minix/test/test53.c
Gerard 78da142dab Replaced common u64.h functions with operators.
Change-Id: I71b7b4879209eeff89ce5748d67102afebf871dc
2014-03-02 12:28:32 +01:00

293 lines
6.1 KiB
C

#include <assert.h>
#include <minix/u64.h>
#include <setjmp.h>
#include <signal.h>
#include <stdio.h>
#include <stdlib.h>
#include <sys/time.h>
#include <unistd.h>
#define ERR err(__LINE__)
int max_error = 4;
#include "common.h"
#define TIMED 0
static volatile int expect_SIGFPE;
static u64_t i, j, k;
static jmp_buf jmpbuf_SIGFPE, jmpbuf_main;
static void err(int line)
{
/* print error information */
printf("error line %d; i=0x%.8lx%.8lx; j=0x%.8lx%.8lx; k=0x%.8lx%.8lx\n",
line,
ex64hi(i), ex64lo(i),
ex64hi(j), ex64lo(j),
ex64hi(k), ex64lo(k));
/* quit after too many errors */
e(7);
}
#define LENGTHOF(arr) (sizeof(arr) / sizeof(arr[0]))
static u64_t getargval(int index, int *done)
{
u32_t values[] = {
/* corner cases */
0,
1,
0x7fffffff,
0x80000000,
0x80000001,
0xffffffff,
/* random values */
0xa9,
0x0d88,
0x242811,
0xeb44d1bc,
0x5b,
0xfb50,
0x569c02,
0xb23c8f7d,
0xc3,
0x2366,
0xfabb73,
0xcb4e8aef,
0xe9,
0xffdc,
0x05842d,
0x3fff902d};
assert(done);
/* values with corner case and random 32-bit components */
if (index < LENGTHOF(values) * LENGTHOF(values))
return make64(values[index / LENGTHOF(values)], values[index % LENGTHOF(values)]);
index -= LENGTHOF(values) * LENGTHOF(values);
/* small numbers */
if (index < 16) return make64(index + 2, 0);
index -= 16;
/* big numbers */
if (index < 16) return make64(-index - 2, -1);
index -= 16;
/* powers of two */
if (index < 14) return make64(1 << (index * 2 + 5), 0);
index -= 14;
if (index < 16) return make64(0, 1 << (index * 2 + 1));
index -= 16;
/* done */
*done = 1;
return make64(0, 0);
}
static void handler_SIGFPE(int signum)
{
assert(signum == SIGFPE);
/* restore the signal handler */
if (signal(SIGFPE, handler_SIGFPE) == SIG_ERR) ERR;
/* division by zero occurred, was this expected? */
if (expect_SIGFPE) {
/* expected: jump back to test */
expect_SIGFPE = 0;
longjmp(jmpbuf_SIGFPE, -1);
} else {
/* not expected: error and jump back to main */
longjmp(jmpbuf_main, -1);
}
/* not reachable */
assert(0);
exit(-1);
}
static inline int bsr64(u64_t i)
{
int index;
u64_t mask;
for (index = 63, mask = 1ULL << 63; index >= 0; --index, mask >>= 1) {
if (i & mask)
return index;
}
return -1;
}
static void testmul(void)
{
int kdone, kidx;
u32_t ilo = ex64lo(i), jlo = ex64lo(j);
u64_t prod = i * j;
int prodbits;
/* compute maximum index of highest-order bit */
prodbits = bsr64(i) + bsr64(j) + 1;
if (i == 0 || j == 0) prodbits = -1;
if (bsr64(prod) > prodbits) ERR;
/* compare to 32-bit multiplication if possible */
if (ex64hi(i) == 0 && ex64hi(j) == 0) {
if (prod != (u64_t)ilo * jlo) ERR;
/* if there is no overflow we can check against pure 32-bit */
if (prodbits < 32 && prod != ilo * jlo) ERR;
}
/* in 32-bit arith low-order DWORD matches regardless of overflow */
if (ex64lo(prod) != ilo * jlo) ERR;
/* multiplication by zero yields zero */
if (prodbits < 0 && prod != 0) ERR;
/* if there is no overflow, check absence of zero divisors */
if (prodbits >= 0 && prodbits < 64 && prod == 0) ERR;
/* commutativity */
if (prod != j * i) ERR;
/* loop though all argument value combinations for third argument */
for (kdone = 0, kidx = 0; k = getargval(kidx, &kdone), !kdone; kidx++) {
/* associativity */
if ((i * j) * k != i * (j * k)) ERR;
/* left and right distributivity */
if ((i + j) * k != (i * k) + (j * k)) ERR;
if (i * (j + k) != (i * j) + (i * k)) ERR;
}
}
static void testdiv0(void)
{
int funcidx;
u64_t res;
assert(j == 0);
/* loop through the 5 different division functions */
for (funcidx = 0; funcidx < 5; funcidx++) {
expect_SIGFPE = 1;
if (setjmp(jmpbuf_SIGFPE) == 0) {
/* divide by zero using various functions */
switch (funcidx) {
case 0: res = i / j; ERR; break;
case 1: res = i / ex64lo(j); ERR; break;
case 2: res = i / ex64lo(j); ERR; break;
case 3: res = i % j; ERR; break;
case 4: res = i % ex64lo(j); ERR; break;
default: assert(0); ERR; break;
}
/* if we reach this point there was no signal and an
* error has been recorded
*/
expect_SIGFPE = 0;
} else {
/* a signal has been received and expect_SIGFPE has
* been reset; all is ok now
*/
assert(!expect_SIGFPE);
}
}
}
static void testdiv(void)
{
u64_t q, r;
#if TIMED
struct timeval tvstart, tvend;
printf("i=0x%.8x%.8x; j=0x%.8x%.8x\n",
ex64hi(i), ex64lo(i),
ex64hi(j), ex64lo(j));
fflush(stdout);
if (gettimeofday(&tvstart, NULL) < 0) ERR;
#endif
/* division by zero has a separate test */
if (j == 0) {
testdiv0();
return;
}
/* perform division, store q in k to make ERR more informative */
q = i / j;
r = i % j;
k = q;
#if TIMED
if (gettimeofday(&tvend, NULL) < 0) ERR;
tvend.tv_sec -= tvstart.tv_sec;
tvend.tv_usec -= tvstart.tv_usec;
if (tvend.tv_usec < 0) {
tvend.tv_sec -= 1;
tvend.tv_usec += 1000000;
}
printf("q=0x%.8x%.8x; r=0x%.8x%.8x; time=%d.%.6d\n",
ex64hi(q), ex64lo(q),
ex64hi(r), ex64lo(r),
tvend.tv_sec, tvend.tv_usec);
fflush(stdout);
#endif
/* compare to 64/32-bit division if possible */
if (!ex64hi(j)) {
if (q != i / ex64lo(j)) ERR;
if (!ex64hi(q)) {
if (q != i / ex64lo(j)) ERR;
}
if (r != i % ex64lo(j)) ERR;
/* compare to 32-bit division if possible */
if (!ex64hi(i)) {
if (q != ex64lo(i) / ex64lo(j)) ERR;
if (r != ex64lo(i) % ex64lo(j)) ERR;
}
}
/* check results using i = q j + r and r < j */
if (i != (q * j) + r) ERR;
if (r >= j) ERR;
}
static void test(void)
{
int idone, jdone, iidx, jidx;
/* loop though all argument value combinations */
for (idone = 0, iidx = 0; i = getargval(iidx, &idone), !idone; iidx++)
for (jdone = 0, jidx = 0; j = getargval(jidx, &jdone), !jdone; jidx++) {
testmul();
testdiv();
}
}
int main(void)
{
start(53);
/* set up signal handler to deal with div by zero */
if (setjmp(jmpbuf_main) == 0) {
if (signal(SIGFPE, handler_SIGFPE) == SIG_ERR) ERR;
/* perform tests */
test();
} else {
/* an unexpected SIGFPE has occurred */
ERR;
}
/* this was all */
quit();
return(-1); /* Unreachable */
}