parser_sync(parser);
                return nullptr;
            }
-            const char *name = scc_ast_module_intern(parser->ast_module, scc_str_as_cstr(&ident_tok.lexeme));
+            const char *name = scc_ast_module_intern(
                parser->ast_module, scc_str_as_cstr(&ident_tok.lexeme));
            scc_ast_expr_t *member = SCC_AST_ALLOC_EXPR(parser->ast_module);
            Assert(member != nullptr);
            if (op_tok.type == SCC_TOK_DOT) {
                scc_ast_expr_member_init(member, left, name, ident_tok.loc);
-            } else {
+            } else if (op_tok.type == SCC_TOK_DEREF) {
                scc_ast_expr_ptr_member_init(member, left, name, ident_tok.loc);
            } else {
                UNREACHABLE();
            }
            scc_lexer_tok_drop(&op_tok);
            left = member;
            scc_parse_expr_sema(parser, member);
            break;
        }
        case SCC_TOK_ADD_ADD: // left++
@@ -748,7 +753,7 @@ static scc_ast_expr_t *parse_postfix_expression(scc_parser_t *parser) {
        {
            scc_lexer_tok_t op_tok;
            if (!scc_parser_next_consume(parser, &op_tok))
-                return left;
+                goto done;
            scc_ast_expr_op_t op = map_token_to_unary_op(op_tok.type, false);
            scc_ast_expr_t *expr = SCC_AST_ALLOC_EXPR(parser->ast_module);
            Assert(expr != nullptr);
@@ -762,6 +767,7 @@ static scc_ast_expr_t *parse_postfix_expression(scc_parser_t *parser) {
        }
    }
 done:
    scc_parse_expr_sema(parser, left);
    return left;
 }
@@ -787,7 +793,10 @@ static scc_ast_expr_t *parse_primary_expression(scc_parser_t *parser) {
            return nullptr;
        expr = SCC_AST_ALLOC_EXPR(parser->ast_module);
        Assert(expr != nullptr);
-        scc_ast_expr_identifier_init(expr, scc_ast_module_intern(parser->ast_module, scc_str_as_cstr(&tok.lexeme)),
+        scc_ast_expr_identifier_init(
            expr,
            scc_ast_module_intern(parser->ast_module,
                                  scc_str_as_cstr(&tok.lexeme)),
            tok.loc);
        break;
    }
@@ -796,8 +805,11 @@ static scc_ast_expr_t *parse_primary_expression(scc_parser_t *parser) {
            return nullptr;
        expr = SCC_AST_ALLOC_EXPR(parser->ast_module);
        Assert(expr != nullptr);
-        scc_ast_expr_literal_int_init(expr, scc_ast_module_intern(parser->ast_module, scc_str_as_cstr(&tok.lexeme)), false,
+        scc_ast_expr_literal_int_init(
-                                      tok.loc);
+            expr,
            scc_ast_module_intern(parser->ast_module,
                                  scc_str_as_cstr(&tok.lexeme)),
            false, tok.loc);
        break;
    }
    case SCC_TOK_FLOAT_LITERAL: {
@@ -805,7 +817,10 @@ static scc_ast_expr_t *parse_primary_expression(scc_parser_t *parser) {
            return nullptr;
        expr = SCC_AST_ALLOC_EXPR(parser->ast_module);
        Assert(expr != nullptr);
-        scc_ast_expr_literal_float_init(expr, scc_ast_module_intern(parser->ast_module, scc_str_as_cstr(&tok.lexeme)),
+        scc_ast_expr_literal_float_init(
            expr,
            scc_ast_module_intern(parser->ast_module,
                                  scc_str_as_cstr(&tok.lexeme)),
            false, tok.loc);
        break;
    }
@@ -814,7 +829,10 @@ static scc_ast_expr_t *parse_primary_expression(scc_parser_t *parser) {
            return nullptr;
        expr = SCC_AST_ALLOC_EXPR(parser->ast_module);
        Assert(expr != nullptr);
-        scc_ast_expr_literal_char_init(expr, scc_ast_module_intern(parser->ast_module, scc_str_as_cstr(&tok.lexeme)),
+        scc_ast_expr_literal_char_init(
            expr,
            scc_ast_module_intern(parser->ast_module,
                                  scc_str_as_cstr(&tok.lexeme)),
            false, tok.loc);
        break;
    }
@@ -835,13 +853,13 @@ static scc_ast_expr_t *parse_primary_expression(scc_parser_t *parser) {
            scc_str_append(&string, &tmp);
        }
-        const char *pooled_str = scc_ast_module_intern(parser->ast_module, scc_str_as_cstr(&string));
+        const char *pooled_str =
            scc_ast_module_intern(parser->ast_module, scc_str_as_cstr(&string));
        scc_str_drop(&string);
        expr = SCC_AST_ALLOC_EXPR(parser->ast_module);
        Assert(expr != nullptr);
        // FIXME loc
-        scc_ast_expr_literal_string_init(expr, pooled_str, false,
+        scc_ast_expr_literal_string_init(expr, pooled_str, false, tok.loc);
                                         tok.loc);
        break;
    }
    case SCC_TOK_L_PAREN:
--- a/libs/parser/src/scc_sema.c
+++ b/libs/parser/src/scc_sema.c
@@ -36,8 +36,8 @@ static void symtab_add_symbol(scc_sema_symtab_t *sema_symtab,
    if (scc_str_is_empty(&name)) {
        scc_sema_symtab_add_symbol(sema_symtab, decl->name, ast_node_ref);
    } else {
-        const char *pooled = scc_strpool_intern(&sema_symtab->name_pool,
+        const char *pooled =
-                                                scc_str_as_cstr(&name));
+            scc_strpool_intern(&sema_symtab->name_pool, scc_str_as_cstr(&name));
        scc_sema_symtab_add_symbol(sema_symtab, pooled, ast_node_ref);
        scc_str_drop(&name);
    }
@@ -58,6 +58,100 @@ static void type_callback(scc_sema_ctx_t *sema_ctx,
    return;
 }
 /* ---------- 类型解析辅助函数 (用于成员访问) ---------- */
 // 从 qual_type 解析到底层的 struct/union 声明（跟随 typedef 链）
 static scc_ast_decl_t *resolve_to_struct_decl(scc_ast_qual_type_t *type) {
    if (!type)
        return nullptr;
    // 跟随 typedef 链
    while (type->base.type == SCC_AST_TYPE_TYPEDEF) {
        if (!type->type || !type->type->typedef_type.decl)
            return nullptr;
        if (type->type->typedef_type.decl->base.type != SCC_AST_DECL_TYPEDEF)
            return nullptr;
        type = type->type->typedef_type.decl->typedef_decl.type;
        if (!type)
            return nullptr;
    }
    if (type->base.type == SCC_AST_TYPE_STRUCT ||
        type->base.type == SCC_AST_TYPE_UNION) {
        if (type->type)
            return type->type->record.decl;
    }
    return nullptr;
 }
 // 从表达式中解析出其 qual_type（用于确定基表达式的类型）
 static scc_ast_qual_type_t *resolve_expr_qual_type(scc_sema_ctx_t *sema_ctx,
                                                   scc_ast_expr_t *expr) {
    if (!expr)
        return nullptr;
    switch (expr->base.type) {
    case SCC_AST_EXPR_IDENTIFIER: {
        scc_ast_decl_t *decl = expr->identifier._target;
        if (!decl)
            return nullptr;
        if (decl->base.type == SCC_AST_DECL_VAR)
            return decl->var.type;
        if (decl->base.type == SCC_AST_DECL_PARAM)
            return decl->param.type;
        return nullptr;
    }
    case SCC_AST_EXPR_MEMBER: {
        scc_ast_qual_type_t *base_type =
            resolve_expr_qual_type(sema_ctx, expr->member.base);
        if (!base_type)
            return nullptr;
        scc_ast_decl_t *sd = resolve_to_struct_decl(base_type);
        if (!sd)
            return nullptr;
        scc_ast_decl_vec_t *fields = &sd->record.fields;
        if (expr->member._target_idx >= scc_vec_size(*fields))
            return nullptr;
        scc_ast_decl_t *field = scc_vec_at(*fields, expr->member._target_idx);
        if (field->base.type == SCC_AST_DECL_VAR)
            return field->var.type;
        return nullptr;
    }
    case SCC_AST_EXPR_PTR_MEMBER: {
        scc_ast_qual_type_t *base_type =
            resolve_expr_qual_type(sema_ctx, expr->member.base);
        if (!base_type || base_type->base.type != SCC_AST_TYPE_POINTER)
            return nullptr;
        scc_ast_qual_type_t *pointee =
            base_type->type ? base_type->type->pointer.pointee : nullptr;
        if (!pointee)
            return nullptr;
        scc_ast_decl_t *sd = resolve_to_struct_decl(pointee);
        if (!sd)
            return nullptr;
        scc_ast_decl_vec_t *fields = &sd->record.fields;
        if (expr->member._target_idx >= scc_vec_size(*fields))
            return nullptr;
        scc_ast_decl_t *field = scc_vec_at(*fields, expr->member._target_idx);
        if (field->base.type == SCC_AST_DECL_VAR)
            return field->var.type;
        return nullptr;
    }
    case SCC_AST_EXPR_UNARY: {
        if (expr->unary.op == SCC_AST_OP_INDIRECTION) {
            scc_ast_qual_type_t *op_type =
                resolve_expr_qual_type(sema_ctx, expr->unary.operand);
            if (!op_type || op_type->base.type != SCC_AST_TYPE_POINTER)
                return nullptr;
            return op_type->type ? op_type->type->pointer.pointee : nullptr;
        }
        return nullptr;
    }
    default:
        return nullptr;
    }
 }
 static void expr_callback(scc_sema_ctx_t *sema_ctx,
                          scc_ast_node_kind_t node_type, void *node) {
    scc_sema_symtab_t *sema_symtab = sema_ctx->context;
@@ -67,18 +161,78 @@ static void expr_callback(scc_sema_ctx_t *sema_ctx,
    }
    scc_ast_expr_t *expr = SCC_AST_CAST_TO(scc_ast_expr_t, node);
    if (node_type == SCC_AST_EXPR_IDENTIFIER) {
-        scc_ast_node_t *node =
+        scc_ast_node_t *sym_node =
            scc_sema_symtab_lookup_symbol(sema_symtab, expr->identifier.name);
-        if (node == nullptr) {
+        if (sym_node == nullptr) {
            SCC_ERROR(expr->base.loc, "sema error: Identifier '%s' not found",
                      expr->identifier.name);
-        } else if (!SCC_AST_IS_A(scc_ast_decl_t, node)) {
+        } else if (!SCC_AST_IS_A(scc_ast_decl_t, sym_node)) {
            SCC_ERROR(expr->base.loc,
                      "sema error: Identifier '%s' is not a variable",
                      expr->identifier.name);
        } else {
-            expr->identifier._target = SCC_AST_CAST_TO(scc_ast_decl_t, node);
+            expr->identifier._target =
                SCC_AST_CAST_TO(scc_ast_decl_t, sym_node);
        }
        return;
    }
    if (node_type == SCC_AST_EXPR_MEMBER ||
        node_type == SCC_AST_EXPR_PTR_MEMBER) {
        scc_ast_expr_t *base = expr->member.base;
        // 获取基表达式的 qual_type
        scc_ast_qual_type_t *base_type = resolve_expr_qual_type(sema_ctx, base);
        if (!base_type) {
            SCC_ERROR(expr->base.loc,
                      "cannot determine type for member access");
            return;
        }
        // 对于 ->，基表达式应为指针类型，解引用得到目标 struct/union
        scc_ast_decl_t *struct_decl = nullptr;
        if (node_type == SCC_AST_EXPR_PTR_MEMBER) {
            if (base_type->base.type != SCC_AST_TYPE_POINTER) {
                SCC_ERROR(expr->base.loc,
                          "base expression of '->' must be a pointer");
                return;
            }
            scc_ast_qual_type_t *pointee =
                base_type->type ? base_type->type->pointer.pointee : nullptr;
            if (!pointee) {
                SCC_ERROR(expr->base.loc,
                          "cannot dereference pointer for '->'");
                return;
            }
            struct_decl = resolve_to_struct_decl(pointee);
        } else {
            struct_decl = resolve_to_struct_decl(base_type);
        }
        if (!struct_decl) {
            SCC_ERROR(expr->base.loc,
                      "base expression is not a struct or union");
            return;
        }
        // 按名称查找字段，计算 field index
        scc_ast_decl_vec_t *fields = &struct_decl->record.fields;
        cbool found = false;
        for (usize i = 0; i < scc_vec_size(*fields); i++) {
            scc_ast_decl_t *field = scc_vec_at(*fields, i);
            if (field && field->name &&
                scc_strcmp(field->name, expr->member.name) == 0) {
                expr->member._target_idx = i;
                found = true;
                break;
            }
        }
        if (!found) {
            SCC_ERROR(expr->base.loc, "struct/union has no member '%s'",
                      expr->member.name);
        }
        return;
    }
    return;
--- a/libs/pproc/src/pproc_expand.c
+++ b/libs/pproc/src/pproc_expand.c
@@ -150,6 +150,7 @@ void scc_pproc_expand_by_src(scc_pproc_macro_table_t *macro_table,
            break;
        }
    }
    scc_ring_reset(*input);
    scc_lexer_tok_vec_t output_vec;
    scc_pproc_expand_by_vec(macro_table, &expaned_buffer, &output_vec, false,
--- a/libs/target/type_abi/include/scc_type_abi.h
+++ b/libs/target/type_abi/include/scc_type_abi.h
@@ -22,13 +22,13 @@ struct scc_type_abi {
    int long_double_size;
    int va_list_size;
-    // byte_size → 对齐。NULL = 自然对齐 (return byte_size)
+    // byte_size → 对齐。nullptr = 自然对齐 (return byte_size)
    int (*type_align)(int byte_size);
-    // 字段对齐覆盖。NULL = 用 type_align 的值
+    // 字段对齐覆盖。nullptr = 用 type_align 的值
    int (*field_align)(int field_size, int natural_align);
-    // 聚合体总对齐。NULL = max 字段 align
+    // 聚合体总对齐。nullptr = max 字段 align
    int (*aggregate_align)(int max_field_align);
 };
--- a/libs/target/type_abi/include/scc_type_abi_systemv_x64.h
+++ b/libs/target/type_abi/include/scc_type_abi_systemv_x64.h
@@ -16,12 +16,13 @@ static const scc_type_abi_t SCC_TYPE_ABI_SYSTEMV_X64 = {
    .long_long_size = 8,
    .float_size = 4,
    .double_size = 8,
-    .long_double_size = 16,  // SysV x86-64: long double = 80-bit extended precision, padded to 16
+    .long_double_size = 16, // SysV x86-64: long double = 80-bit extended
                            // precision, padded to 16
    .va_list_size = 8,
-    .type_align = NULL,
+    .type_align = nullptr,
-    .field_align = NULL,
+    .field_align = nullptr,
-    .aggregate_align = NULL,
+    .aggregate_align = nullptr,
 };
 #endif /* __SCC_TYPE_ABI_SYSTEMV_X64_H__ */
--- a/libs/target/type_abi/include/scc_type_abi_win_x64.h
+++ b/libs/target/type_abi/include/scc_type_abi_win_x64.h
@@ -27,9 +27,9 @@ static const scc_type_abi_t SCC_TYPE_ABI_WIN_X64 = {
    .long_double_size = 8,
    .va_list_size = 4,
-    .type_align = NULL,
+    .type_align = nullptr,
    .field_align = scc_win64_field_align,
-    .aggregate_align = NULL,
+    .aggregate_align = nullptr,
 };
 #endif /* __SCC_TYPE_ABI_WIN_X64_H__ */