mirror of
https://github.com/cc65/cc65.git
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178573a128
Added testcases.
570 lines
15 KiB
C
570 lines
15 KiB
C
#include <assert.h>
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#include <stdio.h>
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#include <stdint.h>
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#include <string.h>
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/********* Macros *********/
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#define DEBUG_DETAIL 0
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/* TODO: enable these when they can be compiled */
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#define SKIP_VOID_RETURN_VALUE_TESTS 1
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#define SKIP_INLINED_ARG_SIDE_EFFECT_TESTS 1
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#define CHECK(C) \
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if (!(C)) { \
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++failures; \
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print_header(); \
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printf(" failed: expected %s\n", #C); \
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}
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#define CHECK_RANGE(L, R, D, N) \
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index = my_memcmp(L, R, D, N); \
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if (index >= 0) { \
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++failures; \
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print_header(); \
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printf(" failed: %s vs %s dismatch at [%d]\n", #L, #R, index); \
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}
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#define MEM_SIZE 512
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#define STACK_SIZE 160
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#define ZP_SIZE 8
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#define MAGIC_SIZE 129
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#define BROKEN_STR "hello\0!"
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#define BROKEN_STR_SIZE 6
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#define BROKEN_STR_LEN 5
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/********* Data *********/
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unsigned failures;
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int need_header = 1;
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const char* test_header;
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static int x;
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static int y;
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static int z;
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static int index;
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static char mem_dst[MEM_SIZE];
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static char mem_src[MEM_SIZE];
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static char mem_ori[MEM_SIZE];
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#pragma data-name(push, "ZEROPAGE", "zp")
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#pragma bss-name(push, "ZEROPAGE", "zp")
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static char zp_src[ZP_SIZE];
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static char zp_dst[ZP_SIZE];
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static char zp_ori[ZP_SIZE];
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static char* p_zp_src;
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static char* p_zp_dst;
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static char* p_zp_ori;
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#pragma bss-name(pop)
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#pragma data-name(pop)
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/********* Helpers *********/
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void my_memfill(void *dst, int init, size_t size)
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{
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unsigned i;
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for (i = 0; i < size; ++i)
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{
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((char*)dst)[i] = init;
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init += 3;
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}
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}
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void my_memset(void *dst, int val, size_t size)
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{
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unsigned i;
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for (i = 0; i < size; ++i)
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{
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((unsigned char *)dst)[i] = val;
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}
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}
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void my_memcpy(void *dst, const void *src, size_t size)
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{
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unsigned i;
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for (i = 0; i < size; ++i)
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{
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((char*)dst)[i] = ((char*)src)[i];
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}
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}
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int my_memcmp(const void *dst, const void *src, int diff, size_t size)
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{
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unsigned i;
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diff %= 256;
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for (i = 0; i < size; ++i)
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{
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if ((unsigned char)(((unsigned char*)dst)[i] - ((unsigned char*)src)[i]) != diff)
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{
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#if DEBUG_DETAIL
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/* DEBUG */
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printf("%d vs %d\n", (unsigned char)(((unsigned char*)dst)[i] - ((unsigned char*)src)[i]), diff);
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#endif
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return i;
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}
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}
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return -1;
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}
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void* mul_two(void* p, int* px)
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{
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*px *= 2;
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return p;
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}
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void* add_one(void* p, int* px)
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{
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*px += 1;
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return p;
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}
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void* negate(void* p, int* px)
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{
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*px = -*px;
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return p;
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}
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void set_header(const char* name)
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{
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if (need_header == 0)
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{
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printf("\n");
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}
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test_header = name;
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need_header = 1;
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}
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void print_header(void)
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{
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if (need_header)
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{
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need_header = 0;
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printf("%s test\n", test_header);
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}
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}
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/********* Tests *********/
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/* memcpy */
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void test_memcpy(void)
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{
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const char *name = 0;
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unsigned size = 0;
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void *p;
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/* init */
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my_memfill(mem_ori, 1000, sizeof mem_ori);
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my_memfill(zp_ori, 1000, sizeof zp_ori);
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p_zp_src = zp_src;
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p_zp_dst = zp_dst;
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p_zp_ori = zp_ori;
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#if !SKIP_INLINED_ARG_SIDE_EFFECT_TESTS
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/* arg3 == 0 */
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set_header("p = memcpy(arg1, arg2, 0)");
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size = MEM_SIZE;
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my_memfill(mem_dst, 3000, size);
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my_memfill(mem_src, 2000, size);
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x = 42;
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y = -42;
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z = 36;
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p = memcpy(mul_two(mem_dst, &x), add_one(mem_src, &y), (negate(0, &z), 0));
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CHECK(p == mem_dst);
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CHECK(x == 84);
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CHECK(y == -41);
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CHECK(z == -36);
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CHECK_RANGE(mem_dst, mem_ori, 2000, size);
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CHECK_RANGE(mem_src, mem_ori, 1000, size);
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#endif
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#if !SKIP_INLINED_ARG_SIDE_EFFECT_TESTS
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/* Check if the arguments are still generated if the return value is unused.
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** We have this question since the first argument could be directly used as
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** the return value when this function gets inlined.
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*/
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#if !SKIP_VOID_RETURN_VALUE_TESTS
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set_header("(void)memcpy(arg1, arg2, 0)");
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#else
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set_header("memcpy(arg1, arg2, 0)");
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#endif
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size = MEM_SIZE;
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my_memfill(mem_dst, 3000, size);
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my_memfill(mem_src, 2000, size);
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x = 42;
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y = -42;
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z = 36;
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#if !SKIP_VOID_RETURN_VALUE_TESTS
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(void)
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#endif
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memcpy(mul_two(mem_dst, &x), add_one(mem_src, &y), (negate(0, &z), 0));
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CHECK(x == 84);
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CHECK(y == -41);
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CHECK(z == -36);
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CHECK_RANGE(mem_dst, mem_ori, 2000, size);
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CHECK_RANGE(mem_src, mem_ori, 1000, size);
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#endif
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/* The memcpy inliner will give up with further optimizations if any of
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** the arguments have side effects.
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*/
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/* arg1: const addr, arg2: const addr, arg3 <= 129 */
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set_header("memcpy(const_addr_1, const_addr_2, 129) w/ side-effects");
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size = MEM_SIZE;
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my_memfill(mem_dst, 3000, size);
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my_memfill(mem_src, 2000, size);
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x = 42;
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y = -42;
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z = 36;
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/* memcpy size here must be an integer constant to allow the optimization */
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p = memcpy(mul_two(mem_dst, &x), add_one(mem_src, &y), (negate(0, &z), MAGIC_SIZE));
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size = MAGIC_SIZE;
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CHECK(p == mem_dst);
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CHECK(x == 84);
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CHECK(y == -41);
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CHECK(z == -36);
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CHECK_RANGE(mem_dst, mem_ori, 1000, size);
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CHECK_RANGE(mem_dst + size, mem_ori + size, 2000, MEM_SIZE - size);
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/* arg1: (void*)ptr, arg2: const_addr_2 */
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set_header("memcpy((void*)ptr, const_addr_2, 129)");
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{
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void *ptr = mem_dst;
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size = MEM_SIZE;
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my_memfill(mem_dst, 3000, size);
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my_memfill(mem_src, 2000, size);
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/* memcpy size here must be an integer constant to allow the optimization */
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p = memcpy((void*)ptr, mem_src, MAGIC_SIZE);
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size = MAGIC_SIZE;
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CHECK(p == mem_dst);
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CHECK_RANGE(mem_dst, mem_ori, 1000, size);
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CHECK_RANGE(mem_dst + size, mem_ori + size, 2000, MEM_SIZE - size);
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}
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/* arg1: const addr, arg2: const addr, arg3 <= 129 */
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set_header("memcpy(const_addr_1, const_addr_2, 129)");
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size = MEM_SIZE;
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my_memfill(mem_dst, 3000, size);
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my_memfill(mem_src, 2000, size);
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/* memcpy size here must be an integer constant to allow the optimization */
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p = memcpy(mem_dst, mem_src, MAGIC_SIZE);
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size = MAGIC_SIZE;
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CHECK(p == mem_dst);
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CHECK_RANGE(mem_dst, mem_ori, 1000, size);
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CHECK_RANGE(mem_dst + size, mem_ori + size, 2000, MEM_SIZE - size);
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/* arg1: const addr, arg2: const addr, arg3 <= 256 */
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set_header("memcpy(const_addr_1, const_addr_2, 256)");
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size = MEM_SIZE;
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my_memfill(mem_dst, 3000, size);
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my_memfill(mem_src, 2000, size);
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/* memcpy size here must be an integer constant to allow the optimization */
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p = memcpy(mem_dst, mem_src, 256);
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size = 256;
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CHECK(p == mem_dst);
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CHECK_RANGE(mem_dst, mem_ori, 1000, size);
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CHECK_RANGE(mem_dst + size, mem_ori + size, 2000, size - size);
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/* arg1: ptr on zp, arg2: ptr on zp, arg3 <= 256 */
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set_header("memcpy(p_on_zp_1, p_on_zp_2, 4)");
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/* We cannot allocate 256 bytes on the zeropage, unfortunately */
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my_memfill(zp_dst, 3000, ZP_SIZE);
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my_memfill(zp_src, 2000, ZP_SIZE);
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/* memcpy size here must be an integer constant to allow the optimization */
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p = memcpy(p_zp_dst, p_zp_src, ZP_SIZE / 2);
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size = ZP_SIZE / 2;
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CHECK(p == zp_dst);
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CHECK_RANGE(zp_dst, zp_ori, 1000, size);
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CHECK_RANGE(zp_dst + size, zp_ori + size, 2000, ZP_SIZE - size);
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/* arg1: on stack, arg2: const addr, arg3 <= 129 */
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set_header("memcpy(on_stack_1, const_addr_2, 129)");
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{
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char sp_dst[STACK_SIZE];
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my_memfill(sp_dst, 3000, STACK_SIZE);
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my_memfill(mem_src, 2000, STACK_SIZE);
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/* memcpy size here must be an integer constant to allow the optimization */
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p = memcpy(sp_dst, mem_src, MAGIC_SIZE);
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size = MAGIC_SIZE;
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CHECK(p == sp_dst);
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CHECK_RANGE(sp_dst, mem_ori, 1000, size);
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CHECK_RANGE(sp_dst + size, mem_ori + size, 2000, STACK_SIZE - size);
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}
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/* arg1: on stack, arg2: const addr, arg3 <= 256 */
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set_header("memcpy(on_stack_1, const_addr_2, 144)");
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{
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char sp_dst[STACK_SIZE];
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/* We cannot allocate 256 bytes on the stack, unfortunately */
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my_memfill(sp_dst, 3000, STACK_SIZE);
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my_memfill(mem_src, 2000, STACK_SIZE);
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/* memcpy size here must be an integer constant to allow the optimization */
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p = memcpy(sp_dst, mem_src, 144);
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size = 144;
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CHECK(p == sp_dst);
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CHECK_RANGE(sp_dst, mem_ori, 1000, size);
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CHECK_RANGE(sp_dst + size, mem_ori + size, 2000, STACK_SIZE - size);
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}
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/* arg1: const addr, arg2: on stack, arg3 <= 129 */
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set_header("memcpy(const_addr_1, on_stack_2, 129)");
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{
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char sp_src[STACK_SIZE];
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/* We cannot allocate 256 bytes on the stack, unfortunately */
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my_memfill(mem_dst, 3000, STACK_SIZE);
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my_memfill(sp_src, 2000, STACK_SIZE);
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/* memcpy size here must be an integer constant to allow the optimization */
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p = memcpy(mem_dst, sp_src, 129);
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size = 129;
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CHECK(p == mem_dst);
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CHECK_RANGE(mem_dst, mem_ori, 1000, size);
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CHECK_RANGE(mem_dst + size, mem_ori + size, 2000, STACK_SIZE - size);
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}
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/* arg1: const addr, arg2: on stack, arg3 <= 256 */
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set_header("memcpy(const_addr_1, on_stack_2, 144)");
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{
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char sp_src[STACK_SIZE];
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/* We cannot allocate 256 bytes on the stack, unfortunately */
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my_memfill(mem_dst, 3000, STACK_SIZE);
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my_memfill(sp_src, 2000, STACK_SIZE);
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/* memcpy size here must be an integer constant to allow the optimization */
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p = memcpy(mem_dst, sp_src, 144);
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size = 144;
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CHECK(p == mem_dst);
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CHECK_RANGE(mem_dst, mem_ori, 1000, size);
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CHECK_RANGE(mem_dst + size, mem_ori + size, 2000, STACK_SIZE - size);
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}
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}
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/* memset */
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void test_memset(void)
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{
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const char *name = 0;
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unsigned size = 0;
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void *p;
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/* init */
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my_memfill(mem_ori, 1000, sizeof mem_ori);
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my_memfill(zp_ori, 1000, sizeof zp_ori);
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p_zp_dst = zp_dst;
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p_zp_ori = zp_ori;
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#if !SKIP_INLINED_ARG_SIDE_EFFECT_TESTS
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/* arg3 == 0 */
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set_header("p = memset(arg1, arg2, 0)");
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size = MEM_SIZE;
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my_memfill(mem_dst, 3000, size);
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x = 42;
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y = -42;
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z = 36;
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p = memset(mul_two(mem_dst, &x), (add_one(0, &y), 42), (negate(0, &z), 0));
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CHECK(p == mem_dst);
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CHECK(x == 84);
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CHECK(y == -41);
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CHECK(z == -36);
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CHECK_RANGE(mem_dst, mem_ori, 2000, size);
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#endif
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#if !SKIP_INLINED_ARG_SIDE_EFFECT_TESTS
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/* Check if the arguments are still generated if the return value is unused.
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** We have this question since the first argument could be directly used as
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** the return value when this function gets inlined.
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*/
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#if !SKIP_VOID_RETURN_VALUE_TESTS
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set_header("(void)memset(arg1, arg2, 0)");
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#else
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set_header("memset(arg1, arg2, 0)");
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#endif
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size = MEM_SIZE;
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my_memfill(mem_dst, 3000, size);
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x = 42;
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y = -42;
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z = 36;
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#if !SKIP_VOID_RETURN_VALUE_TESTS
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(void)
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#endif
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memset(mul_two(mem_dst, &x), (add_one(0, &y), 42), (negate(0, &z), 0));
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CHECK(x == 84);
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CHECK(y == -41);
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CHECK(z == -36);
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CHECK_RANGE(mem_dst, mem_ori, 2000, size);
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#endif
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}
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/* strcmp */
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void test_strcmp(void)
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{
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const char *name = 0;
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unsigned size = 0;
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int res = 0;
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/* init */
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p_zp_dst = zp_dst;
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/* Compared to zero-length C string literal */
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set_header("strcmp(arg1, \"\\0Z\")");
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{
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char str[] = "AA";
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size = sizeof str;
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my_memcpy(zp_dst, str, size);
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x = 42;
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y = -42;
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res = strcmp(zp_dst, "\0Z");
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CHECK(res > 0);
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#if !SKIP_INLINED_ARG_SIDE_EFFECT_TESTS
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res = strcmp(mul_two(p_zp_dst, &x), (add_one(0, &y), "\0Z"));
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CHECK(res > 0);
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CHECK(x == 84);
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CHECK(y == -41);
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#endif
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}
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}
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/* strcpy */
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void test_strcpy(void)
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{
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const char *name = 0;
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unsigned size = 0;
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void *p;
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char stack_dst[ZP_SIZE];
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char stack_src[ZP_SIZE];
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/* init */
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{
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char str[] = BROKEN_STR;
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size = BROKEN_STR_LEN + 1;
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my_memfill(mem_src, 1000, ZP_SIZE);
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my_memfill(stack_src, 1000, ZP_SIZE);
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my_memfill(zp_src, 1000, ZP_SIZE);
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my_memcpy(mem_src, str, size);
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my_memcpy(stack_src, str, size);
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my_memcpy(zp_src, str, size);
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p_zp_src = zp_src;
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p_zp_dst = zp_dst;
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p_zp_dst = zp_dst;
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}
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/* arg1: const addr, arg2: const addr */
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set_header("strcpy(const_addr_1, const_addr_2)");
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my_memfill(mem_dst, 2000, ZP_SIZE);
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size = BROKEN_STR_LEN + 1;
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p = strcpy(mem_dst, mem_src);
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CHECK(p == mem_dst);
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CHECK_RANGE(mem_dst, mem_src, 0, size);
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CHECK_RANGE(mem_dst + size, mem_src + size, 1000, ZP_SIZE - size);
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/* arg1: ptr on zp, arg2: ptr on zp */
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set_header("strcpy(p_on_zp_1, p_on_zp_2)");
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my_memfill(zp_dst, 2000, ZP_SIZE);
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size = BROKEN_STR_LEN + 1;
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p = strcpy(zp_dst, zp_src);
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CHECK(p == zp_dst);
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CHECK_RANGE(zp_dst, zp_src, 0, size);
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CHECK_RANGE(zp_dst + size, zp_src + size, 1000, ZP_SIZE - size);
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/* arg1: on stack, arg2: on stack */
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set_header("strcpy(on_stack_1, on_stack_2)");
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my_memfill(stack_dst, 2000, ZP_SIZE);
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size = BROKEN_STR_LEN + 1;
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p = strcpy(stack_dst, stack_src);
|
|
CHECK(p == stack_dst);
|
|
CHECK_RANGE(stack_dst, stack_src, 0, size);
|
|
CHECK_RANGE(stack_dst + size, stack_src + size, 1000, ZP_SIZE - size);
|
|
|
|
/* TODO: args side-effects tests */
|
|
}
|
|
|
|
/* strlen */
|
|
void test_strlen(void)
|
|
{
|
|
const char *name = 0;
|
|
size_t len;
|
|
|
|
/* init */
|
|
{
|
|
char str[] = BROKEN_STR;
|
|
my_memcpy(mem_ori, str, ZP_SIZE);
|
|
//my_memcpy(stack_ori, str, ZP_SIZE);
|
|
my_memcpy(zp_ori, str, ZP_SIZE);
|
|
p_zp_ori = zp_ori;
|
|
}
|
|
|
|
/* arg1: string_literal */
|
|
set_header("strlen(\"hello\\0!\")");
|
|
x = 42;
|
|
y = -42;
|
|
len = strlen((mul_two(0, &x), BROKEN_STR));
|
|
(void)strlen((add_one(0, &y), BROKEN_STR));
|
|
CHECK(len == BROKEN_STR_LEN);
|
|
CHECK(x == 84);
|
|
CHECK(y == -41);
|
|
|
|
/* arg1: array with const addr */
|
|
set_header("strlen(array_const_addr[8])");
|
|
x = 42;
|
|
y = -42;
|
|
len = strlen((mul_two(0, &x), zp_ori));
|
|
(void)strlen((add_one(0, &y), zp_ori));
|
|
CHECK(len == BROKEN_STR_LEN);
|
|
CHECK(x == 84);
|
|
CHECK(y == -41);
|
|
|
|
/* arg1: array on stack */
|
|
set_header("strlen(array_on_stack[8])");
|
|
{
|
|
char p_on_stack[] = BROKEN_STR;
|
|
x = 42;
|
|
y = -42;
|
|
len = strlen((mul_two(0, &x), p_on_stack));
|
|
strlen((add_one(0, &y), p_on_stack));
|
|
CHECK(sizeof p_on_stack == 8);
|
|
CHECK(len == BROKEN_STR_LEN);
|
|
CHECK(x == 84);
|
|
CHECK(y == -41);
|
|
}
|
|
|
|
/* arg1: ptr on zp */
|
|
set_header("strlen(ptr_on_zp)");
|
|
x = 42;
|
|
y = -42;
|
|
len = strlen((mul_two(0, &x), p_zp_ori));
|
|
(void)strlen((add_one(0, &y), p_zp_ori));
|
|
CHECK(len == BROKEN_STR_LEN);
|
|
CHECK(x == 84);
|
|
CHECK(y == -41);
|
|
}
|
|
|
|
int main(void)
|
|
{
|
|
test_memcpy();
|
|
test_memset();
|
|
test_strcmp();
|
|
test_strcpy();
|
|
test_strlen();
|
|
|
|
if (failures > 0)
|
|
{
|
|
printf("failed items: %u\n", failures);
|
|
}
|
|
return failures;
|
|
}
|