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52373982453743b1287c44db242f0d84f137d2e3
l-language/test/test_sema.c
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Serendipity 5237398245 feat: 枚举 enum (P1 #7) 
- lexer: TOK_ENUM, TOK_COLON_COLON
- ast: AST_ENUM_DECL, AST_ENUM_VARIANT + AST_PROGRAM enums数组
- parser: enum Name { A, B } + Enum::Variant语法
- sema: SYM_ENUM, 变体验证, enum→i64类型兼容
- codegen: TYPE_ENUM→i64, 变体→ConstInt(索引值)
- 新增集成测试: 17_enum.l

测试: 121 通过 (41+15+47+18)
2026-06-05 14:01:47 +08:00

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#include "test_utils.h"
#include "parser.h"
#include "lexer.h"
#include "sema.h"
#include "arena.h"
void test_type_error() {
Arena a = arena_create(1);
size_t tc; ErrorInfo lex_err = {0};
Token* toks = lex(&a, "fn main() { let x: i64 = 1; let y: i64 = x + true; return; }",
"test", &tc, &lex_err);
ASSERT(toks != NULL);
ErrorInfo parse_err = {0};
AstNode* ast = parse(&a, toks, tc, "test", &parse_err);
ASSERT(ast != NULL);
ErrorList errors; error_init(&errors);
sema_analyze(ast, &errors, &a);
ASSERT(errors.count > 0);
arena_destroy(&a);
}
void test_undefined_var() {
Arena a = arena_create(1);
size_t tc; ErrorInfo lex_err = {0};
Token* toks = lex(&a, "fn main() { let x: i64 = y; return; }", "test", &tc, &lex_err);
ASSERT(toks != NULL);
ErrorInfo parse_err = {0};
AstNode* ast = parse(&a, toks, tc, "test", &parse_err);
ASSERT(ast != NULL);
ErrorList errors; error_init(&errors);
sema_analyze(ast, &errors, &a);
ASSERT(errors.count > 0);
arena_destroy(&a);
}
void test_simple_ok() {
Arena a = arena_create(1);
size_t tc; ErrorInfo lex_err = {0};
Token* toks = lex(&a, "fn main() { let x: i64 = 42; print_i64(x); return; }",
"test", &tc, &lex_err);
ASSERT(toks != NULL);
ErrorInfo parse_err = {0};
AstNode* ast = parse(&a, toks, tc, "test", &parse_err);
ASSERT(ast != NULL);
ErrorList errors; error_init(&errors);
sema_analyze(ast, &errors, &a);
ASSERT(errors.count == 0);
arena_destroy(&a);
}
void test_let_mut_assign_ok() {
Arena a = arena_create(1);
size_t tc; ErrorInfo lex_err = {0};
Token* toks = lex(&a,
"fn main() { let mut x: i64 = 0; x = 42; print_i64(x); return; }",
"test", &tc, &lex_err);
ASSERT(toks != NULL);
ErrorInfo parse_err = {0};
AstNode* ast = parse(&a, toks, tc, "test", &parse_err);
ASSERT(ast != NULL);
ErrorList errors; error_init(&errors);
sema_analyze(ast, &errors, &a);
ASSERT(errors.count == 0);
arena_destroy(&a);
}
void test_assign_immutable_error() {
Arena a = arena_create(1);
size_t tc; ErrorInfo lex_err = {0};
Token* toks = lex(&a,
"fn main() { let x: i64 = 0; x = 42; return; }",
"test", &tc, &lex_err);
ASSERT(toks != NULL);
ErrorInfo parse_err = {0};
AstNode* ast = parse(&a, toks, tc, "test", &parse_err);
ASSERT(ast != NULL);
ErrorList errors; error_init(&errors);
sema_analyze(ast, &errors, &a);
ASSERT(errors.count > 0); // 不可变变量赋值应报错
arena_destroy(&a);
}
void test_str_type_ok() {
Arena a = arena_create(1);
size_t tc; ErrorInfo lex_err = {0};
Token* toks = lex(&a,
"fn main() { let msg: str = \"hello\"; print_str(msg); return; }",
"test", &tc, &lex_err);
ASSERT(toks != NULL);
ErrorInfo parse_err = {0};
AstNode* ast = parse(&a, toks, tc, "test", &parse_err);
ASSERT(ast != NULL);
ErrorList errors; error_init(&errors);
sema_analyze(ast, &errors, &a);
ASSERT(errors.count == 0);
arena_destroy(&a);
}
void test_str_concat_type_ok() {
Arena a = arena_create(1);
size_t tc; ErrorInfo lex_err = {0};
Token* toks = lex(&a,
"fn main() { let a: str = \"a\"; let b: str = \"b\"; let c: str = a + b; print_str(c); return; }",
"test", &tc, &lex_err);
ASSERT(toks != NULL);
ErrorInfo parse_err = {0};
AstNode* ast = parse(&a, toks, tc, "test", &parse_err);
ASSERT(ast != NULL);
ErrorList errors; error_init(&errors);
sema_analyze(ast, &errors, &a);
ASSERT(errors.count == 0);
arena_destroy(&a);
}
/* === struct 类型检查测试 === */
void test_struct_field_type_mismatch() {
Arena a = arena_create(1);
size_t tc; ErrorInfo lex_err = {0};
Token* toks = lex(&a,
"struct Point { x: i64, y: i64 } fn main() { let p: Point = Point { x: 10, y: true }; return; }",
"test", &tc, &lex_err);
ASSERT(toks != NULL);
ErrorInfo parse_err = {0};
AstNode* ast = parse(&a, toks, tc, "test", &parse_err);
ASSERT(ast != NULL);
ErrorList errors; error_init(&errors);
sema_analyze(ast, &errors, &a);
ASSERT(errors.count > 0); // y 字段类型不匹配: true 是 bool, 不是 i64
arena_destroy(&a);
}
void test_struct_undefined() {
Arena a = arena_create(1);
size_t tc; ErrorInfo lex_err = {0};
Token* toks = lex(&a,
"fn main() { let p: Unknown = Unknown { x: 1 }; return; }",
"test", &tc, &lex_err);
ASSERT(toks != NULL);
ErrorInfo parse_err = {0};
AstNode* ast = parse(&a, toks, tc, "test", &parse_err);
ASSERT(ast != NULL);
ErrorList errors; error_init(&errors);
sema_analyze(ast, &errors, &a);
ASSERT(errors.count > 0); // Unknown 未定义
arena_destroy(&a);
}
void test_struct_field_count_mismatch() {
Arena a = arena_create(1);
size_t tc; ErrorInfo lex_err = {0};
Token* toks = lex(&a,
"struct Point { x: i64, y: i64 } fn main() { let p: Point = Point { x: 10 }; return; }",
"test", &tc, &lex_err);
ASSERT(toks != NULL);
ErrorInfo parse_err = {0};
AstNode* ast = parse(&a, toks, tc, "test", &parse_err);
ASSERT(ast != NULL);
ErrorList errors; error_init(&errors);
sema_analyze(ast, &errors, &a);
ASSERT(errors.count > 0); // 缺少字段 'y'
arena_destroy(&a);
}
/* === 类型别名测试 === */
void test_type_alias_ok() {
Arena a = arena_create(1);
size_t tc; ErrorInfo lex_err = {0};
Token* toks = lex(&a,
"type Meters = i64; fn main() { let x: Meters = 100; print_i64(x); return; }",
"test", &tc, &lex_err);
ASSERT(toks != NULL);
ErrorInfo parse_err = {0};
AstNode* ast = parse(&a, toks, tc, "test", &parse_err);
ASSERT(ast != NULL);
ASSERT(ast->as.program.alias_count == 1);
ErrorList errors; error_init(&errors);
sema_analyze(ast, &errors, &a);
ASSERT(errors.count == 0);
arena_destroy(&a);
}
void test_type_alias_struct() {
Arena a = arena_create(1);
size_t tc; ErrorInfo lex_err = {0};
Token* toks = lex(&a,
"struct Point { x: i64, y: i64 } type P = Point; fn main() { let p: P = Point { x: 1, y: 2 }; return; }",
"test", &tc, &lex_err);
ASSERT(toks != NULL);
ErrorInfo parse_err = {0};
AstNode* ast = parse(&a, toks, tc, "test", &parse_err);
ASSERT(ast != NULL);
ASSERT(ast->as.program.alias_count == 1);
ErrorList errors; error_init(&errors);
sema_analyze(ast, &errors, &a);
ASSERT(errors.count == 0);
arena_destroy(&a);
}
void test_struct_nested_type_ok() {
Arena a = arena_create(1);
size_t tc; ErrorInfo lex_err = {0};
Token* toks = lex(&a,
"struct Point { x: i64, y: i64 } struct Rect { tl: Point, br: Point } fn main() { let r: Rect = Rect { tl: Point { x: 0, y: 0 }, br: Point { x: 1, y: 1 } }; print_i64(r.tl.x); return; }",
"test", &tc, &lex_err);
ASSERT(toks != NULL);
ErrorInfo parse_err = {0};
AstNode* ast = parse(&a, toks, tc, "test", &parse_err);
ASSERT(ast != NULL);
ErrorList errors; error_init(&errors);
sema_analyze(ast, &errors, &a);
ASSERT(errors.count == 0); // 嵌套结构体类型检查应通过
arena_destroy(&a);
}
/* === enum 语义分析测试 === */
void test_enum_ok() {
Arena a = arena_create(1);
size_t tc; ErrorInfo lex_err = {0};
Token* toks = lex(&a,
"enum Color { Red, Green, Blue } fn main() { let c = Color::Green; print_i64(c); return; }",
"test", &tc, &lex_err);
ASSERT(toks != NULL);
ErrorInfo parse_err = {0};
AstNode* ast = parse(&a, toks, tc, "test", &parse_err);
ASSERT(ast != NULL);
ErrorList errors; error_init(&errors);
sema_analyze(ast, &errors, &a);
ASSERT(errors.count == 0);
arena_destroy(&a);
}
void test_enum_bad_variant() {
Arena a = arena_create(1);
size_t tc; ErrorInfo lex_err = {0};
Token* toks = lex(&a,
"enum Color { Red, Green, Blue } fn main() { let c = Color::Yellow; return; }",
"test", &tc, &lex_err);
ASSERT(toks != NULL);
ErrorInfo parse_err = {0};
AstNode* ast = parse(&a, toks, tc, "test", &parse_err);
ASSERT(ast != NULL);
ErrorList errors; error_init(&errors);
sema_analyze(ast, &errors, &a);
ASSERT(errors.count > 0); // Yellow 不存在
arena_destroy(&a);
}
int main(void) {
TEST_RUN(test_type_error);
TEST_RUN(test_undefined_var);
TEST_RUN(test_simple_ok);
TEST_RUN(test_let_mut_assign_ok);
TEST_RUN(test_assign_immutable_error);
TEST_RUN(test_str_type_ok);
TEST_RUN(test_str_concat_type_ok);
TEST_RUN(test_struct_field_type_mismatch);
TEST_RUN(test_struct_undefined);
TEST_RUN(test_struct_field_count_mismatch);
TEST_RUN(test_struct_nested_type_ok);
TEST_RUN(test_type_alias_ok);
TEST_RUN(test_type_alias_struct);
TEST_RUN(test_enum_ok);
TEST_RUN(test_enum_bad_variant);
return test_summary();
}
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