static void
S_run_parser_tests(CFCTest *test) {
CFCParser *parser = CFCParser_new();
CFCParcel *neato_parcel
= CFCTest_parse_parcel(test, parser, "parcel Neato;");
CFCParser_set_class_name(parser, "Neato::Obj");
CFCParser_set_class_nickname(parser, "Obj");
{
static const char *method_strings[4] = {
"public int Do_Foo(Obj *self);",
"Obj* Gimme_An_Obj(Obj *self);",
"void Do_Whatever(Obj *self, uint32_t a_num, float real);",
"Foo* Fetch_Foo(Obj *self, int num);",
};
for (int i = 0; i < 4; ++i) {
CFCMethod *method
= CFCTest_parse_method(test, parser, method_strings[i]);
CFCBase_decref((CFCBase*)method);
}
}
{
CFCMethod *method
= CFCTest_parse_method(test, parser,
"public final void The_End(Obj *self);");
OK(test, CFCMethod_final(method), "final");
CFCBase_decref((CFCBase*)method);
}
CFCBase_decref((CFCBase*)neato_parcel);
CFCBase_decref((CFCBase*)parser);
CFCParcel_reap_singletons();
}
static void
S_run_overridden_tests(CFCTest *test) {
CFCParser *parser = CFCParser_new();
CFCParcel *neato_parcel
= CFCTest_parse_parcel(test, parser, "parcel Neato;");
CFCType *return_type = CFCTest_parse_type(test, parser, "Obj*");
CFCParamList *param_list
= CFCTest_parse_param_list(test, parser, "(Foo *self)");
CFCMethod *orig
= CFCMethod_new(neato_parcel, NULL, "Neato::Foo", "Foo",
"Return_An_Obj", return_type, param_list,
NULL, 0, 0);
CFCParamList *overrider_param_list
= CFCTest_parse_param_list(test, parser, "(FooJr *self)");
CFCMethod *overrider
= CFCMethod_new(neato_parcel, NULL, "Neato::Foo::FooJr", "FooJr",
"Return_An_Obj", return_type, overrider_param_list,
NULL, 0, 0);
CFCMethod_override(overrider, orig);
OK(test, !CFCMethod_novel(overrider),
"A Method which overrides another is not 'novel'");
CFCBase_decref((CFCBase*)parser);
CFCBase_decref((CFCBase*)neato_parcel);
CFCBase_decref((CFCBase*)return_type);
CFCBase_decref((CFCBase*)param_list);
CFCBase_decref((CFCBase*)orig);
CFCBase_decref((CFCBase*)overrider_param_list);
CFCBase_decref((CFCBase*)overrider);
CFCParcel_reap_singletons();
}
static void
S_run_basic_tests(CFCTest *test) {
CFCParcel *neato_parcel = CFCParcel_new("Neato", NULL, NULL, NULL);
CFCParcel_register(neato_parcel);
CFCType *type = CFCType_new(0, neato_parcel, "mytype_t", 0);
OK(test, CFCType_get_parcel(type) == neato_parcel, "get_parcel");
STR_EQ(test, CFCType_to_c(type), "mytype_t", "to_c");
STR_EQ(test, CFCType_get_specifier(type), "mytype_t", "get_specifier");
#define TEST_BOOL_ACCESSOR(type, name) \
OK(test, !CFCType_ ## name(type), #name " false by default");
TEST_BOOL_ACCESSOR(type, const);
TEST_BOOL_ACCESSOR(type, nullable);
TEST_BOOL_ACCESSOR(type, incremented);
TEST_BOOL_ACCESSOR(type, decremented);
TEST_BOOL_ACCESSOR(type, is_void);
TEST_BOOL_ACCESSOR(type, is_object);
TEST_BOOL_ACCESSOR(type, is_primitive);
TEST_BOOL_ACCESSOR(type, is_integer);
TEST_BOOL_ACCESSOR(type, is_floating);
TEST_BOOL_ACCESSOR(type, is_string_type);
TEST_BOOL_ACCESSOR(type, is_va_list);
TEST_BOOL_ACCESSOR(type, is_arbitrary);
TEST_BOOL_ACCESSOR(type, is_composite);
CFCBase_decref((CFCBase*)neato_parcel);
CFCBase_decref((CFCBase*)type);
CFCParcel_reap_singletons();
}
static void
S_run_tests(CFCTest *test) {
CFCParser *parser = CFCParser_new();
CFCParcel *neato_parcel
= CFCTest_parse_parcel(test, parser, "parcel Neato;");
CFCType *return_type = CFCTest_parse_type(test, parser, "Obj*");
CFCParamList *param_list
= CFCTest_parse_param_list(test, parser, "(int32_t some_num)");
{
CFCFunction *func = CFCFunction_new(NULL, "return_an_obj", return_type,
param_list, NULL, 0);
OK(test, func != NULL, "new");
CFCBase_decref((CFCBase*)func);
}
{
CFCFunction *func = NULL;
char *error;
CFCUTIL_TRY {
func = CFCFunction_new(NULL, "Uh_Oh", return_type, param_list,
NULL, 0);
}
CFCUTIL_CATCH(error);
OK(test, error && strstr(error, "Uh_Oh"),
"invalid name kills constructor");
FREEMEM(error);
CFCBase_decref((CFCBase*)func);
}
{
CFCClass *neato_obj
= CFCClass_create(neato_parcel, NULL, "Neato::Obj", NULL, NULL,
NULL, NULL, false, false, false);
CFCParser_set_class(parser, neato_obj);
static const char *func_strings[2] = {
"inert int running_count(int biscuit);",
"public inert Hash* init_fave_hash(int32_t num_buckets,"
" bool o_rly);"
};
for (int i = 0; i < 2; ++i) {
CFCFunction *func
= CFCTest_parse_function(test, parser, func_strings[i]);
CFCBase_decref((CFCBase*)func);
}
CFCBase_decref((CFCBase*)neato_obj);
}
CFCBase_decref((CFCBase*)return_type);
CFCBase_decref((CFCBase*)param_list);
CFCBase_decref((CFCBase*)neato_parcel);
CFCBase_decref((CFCBase*)parser);
CFCParcel_reap_singletons();
}
static void
S_run_tests(CFCTest *test) {
CFCParser *parser = CFCParser_new();
CFCParcel *neato_parcel
= CFCTest_parse_parcel(test, parser, "parcel Neato;");
{
CFCType *return_type = CFCTest_parse_type(test, parser, "Obj*");
CFCParamList *param_list
= CFCTest_parse_param_list(test, parser, "(int32_t some_num)");
CFCFunction *func
= CFCFunction_new(neato_parcel, NULL, "Neato::Foo", "Foo",
"return_an_obj", return_type, param_list,
NULL, 0);
OK(test, func != NULL, "new");
CFCBase_decref((CFCBase*)return_type);
CFCBase_decref((CFCBase*)param_list);
CFCBase_decref((CFCBase*)func);
}
{
CFCParser_set_class_name(parser, "Neato::Obj");
CFCParser_set_class_cnick(parser, "Obj");
static const char *func_strings[2] = {
"inert int running_count(int biscuit);",
"public inert Hash* init_fave_hash(int32_t num_buckets,"
" bool o_rly);"
};
for (int i = 0; i < 2; ++i) {
CFCFunction *func
= CFCTest_parse_function(test, parser, func_strings[i]);
CFCBase_decref((CFCBase*)func);
}
}
CFCBase_decref((CFCBase*)neato_parcel);
CFCBase_decref((CFCBase*)parser);
CFCParcel_reap_singletons();
}
static void
S_run_arbitrary_tests(CFCTest *test) {
{
CFCParcel *neato_parcel = CFCParcel_new("Neato", NULL, NULL, NULL);
CFCParcel_register(neato_parcel);
CFCType *foo = CFCType_new_arbitrary(neato_parcel, "foo_t");
STR_EQ(test, CFCType_get_specifier(foo), "foo_t", "get_specifier");
STR_EQ(test, CFCType_to_c(foo), "foo_t", "to_c");
CFCType *twin = CFCType_new_arbitrary(neato_parcel, "foo_t");
OK(test, CFCType_equals(foo, twin), "equals");
CFCType *compare_t
= CFCType_new_arbitrary(neato_parcel, "Sort_compare_t");
OK(test, !CFCType_equals(foo, compare_t),
"equals spoiled by different specifier");
CFCBase_decref((CFCBase*)neato_parcel);
CFCBase_decref((CFCBase*)foo);
CFCBase_decref((CFCBase*)compare_t);
CFCBase_decref((CFCBase*)twin);
}
{
CFCParser *parser = CFCParser_new();
static const char *specifiers[2] = { "foo_t", "Sort_compare_t" };
for (int i = 0; i < 2; ++i) {
const char *specifier = specifiers[i];
CFCType *type = CFCTest_parse_type(test, parser, specifier);
OK(test, CFCType_is_arbitrary(type), "arbitrary type %s",
specifier);
CFCBase_decref((CFCBase*)type);
}
CFCBase_decref((CFCBase*)parser);
}
CFCParcel_reap_singletons();
}
static void
S_run_final_tests(CFCTest *test) {
CFCParser *parser = CFCParser_new();
CFCParcel *neato_parcel
= CFCTest_parse_parcel(test, parser, "parcel Neato;");
CFCClass *obj_class
= CFCTest_parse_class(test, parser, "class Obj {}");
CFCClass *foo_class
= CFCTest_parse_class(test, parser, "class Neato::Foo {}");
CFCType *return_type = CFCTest_parse_type(test, parser, "Obj*");
CFCParamList *param_list
= CFCTest_parse_param_list(test, parser, "(Foo *self)");
CFCMethod *not_final
= CFCMethod_new(neato_parcel, NULL, "Neato::Foo", "Foo",
"Return_An_Obj", return_type, param_list,
NULL, 0, 0);
CFCMethod_resolve_types(not_final);
CFCMethod *final = CFCMethod_finalize(not_final);
OK(test, CFCMethod_compatible(not_final, final),
"finalize clones properly");
OK(test, !CFCMethod_final(not_final), "not final by default");
OK(test, CFCMethod_final(final), "finalize");
CFCBase_decref((CFCBase*)parser);
CFCBase_decref((CFCBase*)neato_parcel);
CFCBase_decref((CFCBase*)obj_class);
CFCBase_decref((CFCBase*)foo_class);
CFCBase_decref((CFCBase*)return_type);
CFCBase_decref((CFCBase*)param_list);
CFCBase_decref((CFCBase*)not_final);
CFCBase_decref((CFCBase*)final);
CFCClass_clear_registry();
CFCParcel_reap_singletons();
}
int
main(int argc, char **argv) {
int i;
size_t file_len;
CFCArgs args;
CFCHierarchy *hierarchy;
CFCBindCore *core_binding;
CFCC *c_binding;
char *header = NULL;
char *footer = NULL;
const char *include_env;
S_parse_arguments(argc, argv, &args);
hierarchy = CFCHierarchy_new(args.dest);
for (i = 0; args.source_dirs[i]; ++i) {
CFCHierarchy_add_source_dir(hierarchy, args.source_dirs[i]);
}
for (i = 0; args.include_dirs[i]; ++i) {
CFCHierarchy_add_include_dir(hierarchy, args.include_dirs[i]);
}
/* Add include dirs from environment variable CLOWNFISH_INCLUDE. */
include_env = getenv("CLOWNFISH_INCLUDE");
if (include_env != NULL) {
char *include_env_copy = CFCUtil_strdup(include_env);
const char *include_dir;
for (include_dir = strtok(include_env_copy, ":");
include_dir != NULL;
include_dir = strtok(NULL, ":")
) {
if (include_dir[0] != '\0') {
CFCHierarchy_add_include_dir(hierarchy, include_dir);
}
}
FREEMEM(include_env_copy);
}
else if (UNIX_FILESYSTEM) {
/*
* Only add system include dirs if CLOWNFISH_INCLUDE is unset to
* avoid errors when a parcel is found in multiple locations.
*/
CFCHierarchy_add_include_dir(hierarchy, "/usr/local/" SYS_INCLUDE_DIR);
CFCHierarchy_add_include_dir(hierarchy, "/usr/" SYS_INCLUDE_DIR);
}
for (i = 0; args.parcels[i]; ++i) {
CFCHierarchy_add_prereq(hierarchy, args.parcels[i]);
}
CFCHierarchy_build(hierarchy);
if (args.header_filename) {
header = CFCUtil_slurp_text(args.header_filename, &file_len);
}
else {
header = CFCUtil_strdup("");
}
if (args.footer_filename) {
footer = CFCUtil_slurp_text(args.footer_filename, &file_len);
}
else {
footer = CFCUtil_strdup("");
}
core_binding = CFCBindCore_new(hierarchy, header, footer);
CFCBindCore_write_all_modified(core_binding, 0);
c_binding = CFCC_new(hierarchy, header, footer);
CFCC_write_hostdefs(c_binding);
if (args.num_source_dirs != 0) {
CFCC_write_html_docs(c_binding);
CFCC_write_man_pages(c_binding);
}
CFCHierarchy_write_log(hierarchy);
CFCBase_decref((CFCBase*)c_binding);
CFCBase_decref((CFCBase*)core_binding);
CFCBase_decref((CFCBase*)hierarchy);
FREEMEM(header);
FREEMEM(footer);
CFCClass_clear_registry();
CFCParcel_reap_singletons();
S_free_arguments(&args);
return EXIT_SUCCESS;
}
static void
S_run_basic_tests(CFCTest *test) {
CFCParser *parser = CFCParser_new();
CFCParcel *neato_parcel
= CFCTest_parse_parcel(test, parser, "parcel Neato;");
CFCType *return_type = CFCTest_parse_type(test, parser, "Obj*");
CFCParamList *param_list
= CFCTest_parse_param_list(test, parser,
"(Foo *self, int32_t count = 0)");
CFCMethod *method
= CFCMethod_new(neato_parcel, NULL, "Neato::Foo", "Foo",
"Return_An_Obj", return_type, param_list,
NULL, 0, 0);
OK(test, method != NULL, "new");
OK(test, CFCSymbol_parcel((CFCSymbol*)method),
"parcel exposure by default");
{
CFCMethod *dupe
= CFCMethod_new(neato_parcel, NULL, "Neato::Foo", "Foo",
"Return_An_Obj", return_type, param_list,
NULL, 0, 0);
OK(test, CFCMethod_compatible(method, dupe), "compatible");
CFCBase_decref((CFCBase*)dupe);
}
{
CFCMethod *macro_sym_differs
= CFCMethod_new(neato_parcel, NULL, "Neato::Foo", "Foo", "Eat",
return_type, param_list, NULL, 0, 0);
OK(test, !CFCMethod_compatible(method, macro_sym_differs),
"different macro_sym spoils compatible");
OK(test, !CFCMethod_compatible(macro_sym_differs, method),
"... reversed");
CFCBase_decref((CFCBase*)macro_sym_differs);
}
{
static const char *param_strings[5] = {
"(Foo *self, int32_t count = 0, int b)",
"(Foo *self, int32_t count = 1)",
"(Foo *self, int32_t count)",
"(Foo *self, int32_t countess = 0)",
"(Foo *self, uint32_t count = 0)"
};
static const char *test_names[5] = {
"extra param",
"different initial_value",
"missing initial_value",
"different param name",
"different param type"
};
for (int i = 0; i < 5; ++i) {
CFCParamList *other_param_list
= CFCTest_parse_param_list(test, parser, param_strings[i]);
CFCMethod *other
= CFCMethod_new(neato_parcel, NULL, "Neato::Foo", "Foo",
"Return_An_Obj", return_type, other_param_list,
NULL, 0, 0);
OK(test, !CFCMethod_compatible(method, other),
"%s spoils compatible", test_names[i]);
OK(test, !CFCMethod_compatible(other, method),
"... reversed");
CFCBase_decref((CFCBase*)other_param_list);
CFCBase_decref((CFCBase*)other);
}
}
{
CFCParamList *self_differs_list
= CFCTest_parse_param_list(test, parser,
"(Bar *self, int32_t count = 0)");
CFCMethod *self_differs
= CFCMethod_new(neato_parcel, NULL, "Neato::Bar", "Bar",
"Return_An_Obj", return_type, self_differs_list,
NULL, 0, 0);
OK(test, CFCMethod_compatible(method, self_differs),
"different self type still compatible(),"
" since can't test inheritance");
OK(test, CFCMethod_compatible(self_differs, method),
"... reversed");
CFCBase_decref((CFCBase*)self_differs_list);
CFCBase_decref((CFCBase*)self_differs);
}
{
CFCMethod *aliased
= CFCMethod_new(neato_parcel, NULL, "Neato::Foo", "Foo",
"Aliased", return_type, param_list,
NULL, 0, 0);
OK(test, !CFCMethod_get_host_alias(aliased),
"no host alias by default");
CFCMethod_set_host_alias(aliased, "Host_Alias");
STR_EQ(test, CFCMethod_get_host_alias(aliased), "Host_Alias",
"set/get host alias");
CFCBase_decref((CFCBase*)aliased);
}
{
CFCMethod *excluded
= CFCMethod_new(neato_parcel, NULL, "Neato::Foo", "Foo",
"Excluded", return_type, param_list,
NULL, 0, 0);
OK(test, !CFCMethod_excluded_from_host(excluded),
"not excluded by default");
CFCMethod_exclude_from_host(excluded);
OK(test, CFCMethod_excluded_from_host(excluded), "exclude from host");
CFCBase_decref((CFCBase*)excluded);
}
CFCBase_decref((CFCBase*)parser);
CFCBase_decref((CFCBase*)neato_parcel);
CFCBase_decref((CFCBase*)return_type);
CFCBase_decref((CFCBase*)param_list);
CFCBase_decref((CFCBase*)method);
CFCParcel_reap_singletons();
}
static void
S_run_tests(CFCTest *test) {
#define STUFF_THING "Stuff" CHY_DIR_SEP "Thing"
CFCParser *parser = CFCParser_new();
CFCFileSpec *file_spec = CFCFileSpec_new(".", STUFF_THING, 0);
{
const char *string =
"parcel Stuff;\n"
"class Stuff::Thing {\n"
" Foo *foo;\n"
" Bar *bar;\n"
"}\n"
"class Foo {}\n"
"class Bar {}\n"
"__C__\n"
"int foo;\n"
"__END_C__\n";
CFCFile *file = CFCParser_parse_file(parser, string, file_spec);
STR_EQ(test, CFCFile_get_source_dir(file), ".", "get_source_dir");
STR_EQ(test, CFCFile_get_path_part(file), STUFF_THING,
"get_path_part");
OK(test, !CFCFile_included(file), "included");
STR_EQ(test, CFCFile_guard_name(file), "H_STUFF_THING", "guard_name");
STR_EQ(test, CFCFile_guard_start(file),
"#ifndef H_STUFF_THING\n#define H_STUFF_THING 1\n",
"guard_start");
STR_EQ(test, CFCFile_guard_close(file), "#endif /* H_STUFF_THING */\n",
"guard_close");
OK(test, !CFCFile_get_modified(file), "modified false at start");
CFCFile_set_modified(file, 1);
OK(test, CFCFile_get_modified(file), "set_modified, get_modified");
#define PATH_TO_STUFF_THING \
"path" CHY_DIR_SEP \
"to" CHY_DIR_SEP \
"Stuff" CHY_DIR_SEP \
"Thing"
char *cfh_path = CFCFile_cfh_path(file, "path/to");
STR_EQ(test, cfh_path, PATH_TO_STUFF_THING ".cfh", "cfh_path");
FREEMEM(cfh_path);
char *c_path = CFCFile_c_path(file, "path/to");
STR_EQ(test, c_path, PATH_TO_STUFF_THING ".c", "c_path");
FREEMEM(c_path);
char *h_path = CFCFile_h_path(file, "path/to");
STR_EQ(test, h_path, PATH_TO_STUFF_THING ".h", "h_path");
FREEMEM(h_path);
CFCClass **classes = CFCFile_classes(file);
OK(test,
classes[0] != NULL && classes[1] != NULL && classes[2] != NULL
&& classes[3] == NULL,
"classes() filters blocks");
CFCVariable **member_vars = CFCClass_fresh_member_vars(classes[0]);
CFCType *foo_type = CFCVariable_get_type(member_vars[0]);
CFCType_resolve(foo_type);
STR_EQ(test, CFCType_get_specifier(foo_type), "stuff_Foo",
"file production picked up parcel def");
CFCType *bar_type = CFCVariable_get_type(member_vars[1]);
CFCType_resolve(bar_type);
STR_EQ(test, CFCType_get_specifier(bar_type), "stuff_Bar",
"parcel def is sticky");
CFCParcel *parcel = CFCFile_get_parcel(file);
STR_EQ(test, CFCParcel_get_name(parcel), "Stuff", "get_parcel");
CFCBase **blocks = CFCFile_blocks(file);
STR_EQ(test, CFCBase_get_cfc_class(blocks[0]),
"Clownfish::CFC::Model::Class", "blocks[0]");
STR_EQ(test, CFCBase_get_cfc_class(blocks[1]),
"Clownfish::CFC::Model::Class", "blocks[1]");
STR_EQ(test, CFCBase_get_cfc_class(blocks[2]),
"Clownfish::CFC::Model::Class", "blocks[2]");
STR_EQ(test, CFCBase_get_cfc_class(blocks[3]),
"Clownfish::CFC::Model::CBlock", "blocks[3]");
OK(test, blocks[4] == NULL, "blocks[4]");
CFCBase_decref((CFCBase*)file);
CFCClass_clear_registry();
}
CFCBase_decref((CFCBase*)file_spec);
CFCBase_decref((CFCBase*)parser);
CFCParcel_reap_singletons();
}
static void
S_run_object_tests(CFCTest *test) {
static const char *modifiers[4] = {
"const", "incremented", "decremented", "nullable"
};
static int flags[4] = {
CFCTYPE_CONST,
CFCTYPE_INCREMENTED,
CFCTYPE_DECREMENTED,
CFCTYPE_NULLABLE
};
static int (*accessors[4])(CFCType *type) = {
CFCType_const,
CFCType_incremented,
CFCType_decremented,
CFCType_nullable
};
{
CFCParser *parser = CFCParser_new();
CFCParcel *neato_parcel
= CFCTest_parse_parcel(test, parser, "parcel Neato;");
static const char *specifiers[4] = {
"Foo", "FooJr", "FooIII", "Foo4th"
};
for (int i = 0; i < 4; ++i) {
const char *specifier = specifiers[i];
char *class_code = CFCUtil_sprintf("class %s {}", specifier);
CFCClass *klass = CFCTest_parse_class(test, parser, class_code);
FREEMEM(class_code);
static const char *prefixes[2] = { "", "neato_" };
char *expect = CFCUtil_sprintf("neato_%s", specifier);
for (int j = 0; j < 2; ++j) {
char *src = CFCUtil_sprintf("%s%s*", prefixes[j], specifier);
CFCType *type = CFCTest_parse_type(test, parser, src);
CFCType_resolve(type);
STR_EQ(test, CFCType_get_specifier(type), expect,
"object_type_specifier: %s", src);
OK(test, CFCType_is_object(type), "%s is_object", src);
INT_EQ(test, CFCType_get_indirection(type), 1,
"%s indirection", src);
FREEMEM(src);
CFCBase_decref((CFCBase*)type);
}
FREEMEM(expect);
for (int j = 0; j < 4; ++j) {
char *src = CFCUtil_sprintf("%s %s*", modifiers[j], specifier);
CFCType *type = CFCTest_parse_type(test, parser, src);
OK(test, CFCType_is_object(type), "%s is_object", src);
OK(test, accessors[j](type), "%s accessor", src);
FREEMEM(src);
CFCBase_decref((CFCBase*)type);
}
CFCBase_decref((CFCBase*)klass);
CFCClass_clear_registry();
}
CFCBase_decref((CFCBase*)neato_parcel);
CFCBase_decref((CFCBase*)parser);
}
CFCParcel *neato_parcel = CFCParcel_new("Neato", NULL, NULL, NULL);
CFCClass *foo_class
= CFCClass_create(neato_parcel, NULL, "Foo", NULL, NULL, NULL, NULL,
NULL, false, false, false);
CFCType *foo = CFCType_new_object(0, neato_parcel, "Foo", 1);
CFCType_resolve(foo);
{
CFCType *another_foo = CFCType_new_object(0, neato_parcel, "Foo", 1);
CFCType_resolve(another_foo);
OK(test, CFCType_equals(foo, another_foo), "equals");
CFCBase_decref((CFCBase*)another_foo);
}
{
CFCClass *bar_class
= CFCClass_create(neato_parcel, NULL, "Bar", NULL, NULL, NULL,
NULL, NULL, false, false, false);
CFCType *bar = CFCType_new_object(0, neato_parcel, "Bar", 1);
CFCType_resolve(bar);
OK(test, !CFCType_equals(foo, bar),
"different specifier spoils equals");
CFCBase_decref((CFCBase*)bar);
CFCBase_decref((CFCBase*)bar_class);
}
{
CFCParcel *foreign_parcel
= CFCParcel_new("Foreign", NULL, NULL, NULL);
CFCClass *foreign_foo_class
= CFCClass_create(foreign_parcel, NULL, "Foreign::Foo", NULL, NULL,
NULL, NULL, NULL, false, false, false);
CFCType *foreign_foo = CFCType_new_object(0, foreign_parcel, "Foo", 1);
CFCType_resolve(foreign_foo);
OK(test, !CFCType_equals(foo, foreign_foo),
"different parcel spoils equals");
STR_EQ(test, CFCType_get_specifier(foreign_foo), "foreign_Foo",
"prepend parcel prefix to specifier");
CFCBase_decref((CFCBase*)foreign_parcel);
CFCBase_decref((CFCBase*)foreign_foo_class);
CFCBase_decref((CFCBase*)foreign_foo);
}
{
for (int i = 0; i < 4; ++i) {
CFCType *modified_foo
= CFCType_new_object(flags[i], neato_parcel, "Foo", 1);
CFCType_resolve(modified_foo);
OK(test, accessors[i](modified_foo), "%s", modifiers[i]);
OK(test, !accessors[i](foo), "not %s", modifiers[i]);
OK(test, !CFCType_equals(foo, modified_foo),
"different %s spoils equals", modifiers[i]);
OK(test, !CFCType_similar(foo, modified_foo),
"different %s spoils similar", modifiers[i]);
CFCBase_decref((CFCBase*)modified_foo);
}
}
{
CFCType *string_type
= CFCType_new_object(0, neato_parcel, "String", 1);
OK(test, CFCType_is_string_type(string_type), "%s", "is_string_type");
OK(test, !CFCType_is_string_type(foo), "not %s", "not is_string_type");
CFCBase_decref((CFCBase*)string_type);
}
CFCBase_decref((CFCBase*)neato_parcel);
CFCBase_decref((CFCBase*)foo_class);
CFCBase_decref((CFCBase*)foo);
CFCClass_clear_registry();
CFCParcel_reap_singletons();
}
static void
S_run_basic_tests(CFCTest *test) {
CFCHierarchy *hierarchy = CFCHierarchy_new(T_CFDEST);
STR_EQ(test, CFCHierarchy_get_dest(hierarchy), T_CFDEST, "get_dest");
STR_EQ(test, CFCHierarchy_get_include_dest(hierarchy), T_CFDEST_INCLUDE,
"get_include_dest");
STR_EQ(test, CFCHierarchy_get_source_dest(hierarchy), T_CFDEST_SOURCE,
"get_source_dest");
CFCHierarchy_add_source_dir(hierarchy, T_CFBASE);
const char **source_dirs = CFCHierarchy_get_source_dirs(hierarchy);
STR_EQ(test, source_dirs[0], T_CFBASE, "source_dirs[0]");
OK(test, source_dirs[1] == NULL, "source_dirs[1]");
CFCHierarchy_build(hierarchy);
CFCFile **files = CFCHierarchy_files(hierarchy);
CFCFile *animal = NULL;
CFCFile *dog = NULL;
CFCFile *util = NULL;
for (int i = 0; i < 3; ++i) {
CFCFile *file = files[i];
OK(test, file != NULL, "files[%d]", i);
OK(test, !CFCFile_get_modified(file), "start off not modified");
CFCBase **blocks = CFCFile_blocks(file);
for (int j = 0; blocks[j]; ++j) {
CFCBase *block = blocks[j];
const char *cfc_class_name = CFCBase_get_cfc_class(block);
if (strcmp(cfc_class_name, "Clownfish::CFC::Model::Class") == 0) {
CFCClass *klass = (CFCClass*)block;
const char *class_name = CFCClass_get_name(klass);
if (strcmp(class_name, "Animal") == 0) {
animal = file;
}
else if (strcmp(class_name, "Animal::Dog") == 0) {
dog = file;
}
else if (strcmp(class_name, "Animal::Util") == 0) {
util = file;
}
}
}
}
OK(test, files[3] == NULL, "recursed and found all three files");
{
CFCClass **ordered_classes = CFCHierarchy_ordered_classes(hierarchy);
OK(test, ordered_classes[0] != NULL, "ordered_classes[0]");
OK(test, ordered_classes[1] != NULL, "ordered_classes[1]");
OK(test, ordered_classes[2] != NULL, "ordered_classes[2]");
OK(test, ordered_classes[3] != NULL, "ordered_classes[3]");
OK(test, ordered_classes[4] == NULL, "all classes");
FREEMEM(ordered_classes);
}
// Generate fake C files, with times set to two seconds ago.
time_t now = time(NULL);
time_t past_time = now - 2;
static const char *const h_paths[] = {
T_CFDEST_INCLUDE CHY_DIR_SEP "Animal.h",
T_CFDEST_INCLUDE CHY_DIR_SEP "Animal" CHY_DIR_SEP "Dog.h",
T_CFDEST_INCLUDE CHY_DIR_SEP "Animal" CHY_DIR_SEP "Util.h"
};
OK(test, CFCUtil_make_path(T_CFDEST_INCLUDE CHY_DIR_SEP "Animal"),
"make_path");
for (int i = 0; i < 3; ++i) {
const char *h_path = h_paths[i];
const char *content = "#include <stdio.h>\n";
CFCUtil_write_file(h_path, content, strlen(content));
CFCTest_set_file_times(h_path, past_time);
}
char *cfh_path = CFCFile_cfh_path(animal, T_CFBASE);
CFCTest_set_file_times(cfh_path, now);
FREEMEM(cfh_path);
CFCHierarchy_propagate_modified(hierarchy, 0);
OK(test, CFCFile_get_modified(animal), "Animal modified");
OK(test, CFCFile_get_modified(dog),
"Parent's modification propagates to child's file");
OK(test, !CFCFile_get_modified(util),
"Modification doesn't propagate to inert class");
for (int i = 0; i < 3; ++i) {
remove(h_paths[i]);
}
rmdir(T_CFDEST_INCLUDE CHY_DIR_SEP "Animal");
rmdir(T_CFDEST_INCLUDE);
rmdir(T_CFDEST_SOURCE);
rmdir(T_CFDEST);
CFCBase_decref((CFCBase*)hierarchy);
CFCClass_clear_registry();
CFCParcel_reap_singletons();
}
static void
S_run_include_tests(CFCTest *test) {
{
CFCHierarchy *hierarchy = CFCHierarchy_new(T_CFDEST);
CFCHierarchy_add_source_dir(hierarchy, T_CFEXT);
CFCHierarchy_add_include_dir(hierarchy, T_CFBASE);
const char **include_dirs = CFCHierarchy_get_include_dirs(hierarchy);
STR_EQ(test, include_dirs[0], T_CFBASE, "include_dirs[0]");
OK(test, include_dirs[1] == NULL, "include_dirs[1]");
CFCHierarchy_build(hierarchy);
CFCClass **classes = CFCHierarchy_ordered_classes(hierarchy);
CFCClass *rottweiler = NULL;;
int num_classes;
int num_source_classes = 0;
for (num_classes = 0; classes[num_classes]; ++num_classes) {
CFCClass *klass = classes[num_classes];
int expect_included = 1;
const char *class_name = CFCClass_get_name(klass);
if (strcmp(class_name, "Animal::Rottweiler") == 0) {
rottweiler = klass;
expect_included = 0;
++num_source_classes;
}
INT_EQ(test, CFCClass_included(klass), expect_included,
"included");
}
INT_EQ(test, num_classes, 5, "class count");
INT_EQ(test, num_source_classes, 1, "source class count");
STR_EQ(test, CFCClass_get_name(CFCClass_get_parent(rottweiler)),
"Animal::Dog", "parent of included class");
FREEMEM(classes);
CFCBase_decref((CFCBase*)hierarchy);
CFCClass_clear_registry();
CFCParcel_reap_singletons();
}
{
CFCHierarchy *hierarchy = CFCHierarchy_new(T_CFDEST);
CFCHierarchy_add_source_dir(hierarchy, T_CFBASE);
CFCHierarchy_add_source_dir(hierarchy, T_CFEXT);
CFCHierarchy_build(hierarchy);
CFCClass **classes = CFCHierarchy_ordered_classes(hierarchy);
CFCClass *rottweiler = NULL;;
int num_classes;
for (num_classes = 0; classes[num_classes]; ++num_classes) {
CFCClass *klass = classes[num_classes];
const char *class_name = CFCClass_get_name(klass);
if (strcmp(class_name, "Animal::Rottweiler") == 0) {
rottweiler = klass;
}
OK(test, !CFCClass_included(klass), "not included");
}
INT_EQ(test, num_classes, 5, "class count");
OK(test, rottweiler != NULL, "found rottweiler");
STR_EQ(test, CFCClass_get_name(CFCClass_get_parent(rottweiler)),
"Animal::Dog", "parent of class from second source");
FREEMEM(classes);
CFCBase_decref((CFCBase*)hierarchy);
CFCClass_clear_registry();
CFCParcel_reap_singletons();
}
{
CFCHierarchy *hierarchy = CFCHierarchy_new(T_CFDEST);
CFCHierarchy_add_include_dir(hierarchy, T_CFBASE);
CFCHierarchy_add_include_dir(hierarchy, T_CFEXT);
CFCHierarchy_add_prereq(hierarchy, "AnimalExtension");
CFCHierarchy_build(hierarchy);
CFCParcel *animal = CFCParcel_fetch("Animal");
OK(test, animal != NULL, "parcel Animal registered");
OK(test, CFCParcel_required(animal), "parcel Animal required");
CFCParcel *animal_ext = CFCParcel_fetch("AnimalExtension");
OK(test, animal_ext != NULL, "parcel AnimalExtension registered");
OK(test, CFCParcel_required(animal_ext),
"parcel AnimalExtension required");
CFCClass **classes = CFCHierarchy_ordered_classes(hierarchy);
int num_classes = 0;
while (classes[num_classes]) {
++num_classes;
}
INT_EQ(test, num_classes, 5, "class count");
FREEMEM(classes);
CFCBase_decref((CFCBase*)hierarchy);
CFCClass_clear_registry();
CFCParcel_reap_singletons();
}
rmdir(T_CFDEST_INCLUDE);
rmdir(T_CFDEST_SOURCE);
rmdir(T_CFDEST);
}
static void
S_run_parcel_tests(CFCTest *test) {
{
CFCParcel *parcel = CFCParcel_new("Foo", NULL, NULL, NULL);
OK(test, parcel != NULL, "new");
OK(test, !CFCParcel_included(parcel), "not included");
CFCBase_decref((CFCBase*)parcel);
}
{
CFCFileSpec *file_spec = CFCFileSpec_new(".", "Parcel", true);
CFCParcel *parcel = CFCParcel_new("Foo", NULL, NULL, file_spec);
OK(test, CFCParcel_included(parcel), "included");
CFCBase_decref((CFCBase*)parcel);
CFCBase_decref((CFCBase*)file_spec);
}
{
const char *json =
" {\n"
" \"name\": \"Crustacean\",\n"
" \"nickname\": \"Crust\",\n"
" \"version\": \"v0.1.0\"\n"
" }\n";
CFCParcel *parcel = CFCParcel_new_from_json(json, NULL);
OK(test, parcel != NULL, "new_from_json");
CFCBase_decref((CFCBase*)parcel);
}
{
const char *path = "t" CHY_DIR_SEP "cfbase" CHY_DIR_SEP "Animal.cfp";
CFCParcel *parcel = CFCParcel_new_from_file(path, NULL);
OK(test, parcel != NULL, "new_from_file");
CFCBase_decref((CFCBase*)parcel);
}
{
CFCParcel *parcel = CFCParcel_new("Crustacean", "Crust", NULL, NULL);
CFCParcel_register(parcel);
STR_EQ(test, CFCVersion_get_vstring(CFCParcel_get_version(parcel)),
"v0", "get_version");
CFCBase_decref((CFCBase*)parcel);
CFCParcel_reap_singletons();
}
{
const char *json =
" {\n"
" \"name\": \"Crustacean\",\n"
" \"version\": \"v0.1.0\",\n"
" \"prerequisites\": {\n"
" \"Clownfish\": null,\n"
" \"Arthropod\": \"v30.104.5\"\n"
" }\n"
" }\n";
CFCParcel *parcel = CFCParcel_new_from_json(json, NULL);
CFCPrereq **prereqs = CFCParcel_get_prereqs(parcel);
OK(test, prereqs != NULL, "prereqs");
CFCPrereq *cfish = prereqs[0];
OK(test, cfish != NULL, "prereqs[0]");
const char *cfish_name = CFCPrereq_get_name(cfish);
STR_EQ(test, cfish_name, "Clownfish", "prereqs[0] name");
CFCVersion *v0 = CFCVersion_new("v0");
CFCVersion *cfish_version = CFCPrereq_get_version(cfish);
INT_EQ(test, CFCVersion_compare_to(cfish_version, v0), 0,
"prereqs[0] version");
CFCPrereq *apod = prereqs[1];
OK(test, apod != NULL, "prereqs[1]");
const char *apod_name = CFCPrereq_get_name(apod);
STR_EQ(test, apod_name, "Arthropod", "prereqs[1] name");
CFCVersion *v30_104_5 = CFCVersion_new("v30.104.5");
CFCVersion *apod_version = CFCPrereq_get_version(apod);
INT_EQ(test, CFCVersion_compare_to(apod_version, v30_104_5), 0,
"prereqs[1] version");
OK(test, prereqs[2] == NULL, "prereqs[2]");
CFCBase_decref((CFCBase*)v30_104_5);
CFCBase_decref((CFCBase*)v0);
CFCBase_decref((CFCBase*)parcel);
}
{
CFCFileSpec *foo_file_spec = CFCFileSpec_new(".", "Foo", true);
CFCParcel *foo = CFCParcel_new("Foo", NULL, NULL, foo_file_spec);
CFCParcel_register(foo);
CFCVersion *cfish_version = CFCVersion_new("v0.8.7");
CFCFileSpec *cfish_file_spec
= CFCFileSpec_new(".", "Clownfish", true);
CFCParcel *cfish
= CFCParcel_new("Clownfish", NULL, cfish_version, cfish_file_spec);
CFCParcel_register(cfish);
const char *crust_json =
" {\n"
" \"name\": \"Crustacean\",\n"
" \"version\": \"v0.1.0\",\n"
" \"prerequisites\": {\n"
" \"Clownfish\": \"v0.8.5\",\n"
" }\n"
" }\n";
CFCParcel *crust = CFCParcel_new_from_json(crust_json, NULL);
CFCParcel_register(crust);
CFCParcel_check_prereqs(crust);
INT_EQ(test, CFCParcel_required(foo), false, "parcel not required");
INT_EQ(test, CFCParcel_required(cfish), true, "prereq required");
INT_EQ(test, CFCParcel_required(crust), true, "self required");
CFCParcel **prereq_parcels = CFCParcel_prereq_parcels(crust);
OK(test, prereq_parcels[0] != NULL, "prereq_parcels[0]");
const char *name = CFCParcel_get_name(prereq_parcels[0]);
STR_EQ(test, name, "Clownfish", "prereq_parcels[0] name");
OK(test, prereq_parcels[1] == NULL, "prereq_parcels[0]");
OK(test, CFCParcel_has_prereq(crust, cfish), "has_prereq");
OK(test, CFCParcel_has_prereq(crust, crust), "has_prereq self");
OK(test, !CFCParcel_has_prereq(crust, foo), "has_prereq false");
CFCParcel_add_struct_sym(cfish, "Swim");
CFCParcel_add_struct_sym(crust, "Pinch");
CFCParcel_add_struct_sym(foo, "Bar");
CFCParcel *found;
found = CFCParcel_lookup_struct_sym(crust, "Swim");
OK(test, found == cfish, "lookup_struct_sym prereq");
found = CFCParcel_lookup_struct_sym(crust, "Pinch");
OK(test, found == crust, "lookup_struct_sym self");
found = CFCParcel_lookup_struct_sym(crust, "Bar");
OK(test, found == NULL, "lookup_struct_sym other");
FREEMEM(prereq_parcels);
CFCBase_decref((CFCBase*)crust);
CFCBase_decref((CFCBase*)cfish_version);
CFCBase_decref((CFCBase*)cfish_file_spec);
CFCBase_decref((CFCBase*)cfish);
CFCBase_decref((CFCBase*)foo_file_spec);
CFCBase_decref((CFCBase*)foo);
CFCParcel_reap_singletons();
}
}
static void
S_run_tests(CFCTest *test) {
CFCParcel *parcel = CFCParcel_default_parcel();
{
static const char *exposures[4] = {
"public", "private", "parcel", "local"
};
static int (*accessors[4])(CFCSymbol *sym) = {
CFCSymbol_public,
CFCSymbol_private,
CFCSymbol_parcel,
CFCSymbol_local
};
for (int i = 0; i < 4; ++i) {
CFCSymbol *symbol
= CFCSymbol_new(parcel, exposures[i], NULL, NULL, "sym");
for (int j = 0; j < 4; ++j) {
int has_exposure = accessors[j](symbol);
if (i == j) {
OK(test, has_exposure, "exposure %s", exposures[i]);
}
else {
OK(test, !has_exposure, "%s means not %s", exposures[i],
exposures[j]);
}
}
CFCBase_decref((CFCBase*)symbol);
}
}
{
CFCSymbol *foo = CFCSymbol_new(parcel, "parcel", "Foo", NULL, "sym");
CFCSymbol *foo_jr
= CFCSymbol_new(parcel, "parcel", "Foo::FooJr", NULL, "sym");
int equal = CFCSymbol_equals(foo, foo_jr);
OK(test, !equal, "different class_name spoils equals");
const char *foo_jr_name = CFCSymbol_get_class_name(foo_jr);
STR_EQ(test, foo_jr_name, "Foo::FooJr", "get_class_name");
const char *foo_jr_cnick = CFCSymbol_get_class_cnick(foo_jr);
STR_EQ(test, foo_jr_cnick, "FooJr",
"derive class_cnick from class_name");
CFCBase_decref((CFCBase*)foo);
CFCBase_decref((CFCBase*)foo_jr);
}
{
CFCSymbol *public_exposure
= CFCSymbol_new(parcel, "public", NULL, NULL, "sym");
CFCSymbol *parcel_exposure
= CFCSymbol_new(parcel, "parcel", NULL, NULL, "sym");
int equal = CFCSymbol_equals(public_exposure, parcel_exposure);
OK(test, !equal, "different exposure spoils equals");
CFCBase_decref((CFCBase*)public_exposure);
CFCBase_decref((CFCBase*)parcel_exposure);
}
{
CFCParcel *lucifer_parcel
= CFCParcel_new("Lucifer", NULL, NULL, false);
CFCParcel_register(lucifer_parcel);
CFCSymbol *lucifer
= CFCSymbol_new(lucifer_parcel, "parcel", NULL, NULL, "sym");
CFCParcel *symbol_parcel = CFCSymbol_get_parcel(lucifer);
OK(test, symbol_parcel == lucifer_parcel, "derive parcel");
const char *prefix = CFCSymbol_get_prefix(lucifer);
STR_EQ(test, prefix, "lucifer_", "get_prefix");
const char *Prefix = CFCSymbol_get_Prefix(lucifer);
STR_EQ(test, Prefix, "Lucifer_", "get_Prefix");
const char *PREFIX = CFCSymbol_get_PREFIX(lucifer);
STR_EQ(test, PREFIX, "LUCIFER_", "get_PREFIX");
CFCParcel *luser_parcel = CFCParcel_new("Luser", NULL, NULL, false);
CFCParcel_register(luser_parcel);
CFCSymbol *luser
= CFCSymbol_new(luser_parcel, "parcel", NULL, NULL, "sym");
int equal = CFCSymbol_equals(lucifer, luser);
OK(test, !equal, "different exposure spoils equals");
CFCBase_decref((CFCBase*)lucifer_parcel);
CFCBase_decref((CFCBase*)lucifer);
CFCBase_decref((CFCBase*)luser_parcel);
CFCBase_decref((CFCBase*)luser);
}
{
CFCSymbol *ooga = CFCSymbol_new(parcel, "parcel", NULL, NULL, "ooga");
CFCSymbol *booga
= CFCSymbol_new(parcel, "parcel", NULL, NULL, "booga");
int equal = CFCSymbol_equals(ooga, booga);
OK(test, !equal, "different micro_sym spoils equals");
CFCBase_decref((CFCBase*)ooga);
CFCBase_decref((CFCBase*)booga);
}
{
CFCParcel *eep_parcel = CFCParcel_new("Eep", NULL, NULL, false);
CFCParcel_register(eep_parcel);
CFCSymbol *eep
= CFCSymbol_new(eep_parcel, "parcel", "Op::Ork", NULL, "ah_ah");
const char *short_sym = CFCSymbol_short_sym(eep);
STR_EQ(test, short_sym, "Ork_ah_ah", "short_sym");
const char *full_sym = CFCSymbol_full_sym(eep);
STR_EQ(test, full_sym, "eep_Ork_ah_ah", "full_sym");
CFCBase_decref((CFCBase*)eep_parcel);
CFCBase_decref((CFCBase*)eep);
}
CFCParcel_reap_singletons();
}
static void
S_run_tests(CFCTest *test) {
CFCParser *parser = CFCParser_new();
OK(test, parser != NULL, "new");
{
CFCParcel *fish = CFCTest_parse_parcel(test, parser, "parcel Fish;");
CFCParcel *registered
= CFCParcel_new("Crustacean", "Crust", NULL, false);
CFCParcel_register(registered);
CFCParcel *parcel
= CFCTest_parse_parcel(test, parser, "parcel Crustacean;");
OK(test, parcel == registered, "Fetch registered parcel");
OK(test, CFCParser_get_parcel(parser) == parcel,
"parcel_definition sets internal var");
CFCBase_decref((CFCBase*)fish);
CFCBase_decref((CFCBase*)registered);
CFCBase_decref((CFCBase*)parcel);
}
{
static const char *const specifiers[8] = {
"foo", "_foo", "foo_yoo", "FOO", "Foo", "fOO", "f00", "foo_foo_foo"
};
for (int i = 0; i < 8; ++i) {
const char *specifier = specifiers[i];
char *src = CFCUtil_sprintf("int32_t %s;", specifier);
CFCVariable *var = CFCTest_parse_variable(test, parser, src);
STR_EQ(test, CFCVariable_micro_sym(var), specifier,
"identifier/declarator: %s", specifier);
FREEMEM(src);
CFCBase_decref((CFCBase*)var);
}
}
{
static const char *const specifiers[6] = {
"void", "float", "uint32_t", "int64_t", "uint8_t", "bool"
};
for (int i = 0; i < 6; ++i) {
const char *specifier = specifiers[i];
char *src = CFCUtil_sprintf("int32_t %s;", specifier);
CFCBase *result = CFCParser_parse(parser, src);
OK(test, result == NULL,
"reserved word not parsed as identifier: %s", specifier);
FREEMEM(src);
CFCBase_decref(result);
}
}
{
static const char *const type_strings[7] = {
"bool", "const char *", "Obj*", "i32_t", "char[]", "long[1]",
"i64_t[30]"
};
for (int i = 0; i < 7; ++i) {
const char *type_string = type_strings[i];
CFCType *type = CFCTest_parse_type(test, parser, type_string);
CFCBase_decref((CFCBase*)type);
}
}
{
static const char *const class_names[7] = {
"ByteBuf", "Obj", "ANDMatcher", "Foo", "FooJr", "FooIII", "Foo4th"
};
CFCClass *class_list[8];
for (int i = 0; i < 7; ++i) {
char *class_code = CFCUtil_sprintf("class %s {}", class_names[i]);
CFCClass *klass = CFCTest_parse_class(test, parser, class_code);
class_list[i] = klass;
FREEMEM(class_code);
}
class_list[7] = NULL;
for (int i = 0; i < 7; ++i) {
const char *class_name = class_names[i];
char *src = CFCUtil_sprintf("%s*", class_name);
char *expected = CFCUtil_sprintf("crust_%s", class_name);
CFCType *type = CFCTest_parse_type(test, parser, src);
CFCType_resolve(type, class_list);
STR_EQ(test, CFCType_get_specifier(type), expected,
"object_type_specifier: %s", class_name);
FREEMEM(src);
FREEMEM(expected);
CFCBase_decref((CFCBase*)type);
}
for (int i = 0; i < 7; ++i) {
CFCBase_decref((CFCBase*)class_list[i]);
}
CFCClass_clear_registry();
}
{
CFCType *type = CFCTest_parse_type(test, parser, "const char");
OK(test, CFCType_const(type), "type_qualifier const");
CFCBase_decref((CFCBase*)type);
}
{
static const char *const exposures[2] = {
"public", ""
};
static int (*const accessors[2])(CFCSymbol *sym) = {
CFCSymbol_public, CFCSymbol_parcel
};
for (int i = 0; i < 2; ++i) {
const char *exposure = exposures[i];
char *src = CFCUtil_sprintf("%s inert int32_t foo;", exposure);
CFCVariable *var = CFCTest_parse_variable(test, parser, src);
OK(test, accessors[i]((CFCSymbol*)var), "exposure_specifier %s",
exposure);
FREEMEM(src);
CFCBase_decref((CFCBase*)var);
}
}
{
static const char *const hex_constants[] = {
"0x1", "0x0a", "0xFFFFFFFF", "-0xFC", NULL
};
S_test_initial_value(test, parser, hex_constants, "int32_t",
"hex_constant:");
}
{
static const char *const integer_constants[] = {
"1", "-9999", "0", "10000", NULL
};
S_test_initial_value(test, parser, integer_constants, "int32_t",
"integer_constant:");
}
{
static const char *const float_constants[] = {
"1.0", "-9999.999", "0.1", "0.0", NULL
};
S_test_initial_value(test, parser, float_constants, "double",
"float_constant:");
}
{
static const char *const string_literals[] = {
"\"blah\"", "\"blah blah\"", "\"\\\"blah\\\" \\\"blah\\\"\"", NULL
};
S_test_initial_value(test, parser, string_literals, "String*",
"string_literal:");
}
{
static const char *const composites[5] = {
"int[]", "i32_t **", "Foo **", "Foo ***", "const void *"
};
for (int i = 0; i < 5; ++i) {
const char *composite = composites[i];
CFCType *type = CFCTest_parse_type(test, parser, composite);
OK(test, CFCType_is_composite(type), "composite_type: %s",
composite);
CFCBase_decref((CFCBase*)type);
}
}
{
static const char *const object_types[5] = {
"Obj *", "incremented Foo*", "decremented String *"
};
for (int i = 0; i < 3; ++i) {
const char *object_type = object_types[i];
CFCType *type = CFCTest_parse_type(test, parser, object_type);
OK(test, CFCType_is_object(type), "object_type: %s",
object_type);
CFCBase_decref((CFCBase*)type);
}
}
{
static const char *const param_list_strings[3] = {
"()",
"(int foo)",
"(Obj *foo, Foo **foo_ptr)"
};
for (int i = 0; i < 3; ++i) {
const char *param_list_string = param_list_strings[i];
CFCParamList *param_list
= CFCTest_parse_param_list(test, parser, param_list_string);
INT_EQ(test, CFCParamList_num_vars(param_list), i,
"param list num_vars: %d", i);
CFCBase_decref((CFCBase*)param_list);
}
}
{
CFCParamList *param_list
= CFCTest_parse_param_list(test, parser, "(int foo, ...)");
OK(test, CFCParamList_variadic(param_list), "variadic param list");
CFCBase_decref((CFCBase*)param_list);
}
{
const char *param_list_string =
"(int foo = 0xFF, char *bar =\"blah\")";
CFCParamList *param_list
= CFCTest_parse_param_list(test, parser, param_list_string);
const char **initial_values
= CFCParamList_get_initial_values(param_list);
STR_EQ(test, initial_values[0], "0xFF",
"param list initial_values[0]");
STR_EQ(test, initial_values[1], "\"blah\"",
"param list initial_values[1]");
OK(test, initial_values[2] == NULL, "param list initial_values[2]");
CFCBase_decref((CFCBase*)param_list);
}
{
CFCParser_set_class_name(parser, "Stuff::Obj");
CFCParser_set_class_cnick(parser, "Obj");
const char *method_string =
"public Foo* Spew_Foo(Obj *self, uint32_t *how_many);";
CFCMethod *method = CFCTest_parse_method(test, parser, method_string);
CFCBase_decref((CFCBase*)method);
const char *var_string =
"public inert Hash *hash;";
CFCVariable *var = CFCTest_parse_variable(test, parser, var_string);
CFCBase_decref((CFCBase*)var);
}
{
static const char *const class_names[4] = {
"Foo", "Foo::FooJr", "Foo::FooJr::FooIII",
"Foo::FooJr::FooIII::Foo4th"
};
for (int i = 0; i < 4; ++i) {
const char *class_name = class_names[i];
char *class_string = CFCUtil_sprintf("class %s { }", class_name);
CFCClass *klass
= CFCTest_parse_class(test, parser, class_string);
STR_EQ(test, CFCClass_get_class_name(klass), class_name,
"class_name: %s", class_name);
FREEMEM(class_string);
CFCBase_decref((CFCBase*)klass);
}
}
{
static const char *const cnicks[2] = { "Food", "FF" };
for (int i = 0; i < 2; ++i) {
const char *cnick = cnicks[i];
char *class_string
= CFCUtil_sprintf("class Foodie%s cnick %s { }", cnick, cnick);
CFCClass *klass
= CFCTest_parse_class(test, parser, class_string);
STR_EQ(test, CFCClass_get_cnick(klass), cnick, "cnick: %s", cnick);
FREEMEM(class_string);
CFCBase_decref((CFCBase*)klass);
}
}
CFCBase_decref((CFCBase*)parser);
CFCClass_clear_registry();
CFCParcel_reap_singletons();
}
