third_party/subzero/crosstest/mem_intrin.cpp - SwiftShader - Git at Google

 /*
  * Simple sanity test of memcpy, memmove, and memset intrinsics.
  * (fixed length buffers, variable length buffers, etc.)
  */

 #include <cstdlib>
 #include <cstring>
 #include <stdint.h> /* cstdint requires -std=c++0x or higher */

 #include "mem_intrin.h"
 #include "xdefs.h"

 typedef int elem_t;

 /*
  * Reset buf to the sequence of bytes: n, n+1, n+2 ... length - 1
  */
 static void __attribute__((noinline))
 reset_buf(uint8_t *buf, uint8_t init, SizeT length) {
   SizeT i;
   SizeT v = init;
   for (i = 0; i < length; ++i)
     buf[i] = v++;
 }

 /* Do a fletcher-16 checksum so that the order of the values matter.
  * (Not doing a fletcher-32 checksum, since we are working with
  * smaller buffers, whose total won't approach 2**16).
  */
 static int __attribute__((noinline))
 fletcher_checksum(uint8_t *buf, SizeT length) {
   SizeT i;
   int sum = 0;
   int sum_of_sums = 0;
   const int kModulus = 255;
   for (i = 0; i < length; ++i) {
     sum = (sum + buf[i]) % kModulus;
     sum_of_sums = (sum_of_sums + sum) % kModulus;
   }
   return (sum_of_sums << 8) | sum;
 }

 int memcpy_test(uint8_t *buf, uint8_t *buf2, uint8_t init, SizeT length) {
   reset_buf(buf, init, length);
   memcpy((void *)buf2, (void *)buf, length);
   return fletcher_checksum(buf2, length);
 }

 int memmove_test(uint8_t *buf, uint8_t *buf2, uint8_t init, SizeT length) {
   int sum1;
   int sum2;
   const int overlap_bytes = 4 * sizeof(elem_t);
   if (length <= overlap_bytes)
     return 0;
   uint8_t *overlap_buf = buf + overlap_bytes;
   SizeT reduced_length = length - overlap_bytes;
   reset_buf(buf, init, length);

   /* Test w/ overlap. */
   memmove((void *)overlap_buf, (void *)buf, reduced_length);
   sum1 = fletcher_checksum(overlap_buf, reduced_length);
   /* Test w/out overlap. */
   memmove((void *)buf2, (void *)buf, length);
   sum2 = fletcher_checksum(buf2, length);
   return sum1 + sum2;
 }

 int memset_test(uint8_t *buf, uint8_t *buf2, uint8_t init, SizeT length) {
   memset((void *)buf, init, length);
   memset((void *)buf2, init + 4, length);
   return fletcher_checksum(buf, length) + fletcher_checksum(buf2, length);
 }

 #define X(NBYTES)                                                              \
   int memcpy_test_fixed_len_##NBYTES(uint8_t init) {                           \
     uint8_t buf[NBYTES];                                                       \
     uint8_t buf2[NBYTES];                                                      \
     reset_buf(buf, init, NBYTES);                                              \
     memcpy((void *)buf2, (void *)buf, NBYTES);                                 \
     return fletcher_checksum(buf2, NBYTES);                                    \
   }                                                                            \
                                                                                \
   int memmove_test_fixed_len_##NBYTES(uint8_t init) {                          \
     uint8_t buf[NBYTES + 16];                                                  \
     uint8_t buf2[NBYTES + 16];                                                 \
     reset_buf(buf, init, NBYTES + 16);                                         \
     reset_buf(buf2, init, NBYTES + 16);                                        \
     /* Move up */                                                              \
     memmove((void *)(buf + 16), (void *)buf, NBYTES);                          \
     /* Move down */                                                            \
     memmove((void *)buf2, (void *)(buf2 + 16), NBYTES);                        \
     return fletcher_checksum(buf, NBYTES + 16) +                               \
            fletcher_checksum(buf2, NBYTES + 16);                               \
   }                                                                            \
                                                                                \
   int memset_test_fixed_len_##NBYTES(uint8_t init) {                           \
     uint8_t buf[NBYTES];                                                       \
     memset((void *)buf, init, NBYTES);                                         \
     return fletcher_checksum(buf, NBYTES);                                     \
   }
 MEMINTRIN_SIZE_TABLE
 #undef X
	/*
	* Simple sanity test of memcpy, memmove, and memset intrinsics.
	* (fixed length buffers, variable length buffers, etc.)
	*/

	#include <cstdlib>
	#include <cstring>
	#include <stdint.h> /* cstdint requires -std=c++0x or higher */

	#include "mem_intrin.h"
	#include "xdefs.h"

	typedef int elem_t;

	/*
	* Reset buf to the sequence of bytes: n, n+1, n+2 ... length - 1
	*/
	static void __attribute__((noinline))
	reset_buf(uint8_t *buf, uint8_t init, SizeT length) {
	SizeT i;
	SizeT v = init;
	for (i = 0; i < length; ++i)
	buf[i] = v++;
	}

	/* Do a fletcher-16 checksum so that the order of the values matter.
	* (Not doing a fletcher-32 checksum, since we are working with
	* smaller buffers, whose total won't approach 2**16).
	*/
	static int __attribute__((noinline))
	fletcher_checksum(uint8_t *buf, SizeT length) {
	SizeT i;
	int sum = 0;
	int sum_of_sums = 0;
	const int kModulus = 255;
	for (i = 0; i < length; ++i) {
	sum = (sum + buf[i]) % kModulus;
	sum_of_sums = (sum_of_sums + sum) % kModulus;
	}
	return (sum_of_sums << 8) \| sum;
	}

	int memcpy_test(uint8_t buf, uint8_t buf2, uint8_t init, SizeT length) {
	reset_buf(buf, init, length);
	memcpy((void )buf2, (void )buf, length);
	return fletcher_checksum(buf2, length);
	}

	int memmove_test(uint8_t buf, uint8_t buf2, uint8_t init, SizeT length) {
	int sum1;
	int sum2;
	const int overlap_bytes = 4 * sizeof(elem_t);
	if (length <= overlap_bytes)
	return 0;
	uint8_t *overlap_buf = buf + overlap_bytes;
	SizeT reduced_length = length - overlap_bytes;
	reset_buf(buf, init, length);

	/* Test w/ overlap. */
	memmove((void )overlap_buf, (void )buf, reduced_length);
	sum1 = fletcher_checksum(overlap_buf, reduced_length);
	/* Test w/out overlap. */
	memmove((void )buf2, (void )buf, length);
	sum2 = fletcher_checksum(buf2, length);
	return sum1 + sum2;
	}

	int memset_test(uint8_t buf, uint8_t buf2, uint8_t init, SizeT length) {
	memset((void *)buf, init, length);
	memset((void *)buf2, init + 4, length);
	return fletcher_checksum(buf, length) + fletcher_checksum(buf2, length);
	}

	#define X(NBYTES) \
	int memcpy_test_fixed_len_##NBYTES(uint8_t init) { \
	uint8_t buf[NBYTES]; \
	uint8_t buf2[NBYTES]; \
	reset_buf(buf, init, NBYTES); \
	memcpy((void )buf2, (void )buf, NBYTES); \
	return fletcher_checksum(buf2, NBYTES); \
	} \
	\
	int memmove_test_fixed_len_##NBYTES(uint8_t init) { \
	uint8_t buf[NBYTES + 16]; \
	uint8_t buf2[NBYTES + 16]; \
	reset_buf(buf, init, NBYTES + 16); \
	reset_buf(buf2, init, NBYTES + 16); \
	/* Move up */ \
	memmove((void )(buf + 16), (void )buf, NBYTES); \
	/* Move down */ \
	memmove((void )buf2, (void )(buf2 + 16), NBYTES); \
	return fletcher_checksum(buf, NBYTES + 16) + \
	fletcher_checksum(buf2, NBYTES + 16); \
	} \
	\
	int memset_test_fixed_len_##NBYTES(uint8_t init) { \
	uint8_t buf[NBYTES]; \
	memset((void *)buf, init, NBYTES); \
	return fletcher_checksum(buf, NBYTES); \
	}
	MEMINTRIN_SIZE_TABLE
	#undef X