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。

libs/argparse/src/argparse.c

@@ -171,12 +171,20 @@ 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.store.str_store == nullptr ||
-                *arg->spec.store.str_store == nullptr) {
-                errcode = SCC_ARGPARSE_ERR_MISSING_ARG;
-                ctx->err_ctx = arg->name;
-                goto END;
+            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;
+                    ctx->err_ctx = arg->name;
+                    goto END;
+                }
             }
         }
     }
@@ -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);
-        *arg->spec.store.str_store = ctx->result.value;
+        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;
+            ctx->positional_index++;
+        }
         arg->spec.raw_value = ctx->result.value;
-        ctx->positional_index++;
     } else {
         ctx->parsing_done = true;
         return SCC_ARGPARSE_ERR_UNKNOWN_ARG;

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;

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_t ptr_type = {.tag = SCC_HIR_TYPE_PTR,
-                               .data.pointer.base = type};
-    scc_hir_type_ref_t ptr_type_ref = scc_hir_builder_type(builder, &ptr_type);
+    scc_hir_type_ref_t ptr_type_ref = scc_hir_builder_type(
+        builder,
+        &(scc_hir_type_t){.tag = SCC_HIR_TYPE_PTR, .data.pointer.base = 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),
-                                    type_ref->data.pointer.base));
-        if (base_type->tag == SCC_HIR_TYPE_ARRAY) {
-            scc_hir_type_t type = (scc_hir_type_t){
-                .tag = SCC_HIR_TYPE_PTR,
-                .data.pointer.base = base_type->data.array.base,
-            };
-            SCC_HIR_BUILDER_END_BORROW(builder); // base_type
-            get_ptr_node.type = scc_hir_builder_type(builder, &type);
+            scc_hir_module_get_type(GET_MODULE(builder), base_ref));
+        Assert(base_type != nullptr);
+        scc_hir_type_tag_t base_tag = base_type->tag;
+
+        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 = elem_ref,
+                                              });
+        } else if (base_tag == SCC_HIR_TYPE_STRUCT ||
+                   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
-            get_ptr_node.type = scc_hir_builder_type(builder, &type);
+            // 其他类型：保持原指针类型
+            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 =

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>");
-        return;
+        extened = false;
     }
-    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, "(");
@@ -130,25 +131,39 @@ 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 {",
-                                 type->tag == SCC_HIR_TYPE_STRUCT ? "struct"
-                                                                  : "union");
-        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);
-            scc_tree_dump_append(ctx->dump_ctx, ";");
+        scc_hashtable_set(visited, (void *)(usize)type_ref, (void *)1);
+        const char *tag_name =
+            type->tag == SCC_HIR_TYPE_STRUCT ? "struct" : "union";
+        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,
+                    extened);
+                scc_tree_dump_append(ctx->dump_ctx, ";");
+            }
+        } else {
+            scc_tree_dump_append(ctx->dump_ctx, "...");
         }
         scc_tree_dump_append(ctx->dump_ctx, "}");
         break;
@@ -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_vec_foreach(value->data.aggregate.fields, i) {
-            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_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_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));

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;
         }
@@ -116,14 +117,16 @@ 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,
-                            scc_type_abi_get_aggregate_align(abi, max_align_bits / 8) * 8);
+        return SCC_ALIGN_UP(
+            offset_bits,
+            scc_type_abi_get_aggregate_align(abi, max_align_bits / 8) * 8);
     }
 
     case SCC_HIR_TYPE_UNION: {
@@ -137,8 +140,9 @@ 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,
-                            scc_type_abi_get_aggregate_align(abi, max_align_bits / 8) * 8);
+        return SCC_ALIGN_UP(
+            max_size_bits,
+            scc_type_abi_get_aggregate_align(abi, max_align_bits / 8) * 8);
     }
 
     default:
@@ -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 &&
-                  type->tag != SCC_HIR_TYPE_UNION))
+    if (!type ||
+        (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 &&
-                  type->tag != SCC_HIR_TYPE_UNION))
-        return NULL;
+    if (!type ||
+        (type->tag != SCC_HIR_TYPE_STRUCT && type->tag != SCC_HIR_TYPE_UNION))
+        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;
@@ -238,8 +245,9 @@ 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,
-                            scc_type_abi_get_aggregate_align(abi, max_align_bits / 8) * 8);
+    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;
 }

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;
         }
     }
 

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

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(ty, &size_bits, &ext);
-    }
+    ir_type_to_lir_size_ext(ctx->hir_module, value->type, &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(
-                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);
+            store_type = ptr_type->data.pointer.base;
         }
+        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
-        scc_hir_type_t *ptr_type =
-            scc_hir_module_get_type(ctx->hir_module, value->type);
-        scc_hir_type_ref_t pointee = SCC_CFG_ID_nullptr;
-        if (ptr_type->tag == SCC_HIR_TYPE_PTR) {
-            pointee = ptr_type->data.pointer.base;
-        } else if (ptr_type->tag == SCC_HIR_TYPE_ARRAY) {
-            // 数组名退化为指针，元素类型为数组的元素类型
-            pointee = ptr_type->data.array.base;
-        } else {
-            Panic("GET_ELEM_PTR on non-pointer/array type");
+        // 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 *src_type = scc_hir_module_get_type_by_value(
+            ctx->hir_module, value->data.get_elem_ptr.src_addr);
+        int scale = 0, offset = 0;
+
+        if (src_type && src_type->tag == SCC_HIR_TYPE_PTR) {
+            scc_hir_type_ref_t pointee_ref = src_type->data.pointer.base;
+            scc_hir_type_t *pointee =
+                scc_hir_module_get_type(ctx->hir_module, pointee_ref);
+            if (pointee && (pointee->tag == SCC_HIR_TYPE_STRUCT ||
+                            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 = elem_size_bits / 8,
-            .metadata.addr.offset = 0,
+            .metadata.addr.scale = scale,
+            .metadata.addr.offset = offset,
         };
         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

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: {
-        base_reg = base;
-    } break;
-    case SCC_X86_OPR_RELOC: {
+    case SCC_X86_OPR_REG:
+        break;
+    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;
-    case SCC_X86_OPR_MEM: {
+        break;
+    case SCC_X86_OPR_MEM:
         base_reg = new_vreg_temp(isel, 64);
         scc_x86_emit_move(isel, base_reg, base);
-    } break;
-    default: {
+        break;
+    default:
         Panic("Unsupported base kind %d in load_addr", base.kind);
     }
-    }
 
-    scc_x86_operand_value_t index_reg = index;
-    switch (index.kind) {
-    case SCC_X86_OPR_REG: {
-        index_reg = index;
-    } break;
-    case SCC_X86_OPR_RELOC: {
-        Assert(index.reloc.target == SCC_X86_RELOC_TARGET_SYMBOL);
-        index_reg = new_vreg_temp(isel, 64);
-        scc_x86_emit_move(isel, index_reg, index);
-    } break;
-    case SCC_X86_OPR_MEM: {
-        index_reg = new_vreg_temp(isel, 64);
-        scc_x86_emit_move(isel, index_reg, index);
-    } break;
-    case SCC_X86_OPR_IMM: {
-        index_reg = new_vreg_temp(isel, index.size_bits);
-        scc_x86_emit_move(isel, index_reg, index);
-    } break;
-    default: {
-        Panic("Unsupported index kind %d in load_addr", base.kind);
-    }
+    // ---- 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:
+            index_reg = index.reg;
+            break;
+        case SCC_X86_OPR_RELOC:
+            Assert(index.reloc.target == SCC_X86_RELOC_TARGET_SYMBOL);
+            index_reg = new_vreg_temp(isel, 64).reg;
+            scc_x86_emit_move(isel, scc_x86_op_preg(index_reg, 64), index);
+            break;
+        case SCC_X86_OPR_MEM:
+            index_reg = new_vreg_temp(isel, 64).reg;
+            scc_x86_emit_move(isel, scc_x86_op_preg(index_reg, 64), index);
+            break;
+        case SCC_X86_OPR_IMM:
+            index_reg = new_vreg_temp(isel, index.size_bits).reg;
+            scc_x86_emit_move(isel, scc_x86_op_preg(index_reg, 64), index);
+            break;
+        default:
+            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,
-                                       .scale = scale,
+                                       .index = index_reg,
+                                       .scale = sib_scale,
                                        .disp.displacement = offset,
                                        .disp.displacement_bits = 8},
                        size_bits);

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;

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_lexer_tok_drop(out);
+        scc_ring_next(*stream, *out, ok);
     }
     return ok;
 }

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;
 }
 
@@ -787,8 +793,11 @@ 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_identifier_init(expr, scc_ast_module_intern(parser->ast_module, scc_str_as_cstr(&tok.lexeme)),
-                                     tok.loc);
+        scc_ast_expr_identifier_init(
+            expr,
+            scc_ast_module_intern(parser->ast_module,
+                                  scc_str_as_cstr(&tok.lexeme)),
+            tok.loc);
         break;
     }
     case SCC_TOK_INT_LITERAL: {
@@ -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,
-                                      tok.loc);
+        scc_ast_expr_literal_int_init(
+            expr,
+            scc_ast_module_intern(parser->ast_module,
+                                  scc_str_as_cstr(&tok.lexeme)),
+            false, tok.loc);
         break;
     }
     case SCC_TOK_FLOAT_LITERAL: {
@@ -805,8 +817,11 @@ 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_float_init(expr, scc_ast_module_intern(parser->ast_module, scc_str_as_cstr(&tok.lexeme)),
-                                        false, tok.loc);
+        scc_ast_expr_literal_float_init(
+            expr,
+            scc_ast_module_intern(parser->ast_module,
+                                  scc_str_as_cstr(&tok.lexeme)),
+            false, tok.loc);
         break;
     }
     case SCC_TOK_CHAR_LITERAL: {
@@ -814,8 +829,11 @@ 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_char_init(expr, scc_ast_module_intern(parser->ast_module, scc_str_as_cstr(&tok.lexeme)),
-                                       false, tok.loc);
+        scc_ast_expr_literal_char_init(
+            expr,
+            scc_ast_module_intern(parser->ast_module,
+                                  scc_str_as_cstr(&tok.lexeme)),
+            false, tok.loc);
         break;
     }
     case SCC_TOK_STRING_LITERAL: {
@@ -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,
-                                         tok.loc);
+        scc_ast_expr_literal_string_init(expr, pooled_str, false, tok.loc);
         break;
     }
     case SCC_TOK_L_PAREN:

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,
-                                                scc_str_as_cstr(&name));
+        const char *pooled =
+            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;

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,

libs/target/type_abi/include/scc_type_abi.h

@@ -9,7 +9,7 @@ typedef struct scc_type_abi scc_type_abi_t;
 struct scc_type_abi {
     int ptr_size;
     int ptr_align;
-    int endian;  // 0 = little, 1 = big
+    int endian; // 0 = little, 1 = big
 
     // C 类型大小 (AST → HIR 时需要)
     int char_size;
@@ -22,30 +22,30 @@ 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);
 };
 
 static inline int scc_type_abi_get_type_align(const scc_type_abi_t *abi,
-                                               int byte_size) {
+                                              int byte_size) {
     return abi->type_align ? abi->type_align(byte_size) : byte_size;
 }
 
 static inline int scc_type_abi_get_field_align(const scc_type_abi_t *abi,
-                                                int field_size,
-                                                int natural_align) {
+                                               int field_size,
+                                               int natural_align) {
     return abi->field_align ? abi->field_align(field_size, natural_align)
                             : natural_align;
 }
 
 static inline int scc_type_abi_get_aggregate_align(const scc_type_abi_t *abi,
-                                                    int max_field_align) {
+                                                   int max_field_align) {
     return abi->aggregate_align ? abi->aggregate_align(max_field_align)
                                 : max_field_align;
 }

libs/target/type_abi/include/scc_type_abi_systemv_x64.h

@@ -12,16 +12,17 @@ static const scc_type_abi_t SCC_TYPE_ABI_SYSTEMV_X64 = {
     .char_size = 1,
     .short_size = 2,
     .int_size = 4,
-    .long_size = 8,   // SysV: long = 8 bytes
+    .long_size = 8, // SysV: long = 8 bytes
     .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,
-    .field_align = NULL,
-    .aggregate_align = NULL,
+    .type_align = nullptr,
+    .field_align = nullptr,
+    .aggregate_align = nullptr,
 };
 
 #endif /* __SCC_TYPE_ABI_SYSTEMV_X64_H__ */

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__ */