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|
/* $Id: tstRand.cpp $ */
/** @file
* IPRT - Testcase for the RTRand API.
*/
/*
* Copyright (C) 2008-2023 Oracle and/or its affiliates.
*
* This file is part of VirtualBox base platform packages, as
* available from https://www.virtualbox.org.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation, in version 3 of the
* License.
*
* This program is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, see <https://www.gnu.org/licenses>.
*
* The contents of this file may alternatively be used under the terms
* of the Common Development and Distribution License Version 1.0
* (CDDL), a copy of it is provided in the "COPYING.CDDL" file included
* in the VirtualBox distribution, in which case the provisions of the
* CDDL are applicable instead of those of the GPL.
*
* You may elect to license modified versions of this file under the
* terms and conditions of either the GPL or the CDDL or both.
*
* SPDX-License-Identifier: GPL-3.0-only OR CDDL-1.0
*/
/*********************************************************************************************************************************
* Header Files *
*********************************************************************************************************************************/
#include <iprt/rand.h>
#include <iprt/errcore.h>
#include <iprt/stream.h>
#include <iprt/initterm.h>
#include <iprt/string.h>
#include <iprt/assert.h>
/*********************************************************************************************************************************
* Structures and Typedefs *
*********************************************************************************************************************************/
typedef struct TSTMEMAUTOPTRSTRUCT
{
uint32_t a;
uint32_t b;
uint32_t c;
} TSTMEMAUTOPTRSTRUCT;
/*********************************************************************************************************************************
* Defined Constants And Macros *
*********************************************************************************************************************************/
#define CHECK_EXPR(expr) \
do { bool const f = !!(expr); if (RT_UNLIKELY(!f)) { RTPrintf("tstRand(%d): %s!\n", __LINE__, #expr); g_cErrors++; } } while (0)
#define CHECK_EXPR_MSG(expr, msg) \
do { \
bool const f = !!(expr); \
if (RT_UNLIKELY(!f)) { \
RTPrintf("tstRand(%d): %s!\n", __LINE__, #expr); \
RTPrintf("tstRand: "); \
RTPrintf msg; \
if (++g_cErrors > 25) return 1; \
} \
} while (0)
#define TST_RAND_SAMPLE_RANGES 16
/*********************************************************************************************************************************
* Global Variables *
*********************************************************************************************************************************/
static unsigned g_cErrors = 0;
static void tstRandCheckDist(uint32_t *pacHits, unsigned iTest)
{
RTPrintf("tstRand:");
uint32_t iMin = UINT32_MAX;
uint32_t iMax = 0;
uint32_t iAvg = 0;
for (unsigned iRange = 0; iRange < TST_RAND_SAMPLE_RANGES; iRange++)
{
RTPrintf(" %04RX32", pacHits[iRange]);
if (iMax < pacHits[iRange])
iMax = pacHits[iRange];
if (iMin > pacHits[iRange])
iMin = pacHits[iRange];
iAvg += pacHits[iRange];
}
iAvg /= TST_RAND_SAMPLE_RANGES;
RTPrintf(" min=%RX32 (%%%d) max=%RX32 (%%%d) calc avg=%RX32 [test=%d]\n",
iMin, (iAvg - iMin) * 100 / iAvg, iMax,
(iMax - iAvg) * 100 / iAvg,
iAvg,
iTest);
CHECK_EXPR(iMin >= iAvg - iAvg / 4);
CHECK_EXPR(iMax <= iAvg + iAvg / 4);
}
static int tstRandAdv(RTRAND hRand)
{
/*
* Test distribution.
*/
#if 1
/* unsigned 32-bit */
static const struct
{
uint32_t u32First;
uint32_t u32Last;
} s_aU32Tests[] =
{
{ 0, UINT32_MAX },
{ 0, UINT32_MAX / 2 + UINT32_MAX / 4 },
{ 0, UINT32_MAX / 2 + UINT32_MAX / 8 },
{ 0, UINT32_MAX / 2 + UINT32_MAX / 16 },
{ 0, UINT32_MAX / 2 + UINT32_MAX / 64 },
{ 0, UINT32_MAX / 2 },
{ UINT32_MAX / 4, UINT32_MAX / 4 * 3 },
{ 0, TST_RAND_SAMPLE_RANGES - 1 },
{ 1234, 1234 + TST_RAND_SAMPLE_RANGES - 1 },
};
for (unsigned iTest = 0; iTest < RT_ELEMENTS(s_aU32Tests); iTest++)
{
uint32_t acHits[TST_RAND_SAMPLE_RANGES] = {0};
uint32_t const uFirst = s_aU32Tests[iTest].u32First;
uint32_t const uLast = s_aU32Tests[iTest].u32Last;
uint32_t const uRange = uLast - uFirst; Assert(uLast >= uFirst);
uint32_t const uDivisor = uRange / TST_RAND_SAMPLE_RANGES + 1;
RTPrintf("tstRand: TESTING RTRandAdvU32Ex(,%#RX32, %#RX32) distribution... [div=%#RX32 range=%#RX32]\n", uFirst, uLast, uDivisor, uRange);
for (unsigned iSample = 0; iSample < TST_RAND_SAMPLE_RANGES * 10240; iSample++)
{
uint32_t uRand = RTRandAdvU32Ex(hRand, uFirst, uLast);
CHECK_EXPR_MSG(uRand >= uFirst, ("%#RX32 %#RX32\n", uRand, uFirst));
CHECK_EXPR_MSG(uRand <= uLast, ("%#RX32 %#RX32\n", uRand, uLast));
uint32_t off = uRand - uFirst;
acHits[off / uDivisor]++;
}
tstRandCheckDist(acHits, iTest);
}
#endif
#if 1
/* unsigned 64-bit */
static const struct
{
uint64_t u64First;
uint64_t u64Last;
} s_aU64Tests[] =
{
{ 0, UINT64_MAX },
{ 0, UINT64_MAX / 2 + UINT64_MAX / 4 },
{ 0, UINT64_MAX / 2 + UINT64_MAX / 8 },
{ 0, UINT64_MAX / 2 + UINT64_MAX / 16 },
{ 0, UINT64_MAX / 2 + UINT64_MAX / 64 },
{ 0, UINT64_MAX / 2 },
{ UINT64_MAX / 4, UINT64_MAX / 4 * 3 },
{ 0, UINT32_MAX },
{ 0, UINT32_MAX / 2 + UINT32_MAX / 4 },
{ 0, UINT32_MAX / 2 + UINT32_MAX / 8 },
{ 0, UINT32_MAX / 2 + UINT32_MAX / 16 },
{ 0, UINT32_MAX / 2 + UINT32_MAX / 64 },
{ 0, UINT32_MAX / 2 },
{ UINT32_MAX / 4, UINT32_MAX / 4 * 3 },
{ 0, TST_RAND_SAMPLE_RANGES - 1 },
{ 1234, 1234 + TST_RAND_SAMPLE_RANGES - 1 },
};
for (unsigned iTest = 0; iTest < RT_ELEMENTS(s_aU64Tests); iTest++)
{
uint32_t acHits[TST_RAND_SAMPLE_RANGES] = {0};
uint64_t const uFirst = s_aU64Tests[iTest].u64First;
uint64_t const uLast = s_aU64Tests[iTest].u64Last;
uint64_t const uRange = uLast - uFirst; Assert(uLast >= uFirst);
uint64_t const uDivisor = uRange / TST_RAND_SAMPLE_RANGES + 1;
RTPrintf("tstRand: TESTING RTRandAdvU64Ex(,%#RX64, %#RX64) distribution... [div=%#RX64 range=%#RX64]\n", uFirst, uLast, uDivisor, uRange);
for (unsigned iSample = 0; iSample < TST_RAND_SAMPLE_RANGES * 10240; iSample++)
{
uint64_t uRand = RTRandAdvU64Ex(hRand, uFirst, uLast);
CHECK_EXPR_MSG(uRand >= uFirst, ("%#RX64 %#RX64\n", uRand, uFirst));
CHECK_EXPR_MSG(uRand <= uLast, ("%#RX64 %#RX64\n", uRand, uLast));
uint64_t off = uRand - uFirst;
acHits[off / uDivisor]++;
}
tstRandCheckDist(acHits, iTest);
}
#endif
#if 1
/* signed 32-bit */
static const struct
{
int32_t i32First;
int32_t i32Last;
} s_aS32Tests[] =
{
{ -429496729, 429496729 },
{ INT32_MIN, INT32_MAX },
{ INT32_MIN, INT32_MAX / 2 },
{ -0x20000000, INT32_MAX },
{ -0x10000000, INT32_MAX },
{ -0x08000000, INT32_MAX },
{ -0x00800000, INT32_MAX },
{ -0x00080000, INT32_MAX },
{ -0x00008000, INT32_MAX },
{ -0x00000800, INT32_MAX },
{ 2, INT32_MAX / 2 },
{ 4000000, INT32_MAX / 2 },
{ -4000000, INT32_MAX / 2 },
{ INT32_MIN / 2, INT32_MAX / 2 },
{ INT32_MIN / 3, INT32_MAX / 2 },
{ INT32_MIN / 3, INT32_MAX / 3 },
{ INT32_MIN / 3, INT32_MAX / 4 },
{ INT32_MIN / 4, INT32_MAX / 4 },
{ INT32_MIN / 5, INT32_MAX / 5 },
{ INT32_MIN / 6, INT32_MAX / 6 },
{ INT32_MIN / 7, INT32_MAX / 6 },
{ INT32_MIN / 7, INT32_MAX / 7 },
{ INT32_MIN / 7, INT32_MAX / 8 },
{ INT32_MIN / 8, INT32_MAX / 8 },
{ INT32_MIN / 9, INT32_MAX / 9 },
{ INT32_MIN / 9, INT32_MAX / 12 },
{ INT32_MIN / 12, INT32_MAX / 12 },
{ 0, TST_RAND_SAMPLE_RANGES - 1 },
{ -TST_RAND_SAMPLE_RANGES / 2, TST_RAND_SAMPLE_RANGES / 2 - 1 },
};
for (unsigned iTest = 0; iTest < RT_ELEMENTS(s_aS32Tests); iTest++)
{
uint32_t acHits[TST_RAND_SAMPLE_RANGES] = {0};
int32_t const iFirst = s_aS32Tests[iTest].i32First;
int32_t const iLast = s_aS32Tests[iTest].i32Last;
uint32_t const uRange = iLast - iFirst; AssertMsg(iLast >= iFirst, ("%d\n", iTest));
uint32_t const uDivisor = (uRange ? uRange : UINT32_MAX) / TST_RAND_SAMPLE_RANGES + 1;
RTPrintf("tstRand: TESTING RTRandAdvS32Ex(,%#RI32, %#RI32) distribution... [div=%#RX32 range=%#RX32]\n", iFirst, iLast, uDivisor, uRange);
for (unsigned iSample = 0; iSample < TST_RAND_SAMPLE_RANGES * 10240; iSample++)
{
int32_t iRand = RTRandAdvS32Ex(hRand, iFirst, iLast);
CHECK_EXPR_MSG(iRand >= iFirst, ("%#RI32 %#RI32\n", iRand, iFirst));
CHECK_EXPR_MSG(iRand <= iLast, ("%#RI32 %#RI32\n", iRand, iLast));
uint32_t off = iRand - iFirst;
acHits[off / uDivisor]++;
}
tstRandCheckDist(acHits, iTest);
}
#endif
#if 1
/* signed 64-bit */
static const struct
{
int64_t i64First;
int64_t i64Last;
} s_aS64Tests[] =
{
{ INT64_MIN, INT64_MAX },
{ INT64_MIN, INT64_MAX / 2 },
{ INT64_MIN / 2, INT64_MAX / 2 },
{ INT64_MIN / 2 + INT64_MIN / 4, INT64_MAX / 2 },
{ INT64_MIN / 2 + INT64_MIN / 8, INT64_MAX / 2 },
{ INT64_MIN / 2 + INT64_MIN / 16, INT64_MAX / 2 },
{ INT64_MIN / 2 + INT64_MIN / 64, INT64_MAX / 2 },
{ INT64_MIN / 2 + INT64_MIN / 64, INT64_MAX / 2 + INT64_MAX / 64 },
{ INT64_MIN / 2, INT64_MAX / 2 + INT64_MAX / 64 },
{ INT64_MIN / 2, INT64_MAX / 2 + INT64_MAX / 8 },
{ INT64_MIN / 2, INT64_MAX / 2 - INT64_MAX / 8 },
{ INT64_MIN / 2 - INT64_MIN / 4, INT64_MAX / 2 - INT64_MAX / 4 },
{ INT64_MIN / 2 - INT64_MIN / 4, INT64_MAX / 2 - INT64_MAX / 8 },
{ INT64_MIN / 2 - INT64_MIN / 8, INT64_MAX / 2 - INT64_MAX / 8 },
{ INT64_MIN / 2 - INT64_MIN / 16, INT64_MAX / 2 - INT64_MAX / 8 },
{ INT64_MIN / 2 - INT64_MIN / 16, INT64_MAX / 2 - INT64_MAX / 16 },
{ INT64_MIN / 2 - INT64_MIN / 32, INT64_MAX / 2 - INT64_MAX / 16 },
{ INT64_MIN / 2 - INT64_MIN / 32, INT64_MAX / 2 - INT64_MAX / 32 },
{ INT64_MIN / 2 - INT64_MIN / 64, INT64_MAX / 2 - INT64_MAX / 64 },
{ INT64_MIN / 2 - INT64_MIN / 8, INT64_MAX / 2 },
{ INT64_MIN / 4, INT64_MAX / 4 },
{ INT64_MIN / 5, INT64_MAX / 5 },
{ INT64_MIN / 6, INT64_MAX / 6 },
{ INT64_MIN / 7, INT64_MAX / 7 },
{ INT64_MIN / 8, INT64_MAX / 8 },
{ INT32_MIN, INT32_MAX },
{ INT32_MIN, INT32_MAX / 2 },
{ -0x20000000, INT32_MAX },
{ -0x10000000, INT32_MAX },
{ -0x7f000000, INT32_MAX },
{ -0x08000000, INT32_MAX },
{ -0x00800000, INT32_MAX },
{ -0x00080000, INT32_MAX },
{ -0x00008000, INT32_MAX },
{ 2, INT32_MAX / 2 },
{ 4000000, INT32_MAX / 2 },
{ -4000000, INT32_MAX / 2 },
{ INT32_MIN / 2, INT32_MAX / 2 },
{ 0, TST_RAND_SAMPLE_RANGES - 1 },
{ -TST_RAND_SAMPLE_RANGES / 2, TST_RAND_SAMPLE_RANGES / 2 - 1 }
};
for (unsigned iTest = 0; iTest < RT_ELEMENTS(s_aS64Tests); iTest++)
{
uint32_t acHits[TST_RAND_SAMPLE_RANGES] = {0};
int64_t const iFirst = s_aS64Tests[iTest].i64First;
int64_t const iLast = s_aS64Tests[iTest].i64Last;
uint64_t const uRange = iLast - iFirst; AssertMsg(iLast >= iFirst, ("%d\n", iTest));
uint64_t const uDivisor = (uRange ? uRange : UINT64_MAX) / TST_RAND_SAMPLE_RANGES + 1;
RTPrintf("tstRand: TESTING RTRandAdvS64Ex(,%#RI64, %#RI64) distribution... [div=%#RX64 range=%#016RX64]\n", iFirst, iLast, uDivisor, uRange);
for (unsigned iSample = 0; iSample < TST_RAND_SAMPLE_RANGES * 10240; iSample++)
{
int64_t iRand = RTRandAdvS64Ex(hRand, iFirst, iLast);
CHECK_EXPR_MSG(iRand >= iFirst, ("%#RI64 %#RI64\n", iRand, iFirst));
CHECK_EXPR_MSG(iRand <= iLast, ("%#RI64 %#RI64\n", iRand, iLast));
uint64_t off = iRand - iFirst;
acHits[off / uDivisor]++;
}
tstRandCheckDist(acHits, iTest);
}
#endif
/*
* Test saving and restoring the state.
*/
RTPrintf("tstRand: TESTING RTRandAdvSave/RestoreSave\n");
char szState[256];
size_t cbState = sizeof(szState);
int rc = RTRandAdvSaveState(hRand, szState, &cbState);
if (rc != VERR_NOT_SUPPORTED)
{
CHECK_EXPR_MSG(rc == VINF_SUCCESS, ("RTRandAdvSaveState(%p,,256) -> %Rrc (%d)\n", (uintptr_t)hRand, rc, rc));
uint32_t const u32A1 = RTRandAdvU32(hRand);
uint32_t const u32B1 = RTRandAdvU32(hRand);
RTPrintf("tstRand: state:\"%s\" A=%RX32 B=%RX32\n", szState, u32A1, u32B1);
rc = RTRandAdvRestoreState(hRand, szState);
CHECK_EXPR_MSG(rc == VINF_SUCCESS, ("RTRandAdvRestoreState(%p,\"%s\") -> %Rrc (%d)\n", (uintptr_t)hRand, szState, rc, rc));
uint32_t const u32A2 = RTRandAdvU32(hRand);
uint32_t const u32B2 = RTRandAdvU32(hRand);
CHECK_EXPR_MSG(u32A1 == u32A2, ("u32A1=%RX32 u32A2=%RX32\n", u32A1, u32A2));
CHECK_EXPR_MSG(u32B1 == u32B2, ("u32B1=%RX32 u32B2=%RX32\n", u32B1, u32B2));
}
else
{
szState[0] = '\0';
rc = RTRandAdvRestoreState(hRand, szState);
CHECK_EXPR_MSG(rc == VERR_NOT_SUPPORTED, ("RTRandAdvRestoreState(%p,\"\") -> %Rrc (%d)\n", (uintptr_t)hRand, rc, rc));
}
/*
* Destroy it.
*/
rc = RTRandAdvDestroy(hRand);
CHECK_EXPR_MSG(rc == VINF_SUCCESS, ("RTRandAdvDestroy(%p) -> %Rrc (%d)\n", (uintptr_t)hRand, rc, rc));
return 0;
}
int main()
{
RTR3InitExeNoArguments(0);
RTPrintf("tstRand: TESTING...\n");
/*
* Do some smoke tests first?
*/
/** @todo RTRand smoke testing. */
#if 1
/*
* Test distribution.
*/
#if 1
/* unsigned 32-bit */
static const struct
{
uint32_t u32First;
uint32_t u32Last;
} s_aU32Tests[] =
{
{ 0, UINT32_MAX },
{ 0, UINT32_MAX / 2 + UINT32_MAX / 4 },
{ 0, UINT32_MAX / 2 + UINT32_MAX / 8 },
{ 0, UINT32_MAX / 2 + UINT32_MAX / 16 },
{ 0, UINT32_MAX / 2 + UINT32_MAX / 64 },
{ 0, UINT32_MAX / 2 },
{ UINT32_MAX / 4, UINT32_MAX / 4 * 3 },
{ 0, TST_RAND_SAMPLE_RANGES - 1 },
{ 1234, 1234 + TST_RAND_SAMPLE_RANGES - 1 },
};
for (unsigned iTest = 0; iTest < RT_ELEMENTS(s_aU32Tests); iTest++)
{
uint32_t acHits[TST_RAND_SAMPLE_RANGES] = {0};
uint32_t const uFirst = s_aU32Tests[iTest].u32First;
uint32_t const uLast = s_aU32Tests[iTest].u32Last;
uint32_t const uRange = uLast - uFirst; Assert(uLast >= uFirst);
uint32_t const uDivisor = uRange / TST_RAND_SAMPLE_RANGES + 1;
RTPrintf("tstRand: TESTING RTRandU32Ex(%#RX32, %#RX32) distribution... [div=%#RX32 range=%#RX32]\n", uFirst, uLast, uDivisor, uRange);
for (unsigned iSample = 0; iSample < TST_RAND_SAMPLE_RANGES * 10240; iSample++)
{
uint32_t uRand = RTRandU32Ex(uFirst, uLast);
CHECK_EXPR_MSG(uRand >= uFirst, ("%#RX32 %#RX32\n", uRand, uFirst));
CHECK_EXPR_MSG(uRand <= uLast, ("%#RX32 %#RX32\n", uRand, uLast));
uint32_t off = uRand - uFirst;
acHits[off / uDivisor]++;
}
tstRandCheckDist(acHits, iTest);
}
#endif
#if 1
/* unsigned 64-bit */
static const struct
{
uint64_t u64First;
uint64_t u64Last;
} s_aU64Tests[] =
{
{ 0, UINT64_MAX },
{ 0, UINT64_MAX / 2 + UINT64_MAX / 4 },
{ 0, UINT64_MAX / 2 + UINT64_MAX / 8 },
{ 0, UINT64_MAX / 2 + UINT64_MAX / 16 },
{ 0, UINT64_MAX / 2 + UINT64_MAX / 64 },
{ 0, UINT64_MAX / 2 },
{ UINT64_MAX / 4, UINT64_MAX / 4 * 3 },
{ 0, UINT32_MAX },
{ 0, UINT32_MAX / 2 + UINT32_MAX / 4 },
{ 0, UINT32_MAX / 2 + UINT32_MAX / 8 },
{ 0, UINT32_MAX / 2 + UINT32_MAX / 16 },
{ 0, UINT32_MAX / 2 + UINT32_MAX / 64 },
{ 0, UINT32_MAX / 2 },
{ UINT32_MAX / 4, UINT32_MAX / 4 * 3 },
{ 0, TST_RAND_SAMPLE_RANGES - 1 },
{ 1234, 1234 + TST_RAND_SAMPLE_RANGES - 1 },
};
for (unsigned iTest = 0; iTest < RT_ELEMENTS(s_aU64Tests); iTest++)
{
uint32_t acHits[TST_RAND_SAMPLE_RANGES] = {0};
uint64_t const uFirst = s_aU64Tests[iTest].u64First;
uint64_t const uLast = s_aU64Tests[iTest].u64Last;
uint64_t const uRange = uLast - uFirst; Assert(uLast >= uFirst);
uint64_t const uDivisor = uRange / TST_RAND_SAMPLE_RANGES + 1;
RTPrintf("tstRand: TESTING RTRandU64Ex(%#RX64, %#RX64) distribution... [div=%#RX64 range=%#RX64]\n", uFirst, uLast, uDivisor, uRange);
for (unsigned iSample = 0; iSample < TST_RAND_SAMPLE_RANGES * 10240; iSample++)
{
uint64_t uRand = RTRandU64Ex(uFirst, uLast);
CHECK_EXPR_MSG(uRand >= uFirst, ("%#RX64 %#RX64\n", uRand, uFirst));
CHECK_EXPR_MSG(uRand <= uLast, ("%#RX64 %#RX64\n", uRand, uLast));
uint64_t off = uRand - uFirst;
acHits[off / uDivisor]++;
}
tstRandCheckDist(acHits, iTest);
}
#endif
#if 1
/* signed 32-bit */
static const struct
{
int32_t i32First;
int32_t i32Last;
} s_aS32Tests[] =
{
{ -429496729, 429496729 },
{ INT32_MIN, INT32_MAX },
{ INT32_MIN, INT32_MAX / 2 },
{ -0x20000000, INT32_MAX },
{ -0x10000000, INT32_MAX },
{ -0x08000000, INT32_MAX },
{ -0x00800000, INT32_MAX },
{ -0x00080000, INT32_MAX },
{ -0x00008000, INT32_MAX },
{ -0x00000800, INT32_MAX },
{ 2, INT32_MAX / 2 },
{ 4000000, INT32_MAX / 2 },
{ -4000000, INT32_MAX / 2 },
{ INT32_MIN / 2, INT32_MAX / 2 },
{ INT32_MIN / 3, INT32_MAX / 2 },
{ INT32_MIN / 3, INT32_MAX / 3 },
{ INT32_MIN / 3, INT32_MAX / 4 },
{ INT32_MIN / 4, INT32_MAX / 4 },
{ INT32_MIN / 5, INT32_MAX / 5 },
{ INT32_MIN / 6, INT32_MAX / 6 },
{ INT32_MIN / 7, INT32_MAX / 6 },
{ INT32_MIN / 7, INT32_MAX / 7 },
{ INT32_MIN / 7, INT32_MAX / 8 },
{ INT32_MIN / 8, INT32_MAX / 8 },
{ INT32_MIN / 9, INT32_MAX / 9 },
{ INT32_MIN / 9, INT32_MAX / 12 },
{ INT32_MIN / 12, INT32_MAX / 12 },
{ 0, TST_RAND_SAMPLE_RANGES - 1 },
{ -TST_RAND_SAMPLE_RANGES / 2, TST_RAND_SAMPLE_RANGES / 2 - 1 },
};
for (unsigned iTest = 0; iTest < RT_ELEMENTS(s_aS32Tests); iTest++)
{
uint32_t acHits[TST_RAND_SAMPLE_RANGES] = {0};
int32_t const iFirst = s_aS32Tests[iTest].i32First;
int32_t const iLast = s_aS32Tests[iTest].i32Last;
uint32_t const uRange = iLast - iFirst; AssertMsg(iLast >= iFirst, ("%d\n", iTest));
uint32_t const uDivisor = (uRange ? uRange : UINT32_MAX) / TST_RAND_SAMPLE_RANGES + 1;
RTPrintf("tstRand: TESTING RTRandS32Ex(%#RI32, %#RI32) distribution... [div=%#RX32 range=%#RX32]\n", iFirst, iLast, uDivisor, uRange);
for (unsigned iSample = 0; iSample < TST_RAND_SAMPLE_RANGES * 10240; iSample++)
{
int32_t iRand = RTRandS32Ex(iFirst, iLast);
CHECK_EXPR_MSG(iRand >= iFirst, ("%#RI32 %#RI32\n", iRand, iFirst));
CHECK_EXPR_MSG(iRand <= iLast, ("%#RI32 %#RI32\n", iRand, iLast));
uint32_t off = iRand - iFirst;
acHits[off / uDivisor]++;
}
tstRandCheckDist(acHits, iTest);
}
#endif
#if 1
/* signed 64-bit */
static const struct
{
int64_t i64First;
int64_t i64Last;
} s_aS64Tests[] =
{
{ INT64_MIN, INT64_MAX },
{ INT64_MIN, INT64_MAX / 2 },
{ INT64_MIN / 2, INT64_MAX / 2 },
{ INT64_MIN / 2 + INT64_MIN / 4, INT64_MAX / 2 },
{ INT64_MIN / 2 + INT64_MIN / 8, INT64_MAX / 2 },
{ INT64_MIN / 2 + INT64_MIN / 16, INT64_MAX / 2 },
{ INT64_MIN / 2 + INT64_MIN / 64, INT64_MAX / 2 },
{ INT64_MIN / 2 + INT64_MIN / 64, INT64_MAX / 2 + INT64_MAX / 64 },
{ INT64_MIN / 2, INT64_MAX / 2 + INT64_MAX / 64 },
{ INT64_MIN / 2, INT64_MAX / 2 + INT64_MAX / 8 },
{ INT64_MIN / 2, INT64_MAX / 2 - INT64_MAX / 8 },
{ INT64_MIN / 2 - INT64_MIN / 4, INT64_MAX / 2 - INT64_MAX / 4 },
{ INT64_MIN / 2 - INT64_MIN / 4, INT64_MAX / 2 - INT64_MAX / 8 },
{ INT64_MIN / 2 - INT64_MIN / 8, INT64_MAX / 2 - INT64_MAX / 8 },
{ INT64_MIN / 2 - INT64_MIN / 16, INT64_MAX / 2 - INT64_MAX / 8 },
{ INT64_MIN / 2 - INT64_MIN / 16, INT64_MAX / 2 - INT64_MAX / 16 },
{ INT64_MIN / 2 - INT64_MIN / 32, INT64_MAX / 2 - INT64_MAX / 16 },
{ INT64_MIN / 2 - INT64_MIN / 32, INT64_MAX / 2 - INT64_MAX / 32 },
{ INT64_MIN / 2 - INT64_MIN / 64, INT64_MAX / 2 - INT64_MAX / 64 },
{ INT64_MIN / 2 - INT64_MIN / 8, INT64_MAX / 2 },
{ INT64_MIN / 4, INT64_MAX / 4 },
{ INT64_MIN / 5, INT64_MAX / 5 },
{ INT64_MIN / 6, INT64_MAX / 6 },
{ INT64_MIN / 7, INT64_MAX / 7 },
{ INT64_MIN / 8, INT64_MAX / 8 },
{ INT32_MIN, INT32_MAX },
{ INT32_MIN, INT32_MAX / 2 },
{ -0x20000000, INT32_MAX },
{ -0x10000000, INT32_MAX },
{ -0x7f000000, INT32_MAX },
{ -0x08000000, INT32_MAX },
{ -0x00800000, INT32_MAX },
{ -0x00080000, INT32_MAX },
{ -0x00008000, INT32_MAX },
{ 2, INT32_MAX / 2 },
{ 4000000, INT32_MAX / 2 },
{ -4000000, INT32_MAX / 2 },
{ INT32_MIN / 2, INT32_MAX / 2 },
{ 0, TST_RAND_SAMPLE_RANGES - 1 },
{ -TST_RAND_SAMPLE_RANGES / 2, TST_RAND_SAMPLE_RANGES / 2 - 1 }
};
for (unsigned iTest = 0; iTest < RT_ELEMENTS(s_aS64Tests); iTest++)
{
uint32_t acHits[TST_RAND_SAMPLE_RANGES] = {0};
int64_t const iFirst = s_aS64Tests[iTest].i64First;
int64_t const iLast = s_aS64Tests[iTest].i64Last;
uint64_t const uRange = iLast - iFirst; AssertMsg(iLast >= iFirst, ("%d\n", iTest));
uint64_t const uDivisor = (uRange ? uRange : UINT64_MAX) / TST_RAND_SAMPLE_RANGES + 1;
RTPrintf("tstRand: TESTING RTRandS64Ex(%#RI64, %#RI64) distribution... [div=%#RX64 range=%#016RX64]\n", iFirst, iLast, uDivisor, uRange);
for (unsigned iSample = 0; iSample < TST_RAND_SAMPLE_RANGES * 10240; iSample++)
{
int64_t iRand = RTRandS64Ex(iFirst, iLast);
CHECK_EXPR_MSG(iRand >= iFirst, ("%#RI64 %#RI64\n", iRand, iFirst));
CHECK_EXPR_MSG(iRand <= iLast, ("%#RI64 %#RI64\n", iRand, iLast));
uint64_t off = iRand - iFirst;
acHits[off / uDivisor]++;
}
tstRandCheckDist(acHits, iTest);
}
#endif
#endif /* Testing RTRand */
#if 1
/*
* Test the various random generators.
*/
RTPrintf("tstRand: TESTING RTRandAdvCreateParkerMiller\n");
RTRAND hRand;
int rc = RTRandAdvCreateParkMiller(&hRand);
CHECK_EXPR_MSG(rc == VINF_SUCCESS, ("rc=%Rrc\n", rc));
if (RT_SUCCESS(rc))
if (tstRandAdv(hRand))
return 1;
#endif /* Testing RTRandAdv */
/*
* Summary.
*/
if (!g_cErrors)
RTPrintf("tstRand: SUCCESS\n");
else
RTPrintf("tstRand: FAILED - %d errors\n", g_cErrors);
return !!g_cErrors;
}
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