/* * Copyright (c) 2015 Wind River Systems, Inc. * Copyright (c) 2018 Intel Corporation * * SPDX-License-Identifier: Apache-2.0 */ #include /* Built-time math test. Zephyr code depends on a standard C ABI with * 2's complement signed math. As this isn't technically guaranteed * by the compiler or language standard, validate it explicitly here. */ /* Recent GCC's can detect integer overflow in static expressions and * will warn about it heplfully. But obviously integer overflow is * the whole point here, so turn that warning off. */ #ifdef __GNUC__ #pragma GCC diagnostic ignored "-Woverflow" #endif /* Two's complement negation check: "-N" must equal "(~N)+1" */ #define NEG_CHECK(T, N) BUILD_ASSERT((-((T)N)) == (~((T)N)) + 1) /* Checks that MAX+1==MIN in the given type */ #define ROLLOVER_CHECK(T, MAX, MIN) BUILD_ASSERT((T)((T)1 + (T)MAX) == (T)MIN) #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Winteger-overflow" #endif ROLLOVER_CHECK(unsigned int, 0xffffffff, 0); ROLLOVER_CHECK(unsigned short, 0xffff, 0); ROLLOVER_CHECK(unsigned char, 0xff, 0); NEG_CHECK(signed char, 1); NEG_CHECK(signed char, 0); NEG_CHECK(signed char, -1); NEG_CHECK(signed char, 0x80); NEG_CHECK(signed char, 0x7f); ROLLOVER_CHECK(signed char, 127, -128); NEG_CHECK(short, 1); NEG_CHECK(short, 0); NEG_CHECK(short, -1); NEG_CHECK(short, 0x8000); NEG_CHECK(short, 0x7fff); ROLLOVER_CHECK(short, 32767, -32768); NEG_CHECK(int, 1); NEG_CHECK(int, 0); NEG_CHECK(int, -1); NEG_CHECK(int, 0x80000000); NEG_CHECK(int, 0x7fffffff); ROLLOVER_CHECK(int, 2147483647, -2147483648); #ifdef __clang__ #pragma clang diagnostic pop #endif /** * @addtogroup kernel_common_tests * @{ */ /** * @brief Test integer arithmetic operations * * @details Test multiplication and division of two * integers */ void test_intmath(void) { /* * Declaring volatile so the compiler doesn't try to optimize any * of the math away at build time */ volatile u64_t bignum, ba, bb; volatile u32_t num, a, b; ba = 0x00000012ABCDEF12ULL; bb = 0x0000001000000111ULL; bignum = ba * bb; zassert_true((bignum == 0xbcdf0509369bf232ULL), "64-bit multiplication failed"); a = 30000U; b = 5872U; num = a * b; zassert_true((num == 176160000U), "32-bit multiplication failed"); a = 234424432U; b = 98982U; num = a / b; zassert_true((num == 2368U), "32-bit division failed"); } /** * @} */ void test_main(void) { ztest_test_suite(intmath, ztest_unit_test(test_intmath) ); ztest_run_test_suite(intmath); }