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#ifndef PK_PKTST_H
#define PK_PKTST_H
#include "pkmacros.h" /* deleteme */
typedef int (pk_test_func)();
struct pk_test_group;
typedef struct pk_test_group *(pk_test_group_get)();
typedef void (pk_test_group_setup)();
typedef void (pk_test_group_teardown)();
typedef void (pk_test_setup)();
typedef void (pk_test_teardown)();
struct pk_test {
const char *title;
pk_test_func *func;
int expected_result;
};
struct pk_test_group {
const char *title;
pk_test_group_setup *group_setup;
pk_test_group_teardown *group_teardown;
pk_test_setup *test_setup;
pk_test_teardown *test_teardown;
struct pk_test *tests;
unsigned char n_tests;
};
void pk_test_run_test_groups(pk_test_group_get **group_get_fns, unsigned long n_groups);
#if defined(__cplusplus)
#include <iostream>
#define PK_TEST_ASSERT_BODY(expected, value, comp) \
std::cerr << "[pk-test] "; \
std::cerr << "(" << __FILE__ << ":" << __LINE__ << ")"; \
std::cerr << PK_CLR_FG_RED " Failed " PK_CLR_RESET; \
std::cerr << #comp " , Condition: \""; \
std::cerr << PK_CLR_FG_BRIGHT_BLUE << #value << PK_CLR_RESET; \
std::cerr << "\", Expected: \""; \
std::cerr << PK_CLR_FG_GREEN << (expected) << PK_CLR_RESET; \
std::cerr << "\", Got: \""; \
std::cerr << PK_CLR_FG_RED << (value) << PK_CLR_RESET; \
std::cerr << "\"." << std::endl;
template<typename T>
inline bool flt_equal(T a, T b, T epsilon) {
return abs(a - b) < epsilon;
}
#else /* __cplusplus */
#include <stdio.h>
#define PK_TEST_ASSERT_BODY(expected, value, comp) \
fprintf(stderr,"[pk-test] (%s:%i) ", __FILE__, __LINE__); \
fprintf(stderr,"%s ", PK_CLR_FG_RED "Failed" PK_CLR_RESET); \
fprintf(stderr,#comp " : Test condition \""); \
fprintf(stderr,"%s\"\n",PK_CLR_FG_BRIGHT_BLUE #value PK_CLR_RESET);
#endif /* __cplusplus */
#define PK_TEST_ASSERT_EQ(expected, value) { \
if ((value) != (expected)) { \
PK_TEST_ASSERT_BODY(expected, value, ==) \
} \
}
#define PK_TEST_ASSERT_EQ_RET(expected, value) { \
if ((value) != (expected)) { \
PK_TEST_ASSERT_BODY(expected, value, ==) \
return -1; \
} \
}
#define PK_TEST_ASSERT_EQ_EXIT(expected, value) { \
if ((value) != (expected)) { \
PK_TEST_ASSERT_BODY(expected, value, ==) \
exit(1); \
} \
}
#define PK_TEST_ASSERT_NEQ(expected, value) { \
if ((value) == (expected)) { \
PK_TEST_ASSERT_BODY(expected, value, !=) \
} \
}
#define PK_TEST_ASSERT_NEQ_RET(expected, value) { \
if ((value) == (expected)) { \
PK_TEST_ASSERT_BODY(expected, value, !=) \
return -1; \
} \
}
#define PK_TEST_ASSERT_NEQ_EXIT(expected, value) { \
if ((value) == (expected)) { \
PK_TEST_ASSERT_BODY(expected, value, !=) \
exit(1); \
} \
}
#define PK_TEST_ASSERT_GT(expected, value) { \
if ((value) > (expected)) { \
PK_TEST_ASSERT_BODY(expected, value, >) \
} \
}
#define PK_TEST_ASSERT_GT_RET(expected, value) { \
if ((value) > (expected)) { \
PK_TEST_ASSERT_BODY(expected, value, >) \
return -1; \
} \
}
#define PK_TEST_ASSERT_GT_EXIT(expected, value) { \
if ((value) > (expected)) { \
PK_TEST_ASSERT_BODY(expected, value, >) \
exit(1); \
} \
}
#define PK_TEST_ASSERT_LT(expected, value) { \
if ((value) > (expected)) { \
PK_TEST_ASSERT_BODY(expected, value, <) \
} \
}
#define PK_TEST_ASSERT_LT_RET(expected, value) { \
if ((value) > (expected)) { \
PK_TEST_ASSERT_BODY(expected, value, <) \
return -1; \
} \
}
#define PK_TEST_ASSERT_LT_EXIT(expected, value) { \
if ((value) > (expected)) { \
PK_TEST_ASSERT_BODY(expected, value, <) \
exit(1); \
} \
}
#define PK_TEST_ASSERT_GTE(expected, value) { \
if ((value) >= (expected)) { \
PK_TEST_ASSERT_BODY(expected, value, >=) \
} \
}
#define PK_TEST_ASSERT_GTE_RET(expected, value) { \
if ((value) >= (expected)) { \
PK_TEST_ASSERT_BODY(expected, value, >=) \
return -1; \
} \
}
#define PK_TEST_ASSERT_GTE_EXIT(expected, value) { \
if ((value) >= (expected)) { \
PK_TEST_ASSERT_BODY(expected, value, >=) \
exit(1); \
} \
}
#define PK_TEST_ASSERT_LTE(expected, value) { \
if ((value) <= (expected)) { \
PK_TEST_ASSERT_BODY(expected, value, <=) \
} \
}
#define PK_TEST_ASSERT_LTE_RET(expected, value) { \
if ((value) <= (expected)) { \
PK_TEST_ASSERT_BODY(expected, value, <=) \
return -1; \
} \
}
#define PK_TEST_ASSERT_LTE_EXIT(expected, value) { \
if ((value) <= (expected)) { \
PK_TEST_ASSERT_BODY(expected, value, <=) \
exit(1); \
} \
}
#ifdef PK_IMPL_TST
#include "./pktmr.h" /* deleteme */
void pk_test_run_test_groups(pk_test_group_get **group_get_fns, unsigned long n_groups) {
int result;
unsigned long i;
unsigned int k, pass_count, total_test_count, total_test_pass_count, test_group_count, test_group_pass_count;
double elapsed_ms, group_ms, total_ms;
struct pk_tmr func_tmr, total_tmr;
struct pk_test_group *group;
fprintf(stdout, "\r\n");
fprintf(stdout, "[pk-test] Begin..\n");
fprintf(stdout, "[pk-test] Running %04ld tests..\n", n_groups);
i = 0;
total_ms = 0;
total_test_count = 0;
total_test_pass_count = 0;
test_group_count = 0;
test_group_pass_count = 0;
pk_tmr_start(total_tmr);
fprintf(stdout, "\r\n");
for (i = 0; i < n_groups; ++i) {
test_group_count += 1;
pass_count = 0;
group_ms = 0;
group = group_get_fns[i]();
fprintf(stdout, "[pk-test][%s] Begin..\n", group->title);
if (group->group_setup != NULL) (group->group_setup)();
for (k = 0; k < group->n_tests; ++k) {
total_test_count += 1;
fprintf(stdout, "[pk-test][%s][%s] Begin..\n", group->title, group->tests[k].title);
if (group->test_setup != NULL) (group->test_setup)();
pk_tmr_start(func_tmr);
result = (group->tests[k].func)();
pk_tmr_stop(func_tmr);
elapsed_ms = pk_tmr_duration_dbl_mili(func_tmr);
fprintf(stdout, "[pk-test][%s][%s] End.\n", group->title, group->tests[k].title);
group_ms += elapsed_ms;
total_ms += elapsed_ms;
fprintf(stdout, "[pk-test][%s][%s] Elapsed ms: '%f'.\n", group->title, group->tests[k].title, elapsed_ms);
if (result == group->tests[k].expected_result){
total_test_pass_count += 1;
pass_count += 1;
fprintf(stdout, "[pk-test][%s][%s] %sPassed.%s\n", group->title, group->tests[k].title, PK_CLR_FG_GREEN, PK_CLR_RESET);
} else {
fprintf(stdout, "[pk-test][%s][%s] %sFailed.%s\n", group->title, group->tests[k].title, PK_CLR_FG_RED, PK_CLR_RESET);
fprintf(stdout, "[pk-test][%s][%s] Expected: '" PK_CLR_FG_GREEN "%i" PK_CLR_RESET "', Got: '" PK_CLR_FG_RED "%i" PK_CLR_RESET "'.\n", group->title, group->tests[k].title, group->tests[k].expected_result, result);
}
if (group->test_teardown != NULL) (group->test_teardown)();
}
if (group->group_teardown != NULL) (group->group_teardown)();
fprintf(stdout, "[pk-test][%s] End.\n", group->title);
fprintf(stdout, "[pk-test][%s] Tests completed: ( %s%04d%s / %04d ).\n", group->title, pass_count == group->n_tests ? PK_CLR_FG_GREEN : PK_CLR_FG_RED, pass_count, PK_CLR_RESET, group->n_tests);
fprintf(stdout, "[pk-test][%s] Elapsed ms: '%f'.\n\n", group->title, group_ms);
if (pass_count == group->n_tests) {
test_group_pass_count += 1;
}
}
pk_tmr_stop(total_tmr);
fprintf(stdout, "[pk-test] End.\n");
fprintf(stdout, "[pk-test] Tests completed: ( %s%04d%s / %04d ).\n", total_test_count == total_test_pass_count ? PK_CLR_FG_GREEN : PK_CLR_FG_RED, total_test_pass_count, PK_CLR_RESET, total_test_count);
fprintf(stdout, "[pk-test] Test groups completed: ( %s%04d%s / %04d ).\n", test_group_count == test_group_pass_count ? PK_CLR_FG_GREEN : PK_CLR_FG_RED, test_group_pass_count, PK_CLR_RESET, test_group_count);
fprintf(stdout, "[pk-test] Elapsed ms: '%f' (test fn sum).\n", total_ms);
fprintf(stdout, "[pk-test] Elapsed ms: '%f' (actual).\n\n", pk_tmr_duration_dbl_mili(total_tmr));
}
#endif /* PK_IMPL_TST */
#endif /* PK_PKTST_H */
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