* Free Software Foundation, Inc., 59 Temple Place - Suite 330,
* Boston, MA 02111-1307, USA.
*/
+
#include "config.h"
+
#include "gtestutils.h"
-#include "galias.h"
+
#include <sys/types.h>
#ifdef G_OS_UNIX
#include <sys/wait.h>
#ifdef HAVE_SYS_SELECT_H
#include <sys/select.h>
#endif /* HAVE_SYS_SELECT_H */
-
+
+#include "gmain.h"
+#include "gpattern.h"
+#include "grand.h"
+#include "gstrfuncs.h"
+#include "gtimer.h"
+#include "gslice.h"
+
+
+/**
+ * SECTION:testing
+ * @title: Testing
+ * @short_description: a test framework
+ * @see_also: <link linkend="gtester">gtester</link>,
+ * <link linkend="gtester-report">gtester-report</link>
+ *
+ * GLib provides a framework for writing and maintaining unit tests
+ * in parallel to the code they are testing. The API is designed according
+ * to established concepts found in the other test frameworks (JUnit, NUnit,
+ * RUnit), which in turn is based on smalltalk unit testing concepts.
+ *
+ * <variablelist>
+ * <varlistentry>
+ * <term>Test case</term>
+ * <listitem>Tests (test methods) are grouped together with their
+ * fixture into test cases.</listitem>
+ * </varlistentry>
+ * <varlistentry>
+ * <term>Fixture</term>
+ * <listitem>A test fixture consists of fixture data and setup and
+ * teardown methods to establish the environment for the test
+ * functions. We use fresh fixtures, i.e. fixtures are newly set
+ * up and torn down around each test invocation to avoid dependencies
+ * between tests.</listitem>
+ * </varlistentry>
+ * <varlistentry>
+ * <term>Test suite</term>
+ * <listitem>Test cases can be grouped into test suites, to allow
+ * subsets of the available tests to be run. Test suites can be
+ * grouped into other test suites as well.</listitem>
+ * </varlistentry>
+ * </variablelist>
+ * The API is designed to handle creation and registration of test suites
+ * and test cases implicitly. A simple call like
+ * |[
+ * g_test_add_func ("/misc/assertions", test_assertions);
+ * ]|
+ * creates a test suite called "misc" with a single test case named
+ * "assertions", which consists of running the test_assertions function.
+ *
+ * In addition to the traditional g_assert(), the test framework provides
+ * an extended set of assertions for string and numerical comparisons:
+ * g_assert_cmpfloat(), g_assert_cmpint(), g_assert_cmpuint(),
+ * g_assert_cmphex(), g_assert_cmpstr(). The advantage of these variants
+ * over plain g_assert() is that the assertion messages can be more
+ * elaborate, and include the values of the compared entities.
+ *
+ * GLib ships with two utilities called gtester and gtester-report to
+ * facilitate running tests and producing nicely formatted test reports.
+ */
+
+/**
+ * g_test_quick:
+ *
+ * Returns %TRUE if tests are run in quick mode.
+ * Exactly one of g_test_quick() and g_test_slow() is active in any run;
+ * there is no "medium speed".
+ *
+ * Returns: %TRUE if in quick mode
+ */
+
+/**
+ * g_test_slow:
+ *
+ * Returns %TRUE if tests are run in slow mode.
+ * Exactly one of g_test_quick() and g_test_slow() is active in any run;
+ * there is no "medium speed".
+ *
+ * Returns: the opposite of g_test_quick()
+ */
+
+/**
+ * g_test_thorough:
+ *
+ * Returns %TRUE if tests are run in thorough mode, equivalent to
+ * g_test_slow().
+ *
+ * Returns: the same thing as g_test_slow()
+ */
+
+/**
+ * g_test_perf:
+ *
+ * Returns %TRUE if tests are run in performance mode.
+ *
+ * Returns: %TRUE if in performance mode
+ */
+
+/**
+ * g_test_undefined:
+ *
+ * Returns %TRUE if tests may provoke assertions and other formally-undefined
+ * behaviour under g_test_trap_fork(), to verify that appropriate warnings
+ * are given. It can be useful to turn this off if running tests under
+ * valgrind.
+ *
+ * Returns: %TRUE if tests may provoke programming errors
+ */
+
+/**
+ * g_test_verbose:
+ *
+ * Returns %TRUE if tests are run in verbose mode.
+ * The default is neither g_test_verbose() nor g_test_quiet().
+ *
+ * Returns: %TRUE if in verbose mode
+ */
+
+/**
+ * g_test_quiet:
+ *
+ * Returns %TRUE if tests are run in quiet mode.
+ * The default is neither g_test_verbose() nor g_test_quiet().
+ *
+ * Returns: %TRUE if in quiet mode
+ */
+
+/**
+ * g_test_queue_unref:
+ * @gobject: the object to unref
+ *
+ * Enqueue an object to be released with g_object_unref() during
+ * the next teardown phase. This is equivalent to calling
+ * g_test_queue_destroy() with a destroy callback of g_object_unref().
+ *
+ * Since: 2.16
+ */
+
+/**
+ * GTestTrapFlags:
+ * @G_TEST_TRAP_SILENCE_STDOUT: Redirect stdout of the test child to
+ * <filename>/dev/null</filename> so it cannot be observed on the
+ * console during test runs. The actual output is still captured
+ * though to allow later tests with g_test_trap_assert_stdout().
+ * @G_TEST_TRAP_SILENCE_STDERR: Redirect stderr of the test child to
+ * <filename>/dev/null</filename> so it cannot be observed on the
+ * console during test runs. The actual output is still captured
+ * though to allow later tests with g_test_trap_assert_stderr().
+ * @G_TEST_TRAP_INHERIT_STDIN: If this flag is given, stdin of the
+ * forked child process is shared with stdin of its parent process.
+ * It is redirected to <filename>/dev/null</filename> otherwise.
+ *
+ * Test traps are guards around forked tests.
+ * These flags determine what traps to set.
+ */
+
+/**
+ * g_test_trap_assert_passed:
+ *
+ * Assert that the last forked test passed.
+ * See g_test_trap_fork().
+ *
+ * Since: 2.16
+ */
+
+/**
+ * g_test_trap_assert_failed:
+ *
+ * Assert that the last forked test failed.
+ * See g_test_trap_fork().
+ *
+ * Since: 2.16
+ */
+
+/**
+ * g_test_trap_assert_stdout:
+ * @soutpattern: a glob-style
+ * <link linkend="glib-Glob-style-pattern-matching">pattern</link>
+ *
+ * Assert that the stdout output of the last forked test matches
+ * @soutpattern. See g_test_trap_fork().
+ *
+ * Since: 2.16
+ */
+
+/**
+ * g_test_trap_assert_stdout_unmatched:
+ * @soutpattern: a glob-style
+ * <link linkend="glib-Glob-style-pattern-matching">pattern</link>
+ *
+ * Assert that the stdout output of the last forked test
+ * does not match @soutpattern. See g_test_trap_fork().
+ *
+ * Since: 2.16
+ */
+
+/**
+ * g_test_trap_assert_stderr:
+ * @serrpattern: a glob-style
+ * <link linkend="glib-Glob-style-pattern-matching">pattern</link>
+ *
+ * Assert that the stderr output of the last forked test
+ * matches @serrpattern. See g_test_trap_fork().
+ *
+ * Since: 2.16
+ */
+
+/**
+ * g_test_trap_assert_stderr_unmatched:
+ * @serrpattern: a glob-style
+ * <link linkend="glib-Glob-style-pattern-matching">pattern</link>
+ *
+ * Assert that the stderr output of the last forked test
+ * does not match @serrpattern. See g_test_trap_fork().
+ *
+ * Since: 2.16
+ */
+
+/**
+ * g_test_rand_bit:
+ *
+ * Get a reproducible random bit (0 or 1), see g_test_rand_int()
+ * for details on test case random numbers.
+ *
+ * Since: 2.16
+ */
+
+/**
+ * g_assert:
+ * @expr: the expression to check
+ *
+ * Debugging macro to terminate the application if the assertion
+ * fails. If the assertion fails (i.e. the expression is not true),
+ * an error message is logged and the application is terminated.
+ *
+ * The macro can be turned off in final releases of code by defining
+ * <envar>G_DISABLE_ASSERT</envar> when compiling the application.
+ */
+
+/**
+ * g_assert_not_reached:
+ *
+ * Debugging macro to terminate the application if it is ever
+ * reached. If it is reached, an error message is logged and the
+ * application is terminated.
+ *
+ * The macro can be turned off in final releases of code by defining
+ * <envar>G_DISABLE_ASSERT</envar> when compiling the application.
+ */
+
+/**
+ * g_assert_cmpstr:
+ * @s1: a string (may be %NULL)
+ * @cmp: The comparison operator to use.
+ * One of ==, !=, <, >, <=, >=.
+ * @s2: another string (may be %NULL)
+ *
+ * Debugging macro to terminate the application with a warning
+ * message if a string comparison fails. The strings are compared
+ * using g_strcmp0().
+ *
+ * The effect of <literal>g_assert_cmpstr (s1, op, s2)</literal> is
+ * the same as <literal>g_assert (g_strcmp0 (s1, s2) op 0)</literal>.
+ * The advantage of this macro is that it can produce a message that
+ * includes the actual values of @s1 and @s2.
+ *
+ * |[
+ * g_assert_cmpstr (mystring, ==, "fubar");
+ * ]|
+ *
+ * Since: 2.16
+ */
+
+/**
+ * g_assert_cmpint:
+ * @n1: an integer
+ * @cmp: The comparison operator to use.
+ * One of ==, !=, <, >, <=, >=.
+ * @n2: another integer
+ *
+ * Debugging macro to terminate the application with a warning
+ * message if an integer comparison fails.
+ *
+ * The effect of <literal>g_assert_cmpint (n1, op, n2)</literal> is
+ * the same as <literal>g_assert (n1 op n2)</literal>. The advantage
+ * of this macro is that it can produce a message that includes the
+ * actual values of @n1 and @n2.
+ *
+ * Since: 2.16
+ */
+
+/**
+ * g_assert_cmpuint:
+ * @n1: an unsigned integer
+ * @cmp: The comparison operator to use.
+ * One of ==, !=, <, >, <=, >=.
+ * @n2: another unsigned integer
+ *
+ * Debugging macro to terminate the application with a warning
+ * message if an unsigned integer comparison fails.
+ *
+ * The effect of <literal>g_assert_cmpuint (n1, op, n2)</literal> is
+ * the same as <literal>g_assert (n1 op n2)</literal>. The advantage
+ * of this macro is that it can produce a message that includes the
+ * actual values of @n1 and @n2.
+ *
+ * Since: 2.16
+ */
+
+/**
+ * g_assert_cmphex:
+ * @n1: an unsigned integer
+ * @cmp: The comparison operator to use.
+ * One of ==, !=, <, >, <=, >=.
+ * @n2: another unsigned integer
+ *
+ * Debugging macro to terminate the application with a warning
+ * message if an unsigned integer comparison fails.
+ *
+ * This is a variant of g_assert_cmpuint() that displays the numbers
+ * in hexadecimal notation in the message.
+ *
+ * Since: 2.16
+ */
+
+/**
+ * g_assert_cmpfloat:
+ * @n1: an floating point number
+ * @cmp: The comparison operator to use.
+ * One of ==, !=, <, >, <=, >=.
+ * @n2: another floating point number
+ *
+ * Debugging macro to terminate the application with a warning
+ * message if a floating point number comparison fails.
+ *
+ * The effect of <literal>g_assert_cmpfloat (n1, op, n2)</literal> is
+ * the same as <literal>g_assert (n1 op n2)</literal>. The advantage
+ * of this macro is that it can produce a message that includes the
+ * actual values of @n1 and @n2.
+ *
+ * Since: 2.16
+ */
+
+/**
+ * g_assert_no_error:
+ * @err: a #GError, possibly %NULL
+ *
+ * Debugging macro to terminate the application with a warning
+ * message if a method has returned a #GError.
+ *
+ * The effect of <literal>g_assert_no_error (err)</literal> is
+ * the same as <literal>g_assert (err == NULL)</literal>. The advantage
+ * of this macro is that it can produce a message that includes
+ * the error message and code.
+ *
+ * Since: 2.20
+ */
+
+/**
+ * g_assert_error:
+ * @err: a #GError, possibly %NULL
+ * @dom: the expected error domain (a #GQuark)
+ * @c: the expected error code
+ *
+ * Debugging macro to terminate the application with a warning
+ * message if a method has not returned the correct #GError.
+ *
+ * The effect of <literal>g_assert_error (err, dom, c)</literal> is
+ * the same as <literal>g_assert (err != NULL && err->domain
+ * == dom && err->code == c)</literal>. The advantage of this
+ * macro is that it can produce a message that includes the incorrect
+ * error message and code.
+ *
+ * This can only be used to test for a specific error. If you want to
+ * test that @err is set, but don't care what it's set to, just use
+ * <literal>g_assert (err != NULL)</literal>
+ *
+ * Since: 2.20
+ */
+
+/**
+ * GTestCase:
+ *
+ * An opaque structure representing a test case.
+ */
+
+/**
+ * GTestSuite:
+ *
+ * An opaque structure representing a test suite.
+ */
+
+
/* Global variable for storing assertion messages; this is the counterpart to
* glibc's (private) __abort_msg variable, and allows developers and crash
* analysis systems like Apport and ABRT to fish out assertion messages from
- * core dumps, instead of having to catch them on screen output. */
+ * core dumps, instead of having to catch them on screen output.
+ */
char *__glib_assert_msg = NULL;
/* --- structures --- */
static gchar *test_run_name = "";
static guint test_run_forks = 0;
static guint test_run_count = 0;
+static guint test_run_success = FALSE;
static guint test_skip_count = 0;
static GTimer *test_user_timer = NULL;
static double test_user_stamp = 0;
static GSList *test_paths = NULL;
+static GSList *test_paths_skipped = NULL;
static GTestSuite *test_suite_root = NULL;
static int test_trap_last_status = 0;
static int test_trap_last_pid = 0;
FALSE, /* test_perf */
FALSE, /* test_verbose */
FALSE, /* test_quiet */
+ TRUE, /* test_undefined */
};
const GTestConfig * const g_test_config_vars = &mutable_test_config_vars;
}
argv[i] = NULL;
}
+ else if (strcmp ("-s", argv[i]) == 0 || strncmp ("-s=", argv[i], 3) == 0)
+ {
+ gchar *equal = argv[i] + 2;
+ if (*equal == '=')
+ test_paths_skipped = g_slist_prepend (test_paths_skipped, equal + 1);
+ else if (i + 1 < argc)
+ {
+ argv[i++] = NULL;
+ test_paths_skipped = g_slist_prepend (test_paths_skipped, argv[i]);
+ }
+ argv[i] = NULL;
+ }
else if (strcmp ("-m", argv[i]) == 0 || strncmp ("-m=", argv[i], 3) == 0)
{
gchar *equal = argv[i] + 2;
mutable_test_config_vars.test_quick = TRUE;
mutable_test_config_vars.test_perf = FALSE;
}
+ else if (strcmp (mode, "undefined") == 0)
+ mutable_test_config_vars.test_undefined = TRUE;
+ else if (strcmp (mode, "no-undefined") == 0)
+ mutable_test_config_vars.test_undefined = FALSE;
else
g_error ("unknown test mode: -m %s", mode);
argv[i] = NULL;
" --verbose Run tests verbosely\n"
" -q, --quiet Run tests quietly\n"
" -p TESTPATH execute all tests matching TESTPATH\n"
+ " -s TESTPATH skip all tests matching TESTPATH\n"
" -m {perf|slow|thorough|quick} Execute tests according modes\n"
+ " -m {undefined|no-undefined} Execute tests according modes\n"
" --debug-log debug test logging output\n"
" -k, --keep-going gtester-specific argument\n"
" --GTestLogFD=N gtester-specific argument\n"
* Changed if any arguments were handled.
* @argv: Address of the @argv parameter of main().
* Any parameters understood by g_test_init() stripped before return.
- * @Varargs: Reserved for future extension. Currently, you must pass %NULL.
+ * @...: Reserved for future extension. Currently, you must pass %NULL.
*
* Initialize the GLib testing framework, e.g. by seeding the
* test random number generator, the name for g_get_prgname()
* </para></listitem>
* </varlistentry>
* <varlistentry>
- * <term><option>-m {perf|slow|thorough|quick}</option></term>
+ * <term><option>-m {perf|slow|thorough|quick|undefined|no-undefined}</option></term>
* <listitem><para>
* execute tests according to these test modes:
* <variablelist>
* quick tests, should run really quickly and give good coverage.
* </para></listitem>
* </varlistentry>
+ * <varlistentry>
+ * <term>undefined</term>
+ * <listitem><para>
+ * tests for undefined behaviour, may provoke programming errors
+ * under g_test_trap_fork() to check that appropriate assertions
+ * or warnings are given
+ * </para></listitem>
+ * </varlistentry>
+ * <varlistentry>
+ * <term>no-undefined</term>
+ * <listitem><para>
+ * avoid tests for undefined behaviour
+ * </para></listitem>
+ * </varlistentry>
* </variablelist>
* </para></listitem>
* </varlistentry>
* g_test_minimized_result:
* @minimized_quantity: the reported value
* @format: the format string of the report message
- * @Varargs: arguments to pass to the printf() function
+ * @...: arguments to pass to the printf() function
*
* Report the result of a performance or measurement test.
* The test should generally strive to minimize the reported
long double largs = minimized_quantity;
gchar *buffer;
va_list args;
+
va_start (args, format);
buffer = g_strdup_vprintf (format, args);
va_end (args);
+
g_test_log (G_TEST_LOG_MIN_RESULT, buffer, NULL, 1, &largs);
g_free (buffer);
}
* g_test_maximized_result:
* @maximized_quantity: the reported value
* @format: the format string of the report message
- * @Varargs: arguments to pass to the printf() function
+ * @...: arguments to pass to the printf() function
*
* Report the result of a performance or measurement test.
* The test should generally strive to maximize the reported
long double largs = maximized_quantity;
gchar *buffer;
va_list args;
+
va_start (args, format);
buffer = g_strdup_vprintf (format, args);
va_end (args);
+
g_test_log (G_TEST_LOG_MAX_RESULT, buffer, NULL, 1, &largs);
g_free (buffer);
}
{
gchar *buffer;
va_list args;
+
va_start (args, format);
buffer = g_strdup_vprintf (format, args);
va_end (args);
+
g_test_log (G_TEST_LOG_MESSAGE, buffer, NULL, 0, NULL);
g_free (buffer);
}
* case only.
* Bug URIs are constructed by appending a bug specific URI
* portion to @uri_pattern, or by replacing the special string
- * '%s' within @uri_pattern if that is present.
+ * '\%s' within @uri_pattern if that is present.
*
* Since: 2.16
*/
g_test_bug (const char *bug_uri_snippet)
{
char *c;
+
g_return_if_fail (test_uri_base != NULL);
g_return_if_fail (bug_uri_snippet != NULL);
+
c = strstr (test_uri_base, "%s");
if (c)
{
g_free (test_suite_root->name);
test_suite_root->name = g_strdup ("");
}
+
return test_suite_root;
}
* Create a new #GTestCase, named @test_name, this API is fairly
* low level, calling g_test_add() or g_test_add_func() is preferable.
* When this test is executed, a fixture structure of size @data_size
- * will be allocated and filled with 0s. Then data_setup() is called
+ * will be allocated and filled with 0s. Then @data_setup is called
* to initialize the fixture. After fixture setup, the actual test
- * function data_test() is called. Once the test run completed, the
- * fixture structure is torn down by calling data_teardown() and
+ * function @data_test is called. Once the test run completed, the
+ * fixture structure is torn down by calling @data_teardown and
* after that the memory is released.
*
* Splitting up a test run into fixture setup, test function and
* Since: 2.16
*/
GTestCase*
-g_test_create_case (const char *test_name,
- gsize data_size,
- gconstpointer test_data,
- void (*data_setup) (void),
- void (*data_test) (void),
- void (*data_teardown) (void))
+g_test_create_case (const char *test_name,
+ gsize data_size,
+ gconstpointer test_data,
+ GTestFixtureFunc data_setup,
+ GTestFixtureFunc data_test,
+ GTestFixtureFunc data_teardown)
{
GTestCase *tc;
+
g_return_val_if_fail (test_name != NULL, NULL);
g_return_val_if_fail (strchr (test_name, '/') == NULL, NULL);
g_return_val_if_fail (test_name[0] != 0, NULL);
g_return_val_if_fail (data_test != NULL, NULL);
+
tc = g_slice_new0 (GTestCase);
tc->name = g_strdup (test_name);
tc->test_data = (gpointer) test_data;
tc->fixture_setup = (void*) data_setup;
tc->fixture_test = (void*) data_test;
tc->fixture_teardown = (void*) data_teardown;
+
return tc;
}
+/**
+ * GTestFixtureFunc:
+ * @fixture: the test fixture
+ * @user_data: the data provided when registering the test
+ *
+ * The type used for functions that operate on test fixtures. This is
+ * used for the fixture setup and teardown functions as well as for the
+ * testcases themselves.
+ *
+ * @user_data is a pointer to the data that was given when registering
+ * the test case.
+ *
+ * @fixture will be a pointer to the area of memory allocated by the
+ * test framework, of the size requested. If the requested size was
+ * zero then @fixture will be equal to @user_data.
+ *
+ * Since: 2.28
+ */
void
-g_test_add_vtable (const char *testpath,
- gsize data_size,
- gconstpointer test_data,
- void (*data_setup) (void),
- void (*fixture_test_func) (void),
- void (*data_teardown) (void))
+g_test_add_vtable (const char *testpath,
+ gsize data_size,
+ gconstpointer test_data,
+ GTestFixtureFunc data_setup,
+ GTestFixtureFunc fixture_test_func,
+ GTestFixtureFunc data_teardown)
{
gchar **segments;
guint ui;
g_return_if_fail (testpath[0] == '/');
g_return_if_fail (fixture_test_func != NULL);
+ if (g_slist_find_custom (test_paths_skipped, testpath, (GCompareFunc)g_strcmp0))
+ return;
+
suite = g_test_get_root();
segments = g_strsplit (testpath, "/", -1);
for (ui = 0; segments[ui] != NULL; ui++)
}
/**
+ * g_test_fail:
+ *
+ * Indicates that a test failed. This function can be called
+ * multiple times from the same test. You can use this function
+ * if your test failed in a recoverable way.
+ *
+ * Do not use this function if the failure of a test could cause
+ * other tests to malfunction.
+ *
+ * Calling this function will not stop the test from running, you
+ * need to return from the test function yourself. So you can
+ * produce additional diagnostic messages or even continue running
+ * the test.
+ *
+ * If not called from inside a test, this function does nothing.
+ *
+ * Since: 2.30
+ **/
+void
+g_test_fail (void)
+{
+ test_run_success = FALSE;
+}
+
+/**
+ * GTestFunc:
+ *
+ * The type used for test case functions.
+ *
+ * Since: 2.28
+ */
+
+/**
* g_test_add_func:
* @testpath: Slash-separated test case path name for the test.
* @test_func: The test function to invoke for this test.
* Since: 2.16
*/
void
-g_test_add_func (const char *testpath,
- void (*test_func) (void))
+g_test_add_func (const char *testpath,
+ GTestFunc test_func)
{
g_return_if_fail (testpath != NULL);
g_return_if_fail (testpath[0] == '/');
g_return_if_fail (test_func != NULL);
- g_test_add_vtable (testpath, 0, NULL, NULL, test_func, NULL);
+ g_test_add_vtable (testpath, 0, NULL, NULL, (GTestFixtureFunc) test_func, NULL);
}
/**
+ * GTestDataFunc:
+ * @user_data: the data provided when registering the test
+ *
+ * The type used for test case functions that take an extra pointer
+ * argument.
+ *
+ * Since: 2.28
+ */
+
+/**
* g_test_add_data_func:
* @testpath: Slash-separated test case path name for the test.
* @test_data: Test data argument for the test function.
void
g_test_add_data_func (const char *testpath,
gconstpointer test_data,
- void (*test_func) (gconstpointer))
+ GTestDataFunc test_func)
{
g_return_if_fail (testpath != NULL);
g_return_if_fail (testpath[0] == '/');
g_return_if_fail (test_func != NULL);
- g_test_add_vtable (testpath, 0, test_data, NULL, (void(*)(void)) test_func, NULL);
+ g_test_add_vtable (testpath, 0, test_data, NULL, (GTestFixtureFunc) test_func, NULL);
}
/**
{
g_return_if_fail (suite != NULL);
g_return_if_fail (test_case != NULL);
+
suite->cases = g_slist_prepend (suite->cases, test_case);
}
{
g_return_if_fail (suite != NULL);
g_return_if_fail (nestedsuite != NULL);
+
suite->suites = g_slist_prepend (suite->suites, nestedsuite);
}
* @destroy_func: Destroy callback for teardown phase.
* @destroy_data: Destroy callback data.
*
- * This function enqueus a callback @destroy_func() to be executed
+ * This function enqueus a callback @destroy_func to be executed
* during the next test case teardown phase. This is most useful
* to auto destruct allocted test resources at the end of a test run.
* Resources are released in reverse queue order, that means enqueueing
gpointer destroy_data)
{
DestroyEntry *dentry;
+
g_return_if_fail (destroy_func != NULL);
+
dentry = g_slice_new0 (DestroyEntry);
dentry->destroy_func = destroy_func;
dentry->destroy_data = destroy_data;
test_destroy_queue = dentry;
}
-static int
+static gboolean
test_case_run (GTestCase *tc)
{
gchar *old_name = test_run_name, *old_base = g_strdup (test_uri_base);
+ gboolean success = TRUE;
+
test_run_name = g_strconcat (old_name, "/", tc->name, NULL);
if (++test_run_count <= test_skip_count)
g_test_log (G_TEST_LOG_SKIP_CASE, test_run_name, NULL, 0, NULL);
void *fixture;
g_test_log (G_TEST_LOG_START_CASE, test_run_name, NULL, 0, NULL);
test_run_forks = 0;
+ test_run_success = TRUE;
g_test_log_set_fatal_handler (NULL, NULL);
g_timer_start (test_run_timer);
fixture = tc->fixture_size ? g_malloc0 (tc->fixture_size) : tc->test_data;
if (tc->fixture_size)
g_free (fixture);
g_timer_stop (test_run_timer);
- largs[0] = 0; /* OK */
+ success = test_run_success;
+ test_run_success = FALSE;
+ largs[0] = success ? 0 : 1; /* OK */
largs[1] = test_run_forks;
largs[2] = g_timer_elapsed (test_run_timer, NULL);
g_test_log (G_TEST_LOG_STOP_CASE, NULL, NULL, G_N_ELEMENTS (largs), largs);
test_run_name = old_name;
g_free (test_uri_base);
test_uri_base = old_base;
- return 0;
+
+ return success;
}
static int
g_test_run_suite_internal (GTestSuite *suite,
const char *path)
{
- guint n_bad = 0, n_good = 0, bad_suite = 0, l;
+ guint n_bad = 0, l;
gchar *rest, *old_name = test_run_name;
GSList *slist, *reversed;
+
g_return_val_if_fail (suite != NULL, -1);
+
while (path[0] == '/')
path++;
l = strlen (path);
guint n = l ? strlen (tc->name) : 0;
if (l == n && strncmp (path, tc->name, n) == 0)
{
- n_good++;
- n_bad += test_case_run (tc) != 0;
+ if (!test_case_run (tc))
+ n_bad++;
}
}
g_slist_free (reversed);
GTestSuite *ts = slist->data;
guint n = l ? strlen (ts->name) : 0;
if (l == n && strncmp (path, ts->name, n) == 0)
- bad_suite += g_test_run_suite_internal (ts, rest ? rest : "") != 0;
+ n_bad += g_test_run_suite_internal (ts, rest ? rest : "");
}
g_slist_free (reversed);
g_free (test_run_name);
test_run_name = old_name;
- return n_bad || bad_suite;
+
+ return n_bad;
}
/**
g_test_run_suite (GTestSuite *suite)
{
guint n_bad = 0;
+
g_return_val_if_fail (g_test_config_vars->test_initialized, -1);
g_return_val_if_fail (g_test_run_once == TRUE, -1);
+
g_test_run_once = FALSE;
+
if (!test_paths)
test_paths = g_slist_prepend (test_paths, "");
while (test_paths)
path++;
if (!n) /* root suite, run unconditionally */
{
- n_bad += 0 != g_test_run_suite_internal (suite, path);
+ n_bad += g_test_run_suite_internal (suite, path);
continue;
}
/* regular suite, match path */
l = strlen (path);
l = rest ? MIN (l, rest - path) : l;
if ((!l || l == n) && strncmp (path, suite->name, n) == 0)
- n_bad += 0 != g_test_run_suite_internal (suite, rest ? rest : "");
+ n_bad += g_test_run_suite_internal (suite, rest ? rest : "");
}
+
return n_bad;
}
gpointer unused_data)
{
const gchar *strv[16];
+ gboolean fatal = FALSE;
gchar *msg;
guint i = 0;
+
if (log_domain)
{
strv[i++] = log_domain;
strv[i++] = "-";
}
if (log_level & G_LOG_FLAG_FATAL)
- strv[i++] = "FATAL-";
+ {
+ strv[i++] = "FATAL-";
+ fatal = TRUE;
+ }
if (log_level & G_LOG_FLAG_RECURSION)
strv[i++] = "RECURSIVE-";
if (log_level & G_LOG_LEVEL_ERROR)
strv[i++] = ": ";
strv[i++] = message;
strv[i++] = NULL;
+
msg = g_strjoinv ("", (gchar**) strv);
- g_test_log (G_TEST_LOG_ERROR, msg, NULL, 0, NULL);
+ g_test_log (fatal ? G_TEST_LOG_ERROR : G_TEST_LOG_MESSAGE, msg, NULL, 0, NULL);
g_log_default_handler (log_domain, log_level, message, unused_data);
+
g_free (msg);
}
{
char lstr[32];
char *s;
+
if (!message)
message = "code should not be reached";
g_snprintf (lstr, 32, "%d", line);
int line,
const char *func,
const char *expr,
- GError *error,
+ const GError *error,
GQuark error_domain,
int error_code)
{
*
* Compares @str1 and @str2 like strcmp(). Handles %NULL
* gracefully by sorting it before non-%NULL strings.
+ * Comparing two %NULL pointers returns 0.
*
* Returns: -1, 0 or 1, if @str1 is <, == or > than @str2.
*
}
}
}
- close (stdout_pipe[0]);
- close (stderr_pipe[0]);
- close (stdtst_pipe[0]);
+ if (stdout_pipe[0] != -1)
+ close (stdout_pipe[0]);
+ if (stderr_pipe[0] != -1)
+ close (stderr_pipe[0]);
+ if (stdtst_pipe[0] != -1)
+ close (stdtst_pipe[0]);
if (need_wait)
{
int status = 0;
* Since: 2.16
**/
/* --- macros docs END --- */
-
-#define __G_TEST_UTILS_C__
-#include "galiasdef.c"