/* memchr-1.c from the execute part of the gcc torture tests. */ #include #include #ifdef __SDCC #pragma disable_warning 147 #endif /* PR tree-optimization/86711 - wrong folding of memchr Verify that memchr() of arrays initialized with string literals where the nul doesn't fit in the array doesn't find the nul. */ extern void* memchr (const void*, int, size_t); static const char c = '1'; static const char s1[1] = "1"; static const char s4[4] = "1234"; static const char s4_2[2][4] = { "1234", "5678" }; static const char s5_3[3][5] = { "12345", "6789", "01234" }; volatile int v0 = 0; volatile int v1 = 1; volatile int v2 = 2; volatile int v3 = 3; volatile int v4 = 3; void test_narrow (void) { int i0 = 0; int i1 = i0 + 1; int i2 = i1 + 1; int i3 = i2 + 1; int i4 = i3 + 1; ASSERT (memchr ("" + 1, 0, 0) == 0); ASSERT (memchr (&c, 0, sizeof c) == 0); ASSERT (memchr (&c + 1, 0, sizeof c - 1) == 0); ASSERT (memchr (&c + i1, 0, sizeof c - i1) == 0); ASSERT (memchr (&c + v1, 0, sizeof c - v1) == 0); ASSERT (memchr (s1, 0, sizeof s1) == 0); ASSERT (memchr (s1 + 1, 0, sizeof s1 - 1) == 0); ASSERT (memchr (s1 + i1, 0, sizeof s1 - i1) == 0); ASSERT (memchr (s1 + v1, 0, sizeof s1 - v1) == 0); ASSERT (memchr (&s1, 0, sizeof s1) == 0); ASSERT (memchr (&s1 + 1, 0, sizeof s1 - 1) == 0); ASSERT (memchr (&s1 + i1, 0, sizeof s1 - i1) == 0); ASSERT (memchr (&s1 + v1, 0, sizeof s1 - v1) == 0); #if !defined(__SDCC_pdk14) && !defined(__SDCC_pdk15) // Lack of memory ASSERT (memchr (&s1[0], 0, sizeof s1) == 0); ASSERT (memchr (&s1[0] + 1, 0, sizeof s1 - 1) == 0); ASSERT (memchr (&s1[0] + i1, 0, sizeof s1 - i1) == 0); ASSERT (memchr (&s1[0] + v1, 0, sizeof s1 - v1) == 0); ASSERT (memchr (&s1[i0], 0, sizeof s1) == 0); ASSERT (memchr (&s1[i0] + 1, 0, sizeof s1 - 1) == 0); ASSERT (memchr (&s1[i0] + i1, 0, sizeof s1 - i1) == 0); ASSERT (memchr (&s1[i0] + v1, 0, sizeof s1 - v1) == 0); ASSERT (memchr (&s1[v0], 0, sizeof s1) == 0); ASSERT (memchr (&s1[v0] + 1, 0, sizeof s1 - 1) == 0); ASSERT (memchr (&s1[v0] + i1, 0, sizeof s1 - i1) == 0); ASSERT (memchr (&s1[v0] + v1, 0, sizeof s1 - v1) == 0); ASSERT (memchr (s4 + i0, 0, sizeof s4 - i0) == 0); ASSERT (memchr (s4 + i1, 0, sizeof s4 - i1) == 0); ASSERT (memchr (s4 + i2, 0, sizeof s4 - i2) == 0); ASSERT (memchr (s4 + i3, 0, sizeof s4 - i3) == 0); ASSERT (memchr (s4 + i4, 0, sizeof s4 - i4) == 0); ASSERT (memchr (s4 + v0, 0, sizeof s4 - v0) == 0); ASSERT (memchr (s4 + v1, 0, sizeof s4 - v1) == 0); ASSERT (memchr (s4 + v2, 0, sizeof s4 - v2) == 0); ASSERT (memchr (s4 + v3, 0, sizeof s4 - v3) == 0); ASSERT (memchr (s4 + v4, 0, sizeof s4 - v4) == 0); ASSERT (memchr (s4_2, 0, sizeof s4_2) == 0); ASSERT (memchr (s4_2[0], 0, sizeof s4_2[0]) == 0); ASSERT (memchr (s4_2[1], 0, sizeof s4_2[1]) == 0); ASSERT (memchr (s4_2[0] + 1, 0, sizeof s4_2[0] - 1) == 0); ASSERT (memchr (s4_2[1] + 2, 0, sizeof s4_2[1] - 2) == 0); ASSERT (memchr (s4_2[1] + 3, 0, sizeof s4_2[1] - 3) == 0); ASSERT (memchr (s4_2[v0], 0, sizeof s4_2[v0]) == 0); ASSERT (memchr (s4_2[v0] + 1, 0, sizeof s4_2[v0] - 1) == 0); /* The following calls must find the nul. */ ASSERT (memchr ("", 0, 1) != 0); ASSERT (memchr (s5_3, 0, sizeof s5_3) == &s5_3[1][4]); ASSERT (memchr (&s5_3[0][0] + i0, 0, sizeof s5_3 - i0) == &s5_3[1][4]); ASSERT (memchr (&s5_3[0][0] + i1, 0, sizeof s5_3 - i1) == &s5_3[1][4]); ASSERT (memchr (&s5_3[0][0] + i2, 0, sizeof s5_3 - i2) == &s5_3[1][4]); ASSERT (memchr (&s5_3[0][0] + i4, 0, sizeof s5_3 - i4) == &s5_3[1][4]); ASSERT (memchr (&s5_3[1][i0], 0, sizeof s5_3[1] - i0) == &s5_3[1][4]); #endif } void test_wide (void) { } void testTortureExecute (void) { test_narrow (); test_wide (); }