import os const vexe = @VEXE const tests_dir = os.dir(@FILE) const v3_dir = os.dir(tests_dir) const v3_src = os.join_path(v3_dir, 'v3.v') const hello_src = os.join_path(tests_dir, 'hello.v') // test_prod_flag_before_input_uses_optimized_c_compile validates this v3 regression case. fn test_prod_flag_before_input_uses_optimized_c_compile() { v3_bin := os.join_path(os.temp_dir(), 'v3_prod_flag_test') build := os.execute('${vexe} -o ${v3_bin} ${v3_src}') assert build.exit_code == 0, build.output out_bin := os.join_path(os.temp_dir(), 'v3_prod_hello') compile := os.execute('${v3_bin} -prod ${hello_src} -o ${out_bin}') assert compile.exit_code == 0, compile.output assert compile.output.contains('cc -std=gnu11 -O2') assert !compile.output.contains('tcc.exe') run := os.execute(out_bin) assert run.exit_code == 0, run.output assert run.output.trim_space() == 'hello world' } // test_c99_flag_uses_c99_c_compile_mode validates this v3 regression case. fn test_c99_flag_uses_c99_c_compile_mode() { v3_bin := os.join_path(os.temp_dir(), 'v3_c99_flag_test') build := os.execute('${vexe} -o ${v3_bin} ${v3_src}') assert build.exit_code == 0, build.output out_bin := os.join_path(os.temp_dir(), 'v3_c99_hello') compile := os.execute('${v3_bin} -prod -c99 ${hello_src} -o ${out_bin}') assert compile.exit_code == 0, compile.output assert compile.output.contains('cc -std=c99 -O2') assert !compile.output.contains('cc -std=gnu11') assert !compile.output.contains('tcc.exe') run := os.execute(out_bin) assert run.exit_code == 0, run.output assert run.output.trim_space() == 'hello world' } // test_c99_flag_emits_linux_feature_macros_in_headerless_preamble validates this v3 regression case. fn test_c99_flag_emits_linux_feature_macros_in_headerless_preamble() { v3_bin := os.join_path(os.temp_dir(), 'v3_c99_feature_macro_test') build := os.execute('${vexe} -o ${v3_bin} ${v3_src}') assert build.exit_code == 0, build.output out_c := os.join_path(os.temp_dir(), 'v3_c99_feature_macro_hello.c') compile := os.execute('${v3_bin} -c99 ${hello_src} -o ${out_c}') assert compile.exit_code == 0, compile.output c_code := os.read_file(out_c) or { panic(err) } gnu_idx := c_code.index('#define _GNU_SOURCE') or { -1 } posix_idx := c_code.index('#define _POSIX_C_SOURCE 200809L') or { -1 } typedef_idx := c_code.index('typedef signed char i8;') or { -1 } assert gnu_idx >= 0, c_code[..200] assert posix_idx >= 0, c_code[..200] assert typedef_idx >= 0, c_code[..200] assert gnu_idx < typedef_idx, c_code[..200] assert posix_idx < typedef_idx, c_code[..200] assert !c_code.contains('#include'), c_code[..200] } // test_c99_flag_uses_headerless_stdatomic_fallback validates this v3 regression case. fn test_c99_flag_uses_headerless_stdatomic_fallback() { v3_bin := os.join_path(os.temp_dir(), 'v3_c99_stdatomic_test') build := os.execute('${vexe} -o ${v3_bin} ${v3_src}') assert build.exit_code == 0, build.output src := os.join_path(os.temp_dir(), 'v3_c99_stdatomic_swap.v') os.write_file(src, "import sync.stdatomic\n\nfn main() {\n\tmut b := u8(1)\n\told_b_add := C.atomic_fetch_add_byte(voidptr(&b), u8(2))\n\tassert old_b_add == u8(1)\n\tassert b == u8(3)\n\told_b_sub := C.atomic_fetch_sub_byte(voidptr(&b), u8(1))\n\tassert old_b_sub == u8(3)\n\tassert b == u8(2)\n\n\tmut h := u16(10)\n\told_h_add := C.atomic_fetch_add_u16(voidptr(&h), u16(4))\n\tassert old_h_add == u16(10)\n\told_h_sub := C.atomic_fetch_sub_u16(voidptr(&h), u16(3))\n\tassert old_h_sub == u16(14)\n\tassert h == u16(11)\n\n\tmut w := u32(20)\n\told_w_sub := C.atomic_fetch_sub_u32(voidptr(&w), u32(5))\n\tassert old_w_sub == u32(20)\n\tassert w == u32(15)\n\n\tmut x := u64(1)\n\told := C.atomic_exchange_u64(voidptr(&x), u64(7))\n\tassert old == u64(1)\n\tassert x == u64(7)\n\tmut expected := u64(7)\n\tassert C.atomic_compare_exchange_strong_u64(voidptr(&x), &expected, u64(9))\n\tassert x == u64(9)\n\tprintln('atomic helpers ok')\n}\n") or { panic(err) } out_bin := os.join_path(os.temp_dir(), 'v3_c99_stdatomic_swap') compile := os.execute('${v3_bin} -c99 ${src} -o ${out_bin}') assert compile.exit_code == 0, compile.output assert !compile.output.contains('C compilation failed'), compile.output run := os.execute(out_bin) assert run.exit_code == 0, run.output assert run.output.trim_space() == 'atomic helpers ok' } // test_c99_flag_system_stdatomic_include_is_headerless validates this v3 regression case. fn test_c99_flag_system_stdatomic_include_is_headerless() { v3_bin := os.join_path(os.temp_dir(), 'v3_c99_system_stdatomic_test') build := os.execute('${vexe} -o ${v3_bin} ${v3_src}') assert build.exit_code == 0, build.output src := os.join_path(os.temp_dir(), 'v3_c99_system_stdatomic.v') os.write_file(src, "#include \n\nfn main() {\n\tprintln('system stdatomic ok')\n}\n") or { panic(err) } out_c := os.join_path(os.temp_dir(), 'v3_c99_system_stdatomic.c') gen_c := os.execute('${v3_bin} -c99 ${src} -o ${out_c}') assert gen_c.exit_code == 0, gen_c.output c_code := os.read_file(out_c) or { panic(err) } assert !c_code.contains('#include'), c_code assert !c_code.contains('typedef volatile uintptr_t atomic_uintptr_t;'), c_code assert c_code.contains('typedef void* atomic_uintptr_t;'), c_code assert c_code.contains('static inline byte atomic_fetch_add_byte'), c_code assert c_code.contains('static inline u16 atomic_fetch_add_u16'), c_code assert c_code.contains('static inline u64 atomic_fetch_add_u64'), c_code assert c_code.contains('static inline u16 atomic_fetch_sub_u16'), c_code assert c_code.contains('static inline u32 atomic_fetch_sub_u32'), c_code assert c_code.contains('static inline u64 atomic_exchange_u64'), c_code assert c_code.contains('static inline bool atomic_compare_exchange_strong_u64'), c_code out_bin := os.join_path(os.temp_dir(), 'v3_c99_system_stdatomic') compile := os.execute('${v3_bin} -prod -c99 ${src} -o ${out_bin}') assert compile.exit_code == 0, compile.output run := os.execute(out_bin) assert run.exit_code == 0, run.output assert run.output.trim_space() == 'system stdatomic ok' gnu_bin := os.join_path(os.temp_dir(), 'v3_gnu11_system_stdatomic') gnu_compile := os.execute('${v3_bin} -prod ${src} -o ${gnu_bin}') assert gnu_compile.exit_code == 0, gnu_compile.output gnu_run := os.execute(gnu_bin) assert gnu_run.exit_code == 0, gnu_run.output assert gnu_run.output.trim_space() == 'system stdatomic ok' }