/* See LICENSE file for copyright and license details. */ #include "common.h" #ifndef TEST LIBNORMALFORM_SENTENCE * (libnormalform_nimply)(LIBNORMALFORM_SENTENCE **xs) { LIBNORMALFORM_SENTENCE *t; size_t n = 0, i; while (xs[n]) n += 1; if (!n) { /* 0 ↛ x = 0, but 1 ↛ x = ¬x, so at least one argument is required */ errno = EDOM; return NULL; } /* a ↛ b ↛ c = a ↛ (b ↛ c) = (b ↛ c) ↚ a = (c ↚ b) ↚ a = c ↚ b ↚ a */ for (i = 0; i < n--; i++) { t = xs[i]; xs[i] = xs[n]; xs[n] = t; } return libnormalform_nif(xs); } #else #define NIMPLY(...) LIBNORMALFORM_NIMPLY(__VA_ARGS__) int main(void) { TEST_BEGIN; struct libnormalform_variable var1, var2, var3; LIBNORMALFORM_SENTENCE *a, *b, *v1, *v2, *v3; LIBNORMALFORM_SENTENCE *ts, *fs; ASSUME(v1 = libnormalform_variable(&var1)); ASSUME(v2 = libnormalform_variable(&var2)); ASSUME(v3 = libnormalform_variable(&var3)); ASSUME(ts = libnormalform_true()); ASSUME(fs = libnormalform_false()); #ifdef USE_CHECKED_VERSION errno = 0; ASSERT(!NIMPLY(REF(v1), NULL) && errno == 0); errno = 1; ASSERT(!NIMPLY(REF(v1), NULL) && errno == 1); errno = 0; ASSERT(!NIMPLY(NULL, REF(v1)) && errno == 0); errno = 1; ASSERT(!NIMPLY(NULL, REF(v1)) && errno == 1); errno = 0; ASSERT(!NIMPLY(NULL, NULL) && errno == 0); errno = 1; ASSERT(!NIMPLY(NULL, NULL) && errno == 1); #endif #define T REF(ts) #define F REF(fs) #define TV LIBNORMALFORM_TRUE #define FV LIBNORMALFORM_FALSE #define ASSERT_CONST(VALUE, ...)\ do {\ ASSUME(a = NIMPLY(__VA_ARGS__));\ ASSERT(a->type == TYPE_##VALUE);\ libnormalform_free(a);\ } while (0) #define ASSERT_EVAL2(VALUE, V1, V2)\ do {\ ASSUME(a = NIMPLY(REF(v1), REF(v2)));\ ASSERT(a->type != TYPE_TRUE && a->type != TYPE_FALSE);\ var1.value = V1##V;\ var2.value = V2##V;\ ASSERT(libnormalform_evaluate(a) == (int)LIBNORMALFORM_##VALUE);\ libnormalform_free(a);\ } while (0) #ifndef USE_TWO #if defined(__GNUC__) # pragma GCC diagnostic push # pragma GCC diagnostic ignored "-Wformat" #endif /* NIMPLY () -> EDOM */ errno = 0; ASSERT(!NIMPLY() && errno == EDOM); #if defined(__GNUC__) # pragma GCC diagnostic pop #endif ASSERT_CONST(TRUE, T); /* NIMPLY (TRUE) -> TRUE */ ASSERT_CONST(FALSE, F); /* NIMPLY (FALSE) -> FALSE */ #endif ASSERT_CONST(FALSE, F, F); /* NIMPLY (FALSE, FALSE) -> FALSE */ ASSERT_CONST(FALSE, F, T); /* NIMPLY (FALSE, TRUE) -> FALSE */ ASSERT_CONST(TRUE, T, F); /* NIMPLY (TRUE, FALSE) -> TRUE */ ASSERT_CONST(FALSE, T, T); /* NIMPLY (TRUE, TRUE) -> FALSE */ ASSERT_EVAL2(FALSE, F, F); /* NIMPLY (var(FALSE), var(FALSE)) => FALSE */ ASSERT_EVAL2(FALSE, F, T); /* NIMPLY (var(FALSE), var(TRUE)) => FALSE */ ASSERT_EVAL2(TRUE, T, F); /* NIMPLY (var(TRUE), var(FALSE)) => TRUE */ ASSERT_EVAL2(FALSE, T, T); /* NIMPLY (var(TRUE), var(TRUE)) => FALSE */ #ifndef USE_TWO /* NIMPLY (x) -> x */ ASSUME(a = NIMPLY(REF(v1))); ASSERT(a == v1); ASSERT(a->refcount == 2); libnormalform_free(a); #endif /* NIMPLY (x, y) -> NIF (y, x) */ ASSUME(a = NIMPLY(REF(v1), REF(v2))); ASSUME(b = libnormalform_nif2(REF(v2), REF(v1))); ASSERT_EQUAL(a, b); libnormalform_free(a); libnormalform_free(b); #ifndef USE_TWO /* NIMPLY (x, y, z) -> NIF (z, y, x) */ ASSUME(a = NIMPLY(REF(v1), REF(v2), REF(v3))); ASSUME(b = libnormalform_nifl(REF(v3), REF(v2), REF(v1), NULL)); ASSERT_EQUAL(a, b); libnormalform_free(a); libnormalform_free(b); /* NIMPLY (x, y) -> independence from NIMPLY (y, x) */ ASSUME(a = NIMPLY(REF(v1), REF(v2))); ASSUME(b = NIMPLY(REF(v2), REF(v1))); ASSERT_NOTEQUAL(a, b); libnormalform_free(a); libnormalform_free(b); #endif #undef T #undef F #undef TV #undef FV #undef ASSERT_CONST #undef ASSERT_EVAL2 libnormalform_free(v1); libnormalform_free(v2); libnormalform_free(v3); libnormalform_free(ts); libnormalform_free(fs); TEST_END; } #endif