490 lines
14 KiB
C++
490 lines
14 KiB
C++
/*
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* Copyright (c) 2019 Oticon A/S
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*
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* SPDX-License-Identifier: Apache-2.0
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*/
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#include <ztest.h>
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#include <sys/util.h>
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#include <string.h>
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/**
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* @brief Test of u8_to_dec
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*
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* This test verifies conversion of various input values.
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*
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*/
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static void test_u8_to_dec(void)
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{
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char text[4];
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uint8_t len;
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len = u8_to_dec(text, sizeof(text), 0);
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zassert_equal(len, 1, "Length of 0 is not 1");
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zassert_equal(strcmp(text, "0"), 0,
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"Value=0 is not converted to \"0\"");
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len = u8_to_dec(text, sizeof(text), 1);
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zassert_equal(len, 1, "Length of 1 is not 1");
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zassert_equal(strcmp(text, "1"), 0,
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"Value=1 is not converted to \"1\"");
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len = u8_to_dec(text, sizeof(text), 11);
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zassert_equal(len, 2, "Length of 11 is not 2");
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zassert_equal(strcmp(text, "11"), 0,
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"Value=10 is not converted to \"11\"");
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len = u8_to_dec(text, sizeof(text), 100);
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zassert_equal(len, 3, "Length of 100 is not 3");
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zassert_equal(strcmp(text, "100"), 0,
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"Value=100 is not converted to \"100\"");
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len = u8_to_dec(text, sizeof(text), 101);
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zassert_equal(len, 3, "Length of 101 is not 3");
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zassert_equal(strcmp(text, "101"), 0,
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"Value=101 is not converted to \"101\"");
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len = u8_to_dec(text, sizeof(text), 255);
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zassert_equal(len, 3, "Length of 255 is not 3");
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zassert_equal(strcmp(text, "255"), 0,
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"Value=255 is not converted to \"255\"");
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memset(text, 0, sizeof(text));
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len = u8_to_dec(text, 2, 123);
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zassert_equal(len, 2,
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"Length of converted value using 2 byte buffer isn't 2");
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zassert_equal(
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strcmp(text, "12"), 0,
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"Value=123 is not converted to \"12\" using 2-byte buffer");
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memset(text, 0, sizeof(text));
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len = u8_to_dec(text, 1, 123);
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zassert_equal(len, 1,
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"Length of converted value using 1 byte buffer isn't 1");
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zassert_equal(
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strcmp(text, "1"), 0,
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"Value=123 is not converted to \"1\" using 1-byte buffer");
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memset(text, 0, sizeof(text));
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len = u8_to_dec(text, 0, 123);
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zassert_equal(len, 0,
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"Length of converted value using 0 byte buffer isn't 0");
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}
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#define TEST_DEFINE_1 1
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#define TEST_DEFINE_0 0
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void test_COND_CODE_1(void)
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{
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/* Test validates that expected code has been injected. Failure would
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* be seen in compilation (lack of variable or ununsed variable.
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*/
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COND_CODE_1(1, (uint32_t x0 = 1;), (uint32_t y0;))
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zassert_true((x0 == 1), NULL);
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COND_CODE_1(NOT_EXISTING_DEFINE, (uint32_t x1 = 1;), (uint32_t y1 = 1;))
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zassert_true((y1 == 1), NULL);
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COND_CODE_1(TEST_DEFINE_1, (uint32_t x2 = 1;), (uint32_t y2 = 1;))
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zassert_true((x2 == 1), NULL);
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COND_CODE_1(2, (uint32_t x3 = 1;), (uint32_t y3 = 1;))
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zassert_true((y3 == 1), NULL);
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}
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void test_COND_CODE_0(void)
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{
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/* Test validates that expected code has been injected. Failure would
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* be seen in compilation (lack of variable or ununsed variable.
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*/
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COND_CODE_0(0, (uint32_t x0 = 1;), (uint32_t y0;))
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zassert_true((x0 == 1), NULL);
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COND_CODE_0(NOT_EXISTING_DEFINE, (uint32_t x1 = 1;), (uint32_t y1 = 1;))
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zassert_true((y1 == 1), NULL);
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COND_CODE_0(TEST_DEFINE_0, (uint32_t x2 = 1;), (uint32_t y2 = 1;))
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zassert_true((x2 == 1), NULL);
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COND_CODE_0(2, (uint32_t x3 = 1;), (uint32_t y3 = 1;))
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zassert_true((y3 == 1), NULL);
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}
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#undef ZERO
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#undef SEVEN
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#undef A_BUILD_ERROR
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#define ZERO 0
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#define SEVEN 7
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#define A_BUILD_ERROR (this would be a build error if you used || or &&)
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void test_UTIL_OR(void)
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{
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zassert_equal(UTIL_OR(SEVEN, A_BUILD_ERROR), 7, NULL);
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zassert_equal(UTIL_OR(7, 0), 7, NULL);
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zassert_equal(UTIL_OR(SEVEN, ZERO), 7, NULL);
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zassert_equal(UTIL_OR(0, 7), 7, NULL);
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zassert_equal(UTIL_OR(ZERO, SEVEN), 7, NULL);
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zassert_equal(UTIL_OR(0, 0), 0, NULL);
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zassert_equal(UTIL_OR(ZERO, ZERO), 0, NULL);
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}
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void test_UTIL_AND(void)
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{
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zassert_equal(UTIL_AND(ZERO, A_BUILD_ERROR), 0, NULL);
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zassert_equal(UTIL_AND(7, 0), 0, NULL);
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zassert_equal(UTIL_AND(SEVEN, ZERO), 0, NULL);
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zassert_equal(UTIL_AND(0, 7), 0, NULL);
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zassert_equal(UTIL_AND(ZERO, SEVEN), 0, NULL);
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zassert_equal(UTIL_AND(0, 0), 0, NULL);
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zassert_equal(UTIL_AND(ZERO, ZERO), 0, NULL);
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zassert_equal(UTIL_AND(7, 7), 7, NULL);
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zassert_equal(UTIL_AND(7, SEVEN), 7, NULL);
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zassert_equal(UTIL_AND(SEVEN, 7), 7, NULL);
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zassert_equal(UTIL_AND(SEVEN, SEVEN), 7, NULL);
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}
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void test_IF_ENABLED(void)
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{
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#define test_IF_ENABLED_FLAG_A 1
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#define test_IF_ENABLED_FLAG_B 0
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IF_ENABLED(test_IF_ENABLED_FLAG_A, (goto skipped;))
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/* location should be skipped if IF_ENABLED macro is correct. */
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zassert_false(true, "location should be skipped");
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skipped:
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IF_ENABLED(test_IF_ENABLED_FLAG_B, (zassert_false(true, "");))
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IF_ENABLED(test_IF_ENABLED_FLAG_C, (zassert_false(true, "");))
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zassert_true(true, "");
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#undef test_IF_ENABLED_FLAG_A
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#undef test_IF_ENABLED_FLAG_B
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}
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void test_LISTIFY(void)
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{
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int ab0 = 1;
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int ab1 = 1;
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#define A_PTR(x, name0, name1) &UTIL_CAT(UTIL_CAT(name0, name1), x)
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int *a[] = { LISTIFY(2, A_PTR, (,), a, b) };
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zassert_equal(ARRAY_SIZE(a), 2, NULL);
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zassert_equal(a[0], &ab0, NULL);
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zassert_equal(a[1], &ab1, NULL);
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}
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void test_MACRO_MAP_CAT(void)
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{
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int item_a_item_b_item_c_ = 1;
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#undef FOO
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#define FOO(x) item_##x##_
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zassert_equal(MACRO_MAP_CAT(FOO, a, b, c), 1, "MACRO_MAP_CAT");
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#undef FOO
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}
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static int inc_func(void)
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{
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static int a = 1;
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return a++;
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}
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/* Test checks if @ref Z_MAX, @ref Z_MIN and @ref Z_CLAMP return correct result
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* and perform single evaluation of input arguments.
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*/
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static void test_z_max_z_min_z_clamp(void)
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{
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zassert_equal(Z_MAX(inc_func(), 0), 1, "Unexpected macro result");
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/* Z_MAX should have call inc_func only once */
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zassert_equal(inc_func(), 2, "Unexpected return value");
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zassert_equal(Z_MIN(inc_func(), 2), 2, "Unexpected macro result");
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/* Z_MIN should have call inc_func only once */
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zassert_equal(inc_func(), 4, "Unexpected return value");
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zassert_equal(Z_CLAMP(inc_func(), 1, 3), 3, "Unexpected macro result");
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/* Z_CLAMP should have call inc_func only once */
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zassert_equal(inc_func(), 6, "Unexpected return value");
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zassert_equal(Z_CLAMP(inc_func(), 10, 15), 10,
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"Unexpected macro result");
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/* Z_CLAMP should have call inc_func only once */
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zassert_equal(inc_func(), 8, "Unexpected return value");
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}
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static void test_CLAMP(void)
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{
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zassert_equal(CLAMP(5, 3, 7), 5, "Unexpected clamp result");
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zassert_equal(CLAMP(3, 3, 7), 3, "Unexpected clamp result");
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zassert_equal(CLAMP(7, 3, 7), 7, "Unexpected clamp result");
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zassert_equal(CLAMP(1, 3, 7), 3, "Unexpected clamp result");
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zassert_equal(CLAMP(8, 3, 7), 7, "Unexpected clamp result");
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zassert_equal(CLAMP(-5, -7, -3), -5, "Unexpected clamp result");
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zassert_equal(CLAMP(-9, -7, -3), -7, "Unexpected clamp result");
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zassert_equal(CLAMP(1, -7, -3), -3, "Unexpected clamp result");
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zassert_equal(CLAMP(0xffffffffaULL, 0xffffffff0ULL, 0xfffffffffULL),
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0xffffffffaULL, "Unexpected clamp result");
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}
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static void test_IN_RANGE(void)
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{
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zassert_true(IN_RANGE(0, 0, 0), "Unexpected IN_RANGE result");
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zassert_true(IN_RANGE(1, 0, 1), "Unexpected IN_RANGE result");
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zassert_true(IN_RANGE(1, 0, 2), "Unexpected IN_RANGE result");
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zassert_true(IN_RANGE(-1, -2, 2), "Unexpected IN_RANGE result");
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zassert_true(IN_RANGE(-3, -5, -1), "Unexpected IN_RANGE result");
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zassert_true(IN_RANGE(0, 0, UINT64_MAX), "Unexpected IN_RANGE result");
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zassert_true(IN_RANGE(UINT64_MAX, 0, UINT64_MAX), "Unexpected IN_RANGE result");
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zassert_true(IN_RANGE(0, INT64_MIN, INT64_MAX), "Unexpected IN_RANGE result");
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zassert_true(IN_RANGE(INT64_MIN, INT64_MIN, INT64_MAX), "Unexpected IN_RANGE result");
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zassert_true(IN_RANGE(INT64_MAX, INT64_MIN, INT64_MAX), "Unexpected IN_RANGE result");
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zassert_false(IN_RANGE(5, 0, 2), "Unexpected IN_RANGE result");
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zassert_false(IN_RANGE(5, 10, 0), "Unexpected IN_RANGE result");
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zassert_false(IN_RANGE(-1, 0, 1), "Unexpected IN_RANGE result");
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}
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static void test_FOR_EACH(void)
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{
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#define FOR_EACH_MACRO_TEST(arg) *buf++ = arg
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uint8_t array[3] = {0};
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uint8_t *buf = array;
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FOR_EACH(FOR_EACH_MACRO_TEST, (;), 1, 2, 3);
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zassert_equal(array[0], 1, "Unexpected value %d", array[0]);
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zassert_equal(array[1], 2, "Unexpected value %d", array[1]);
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zassert_equal(array[2], 3, "Unexpected value %d", array[2]);
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}
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static void test_FOR_EACH_NONEMPTY_TERM(void)
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{
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#define SQUARE(arg) (arg * arg)
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#define SWALLOW_VA_ARGS_1(...) EMPTY
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#define SWALLOW_VA_ARGS_2(...)
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#define REPEAT_VA_ARGS(...) __VA_ARGS__
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uint8_t array[] = {
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FOR_EACH_NONEMPTY_TERM(SQUARE, (,))
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FOR_EACH_NONEMPTY_TERM(SQUARE, (,),)
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FOR_EACH_NONEMPTY_TERM(SQUARE, (,), ,)
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FOR_EACH_NONEMPTY_TERM(SQUARE, (,), EMPTY, EMPTY)
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FOR_EACH_NONEMPTY_TERM(SQUARE, (,), SWALLOW_VA_ARGS_1(a, b))
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FOR_EACH_NONEMPTY_TERM(SQUARE, (,), SWALLOW_VA_ARGS_2(c, d))
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FOR_EACH_NONEMPTY_TERM(SQUARE, (,), 1)
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FOR_EACH_NONEMPTY_TERM(SQUARE, (,), 2, 3)
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FOR_EACH_NONEMPTY_TERM(SQUARE, (,), REPEAT_VA_ARGS(4))
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FOR_EACH_NONEMPTY_TERM(SQUARE, (,), REPEAT_VA_ARGS(5, 6))
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255
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};
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size_t size = ARRAY_SIZE(array);
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zassert_equal(size, 7, "Unexpected size %d", size);
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zassert_equal(array[0], 1, "Unexpected value %d", array[0]);
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zassert_equal(array[1], 4, "Unexpected value %d", array[1]);
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zassert_equal(array[2], 9, "Unexpected value %d", array[2]);
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zassert_equal(array[3], 16, "Unexpected value %d", array[3]);
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zassert_equal(array[4], 25, "Unexpected value %d", array[4]);
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zassert_equal(array[5], 36, "Unexpected value %d", array[5]);
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zassert_equal(array[6], 255, "Unexpected value %d", array[6]);
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}
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static void fsum(uint32_t incr, uint32_t *sum)
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{
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*sum = *sum + incr;
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}
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static void test_FOR_EACH_FIXED_ARG(void)
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{
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uint32_t sum = 0;
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FOR_EACH_FIXED_ARG(fsum, (;), &sum, 1, 2, 3);
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zassert_equal(sum, 6, "Unexpected value %d", sum);
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}
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static void test_FOR_EACH_IDX(void)
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{
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#define FOR_EACH_IDX_MACRO_TEST(n, arg) uint8_t a##n = arg
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FOR_EACH_IDX(FOR_EACH_IDX_MACRO_TEST, (;), 1, 2, 3);
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zassert_equal(a0, 1, "Unexpected value %d", a0);
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zassert_equal(a1, 2, "Unexpected value %d", a1);
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zassert_equal(a2, 3, "Unexpected value %d", a2);
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#define FOR_EACH_IDX_MACRO_TEST2(n, arg) array[n] = arg
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uint8_t array[32] = {0};
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FOR_EACH_IDX(FOR_EACH_IDX_MACRO_TEST2, (;), 1, 2, 3, 4, 5, 6, 7, 8,
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9, 10, 11, 12, 13, 14, 15);
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for (int i = 0; i < 15; i++) {
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zassert_equal(array[i], i + 1,
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"Unexpected value: %d", array[i]);
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}
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zassert_equal(array[15], 0, "Unexpected value: %d", array[15]);
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#define FOR_EACH_IDX_MACRO_TEST3(n, arg) &a##n
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uint8_t *a[] = {
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FOR_EACH_IDX(FOR_EACH_IDX_MACRO_TEST3, (,), 1, 2, 3)
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};
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zassert_equal(ARRAY_SIZE(a), 3, "Unexpected value:%d", ARRAY_SIZE(a));
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}
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static void test_FOR_EACH_IDX_FIXED_ARG(void)
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{
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#undef FOO
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#define FOO(n, arg, fixed_arg) \
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uint8_t fixed_arg##n = arg
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FOR_EACH_IDX_FIXED_ARG(FOO, (;), a, 1, 2, 3);
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zassert_equal(a0, 1, "Unexpected value %d", a0);
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zassert_equal(a1, 2, "Unexpected value %d", a1);
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zassert_equal(a2, 3, "Unexpected value %d", a2);
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}
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static void test_IS_EMPTY(void)
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{
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#define test_IS_EMPTY_REAL_EMPTY
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#define test_IS_EMPTY_NOT_EMPTY XXX_DO_NOT_REPLACE_XXX
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zassert_true(IS_EMPTY(test_IS_EMPTY_REAL_EMPTY),
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"Expected to be empty");
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zassert_false(IS_EMPTY(test_IS_EMPTY_NOT_EMPTY),
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"Expected to be non-empty");
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zassert_false(IS_EMPTY("string"),
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"Expected to be non-empty");
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zassert_false(IS_EMPTY(&test_IS_EMPTY),
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"Expected to be non-empty");
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}
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static void test_LIST_DROP_EMPTY(void)
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{
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/*
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* The real definition should be:
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* #define TEST_BROKEN_LIST ,Henry,,Dorsett,Case,
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* but checkpatch complains, so below equivalent is defined.
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*/
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#define TEST_BROKEN_LIST EMPTY, Henry, EMPTY, Dorsett, Case,
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#define TEST_FIXED_LIST LIST_DROP_EMPTY(TEST_BROKEN_LIST)
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static const char *const arr[] = {
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FOR_EACH(STRINGIFY, (,), TEST_FIXED_LIST)
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};
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zassert_equal(ARRAY_SIZE(arr), 3, "Failed to cleanup list");
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zassert_equal(strcmp(arr[0], "Henry"), 0, "Failed at 0");
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zassert_equal(strcmp(arr[1], "Dorsett"), 0, "Failed at 1");
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zassert_equal(strcmp(arr[2], "Case"), 0, "Failed at 0");
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}
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static void test_nested_FOR_EACH(void)
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{
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#define FOO_1(x) a##x = x
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#define FOO_2(x) int x
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FOR_EACH(FOO_2, (;), FOR_EACH(FOO_1, (,), 0, 1, 2));
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zassert_equal(a0, 0, NULL);
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zassert_equal(a1, 1, NULL);
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zassert_equal(a2, 2, NULL);
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}
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static void test_GET_ARG_N(void)
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{
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int a = GET_ARG_N(1, 10, 100, 1000);
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int b = GET_ARG_N(2, 10, 100, 1000);
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int c = GET_ARG_N(3, 10, 100, 1000);
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zassert_equal(a, 10, NULL);
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zassert_equal(b, 100, NULL);
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zassert_equal(c, 1000, NULL);
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}
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static void test_GET_ARGS_LESS_N(void)
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{
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uint8_t a[] = { GET_ARGS_LESS_N(0, 1, 2, 3) };
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uint8_t b[] = { GET_ARGS_LESS_N(1, 1, 2, 3) };
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uint8_t c[] = { GET_ARGS_LESS_N(2, 1, 2, 3) };
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zassert_equal(sizeof(a), 3, NULL);
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zassert_equal(sizeof(b), 2, NULL);
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zassert_equal(b[0], 2, NULL);
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zassert_equal(b[1], 3, NULL);
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zassert_equal(sizeof(c), 1, NULL);
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zassert_equal(c[0], 3, NULL);
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}
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static void test_mixing_GET_ARG_and_FOR_EACH(void)
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{
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#undef TEST_MACRO
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#define TEST_MACRO(x) x,
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int i;
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|
|
|
i = GET_ARG_N(3, FOR_EACH(TEST_MACRO, (), 1, 2, 3, 4, 5));
|
|
zassert_equal(i, 3, NULL);
|
|
|
|
i = GET_ARG_N(2, 1, GET_ARGS_LESS_N(2, 1, 2, 3, 4, 5));
|
|
zassert_equal(i, 3, NULL);
|
|
|
|
#undef TEST_MACRO
|
|
#undef TEST_MACRO2
|
|
#define TEST_MACRO(x) GET_ARG_N(3, 1, 2, x),
|
|
#define TEST_MACRO2(...) FOR_EACH(TEST_MACRO, (), __VA_ARGS__)
|
|
int a[] = {
|
|
LIST_DROP_EMPTY(TEST_MACRO2(1, 2, 3, 4)), 5
|
|
};
|
|
|
|
zassert_equal(ARRAY_SIZE(a), 5, NULL);
|
|
zassert_equal(a[0], 1, NULL);
|
|
zassert_equal(a[1], 2, NULL);
|
|
zassert_equal(a[2], 3, NULL);
|
|
zassert_equal(a[3], 4, NULL);
|
|
zassert_equal(a[4], 5, NULL);
|
|
}
|
|
|
|
#if __cplusplus
|
|
extern "C" void test_cxx(void);
|
|
void test_cxx(void)
|
|
#else
|
|
void test_cc(void)
|
|
#endif
|
|
{
|
|
ztest_test_suite(test_lib_sys_util_tests,
|
|
ztest_unit_test(test_u8_to_dec),
|
|
ztest_unit_test(test_COND_CODE_1),
|
|
ztest_unit_test(test_COND_CODE_0),
|
|
ztest_unit_test(test_UTIL_OR),
|
|
ztest_unit_test(test_UTIL_AND),
|
|
ztest_unit_test(test_IF_ENABLED),
|
|
ztest_unit_test(test_LISTIFY),
|
|
ztest_unit_test(test_MACRO_MAP_CAT),
|
|
ztest_unit_test(test_z_max_z_min_z_clamp),
|
|
ztest_unit_test(test_CLAMP),
|
|
ztest_unit_test(test_IN_RANGE),
|
|
ztest_unit_test(test_FOR_EACH),
|
|
ztest_unit_test(test_FOR_EACH_NONEMPTY_TERM),
|
|
ztest_unit_test(test_FOR_EACH_FIXED_ARG),
|
|
ztest_unit_test(test_FOR_EACH_IDX),
|
|
ztest_unit_test(test_FOR_EACH_IDX_FIXED_ARG),
|
|
ztest_unit_test(test_IS_EMPTY),
|
|
ztest_unit_test(test_LIST_DROP_EMPTY),
|
|
ztest_unit_test(test_nested_FOR_EACH),
|
|
ztest_unit_test(test_GET_ARG_N),
|
|
ztest_unit_test(test_GET_ARGS_LESS_N),
|
|
ztest_unit_test(test_mixing_GET_ARG_and_FOR_EACH)
|
|
);
|
|
|
|
ztest_run_test_suite(test_lib_sys_util_tests);
|
|
}
|