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z3-z3-4.12.6.src.test.mpff.cpp Maven / Gradle / Ivy
/*++
Copyright (c) 2012 Microsoft Corporation
Module Name:
mpff.cpp
Abstract:
mpff tests...
Author:
Leonardo de Moura (leonardo) 2012-09-12.
Revision History:
--*/
#include
#include
#include
#include "util/mpff.h"
#include "util/mpz.h"
#include "util/mpq.h"
static void tst1() {
try {
mpff_manager m;
// m.round_to_minus_inf();
scoped_mpff a(m), b(m);
m.set(a, 100);
m.set(b, -33);
std::cout << "a: " << a << ", b: " << b << "\n";
std::cout << "a*b: " << a*b << "\n";
for (unsigned i = 0; i < 100; i++) {
a = a*a;
std::cout << i << ": " << a << "\n";
}
}
catch (const z3_exception & ex) {
std::cout << ex.msg() << "\n";
}
}
static void tst2() {
mpff_manager m;
scoped_mpff a(m), b(m);
m.set(a, static_cast(100));
m.set(b, static_cast(-100));
std::cout << "[test2], a: " << a << ", b: " << b << "\n";
}
static void tst3() {
mpff_manager m;
scoped_mpff a(m), b(m), c(m);
m.set(a, 1);
m.set(b, 3);
m.div(a, b, c);
std::cout << "[div] c: " << c << "\n";
m.round_to_plus_inf();
m.reset(c);
m.div(a, b, c);
std::cout << "[div] c: " << c << "\n";
}
static void tst4() {
unsynch_mpz_manager zm;
mpff_manager m;
scoped_mpz a(zm);
scoped_mpff b(m);
zm.set(a, 2);
zm.power(a, 512, a);
m.set(b, zm, a);
std::cout << "[mpz->mpff] a: " << a << ", b: " << b << "\n";
}
static void tst5() {
mpff_manager m;
scoped_mpff a(m), b(m);
m.set(a, static_cast(1) << 63);
m.display_raw(std::cout, a); std::cout << "\n";
ENSURE(m.is_zero(b));
ENSURE(m.lt(b, a));
m.set(b, -1);
ENSURE(m.lt(b, a));
}
static void tst6() {
mpff_manager m;
scoped_mpff a(m), b(m), one(m);
m.set(a, 1, 3);
std::cout << "mpff(1/3) " << a << "\n";
b = a;
m.next(b);
ENSURE(m.lt(a, b));
std::cout << "b: " << b << "\n";
m.prev(b);
ENSURE(m.eq(a, b));
m.ceil(b);
std::cout << "b: " << b << "\n";
m.set(b, 4, 3);
std::cout << "b: " << b << "\n";
m.ceil(b);
std::cout << "b: " << b << "\n";
}
static void tst7() {
mpff_manager m;
scoped_mpff a(m);
m.set(a, 2);
m.display_smt2(std::cout, a); std::cout << "\n";
m.set(a, -2);
m.display_smt2(std::cout, a); std::cout << "\n";
m.set(a, 1, 3);
m.display_smt2(std::cout, a); std::cout << "\n";
}
// if (!qm.le(qa, qt)) { TRACE("mpff_bug", tout << fa << "\n" << qa << "\n" << qt << "\n";); UNREACHABLE(); }
#define MK_BIN_OP(OP) \
static void tst_ ## OP ## _core(int64_t n1, uint64_t d1, int64_t n2, uint64_t d2, unsigned precision = 2, unsigned exp = 0) { \
TRACE("mpff_bug", tout << n1 << "/" << d1 << ", " << n2 << "/" << d2 << "\n";); \
unsynch_mpq_manager qm; \
scoped_mpq qa(qm), qb(qm), qc(qm), qt(qm); \
\
mpff_manager fm(precision); \
scoped_mpff fa(fm), fb(fm), fc1(fm), fc2(fm); \
fm.set(fa, n1, d1); \
if (exp != 0) { int _exp = rand() % exp; if (rand() % 2 == 0) _exp = -_exp; fm.set_exponent(fa, _exp); } \
fm.to_mpq(fa, qm, qa); \
fm.set(fb, n2, d2); \
if (exp != 0) { int _exp = rand() % exp; if (rand() % 2 == 0) _exp = -_exp; fm.set_exponent(fb, _exp); } \
fm.to_mpq(fb, qm, qb); \
qm.OP(qa, qb, qc); \
{ \
fm.round_to_plus_inf(); \
fm.OP(fa, fb, fc1); \
fm.to_mpq(fc1, qm, qt); \
ENSURE(qm.le(qc, qt)); \
} \
{ \
fm.round_to_minus_inf(); \
fm.OP(fa, fb, fc2); \
fm.to_mpq(fc2, qm, qt); \
ENSURE(qm.le(qt, qc)); \
} \
ENSURE(fm.le(fc2, fc1)); \
}
MK_BIN_OP(add);
MK_BIN_OP(sub);
MK_BIN_OP(mul);
MK_BIN_OP(div);
#define MK_BIN_RANDOM_TST(OP) \
static void tst_ ## OP(unsigned N, unsigned max, unsigned prec = 2, bool is_div = false) { \
for (unsigned i = 0; i < N; i++) { \
int n1 = rand() % max; \
int d1 = rand() % max + 1; \
int n2 = rand() % max; \
int d2 = rand() % max + 1; \
if (rand () % 2 == 0) \
n1 = -n1; \
if (rand () % 2 == 0) \
n2 = -n2; \
if (is_div && n2 == 0) n2 = 1; \
tst_ ## OP ## _core(n1, d1, n2, d2, prec); \
tst_ ## OP ## _core(n1, d1, n2, d2, prec, 512); \
} \
}
MK_BIN_RANDOM_TST(add)
MK_BIN_RANDOM_TST(sub)
MK_BIN_RANDOM_TST(mul)
MK_BIN_RANDOM_TST(div)
static void tst_bug() {
unsynch_mpq_manager qm;
mpff_manager fm;
fm.round_to_plus_inf();
scoped_mpff a(fm);
fm.set(a, 41, 36);
scoped_mpq b(qm), c(qm);
qm.set(b, 41, 36);
fm.to_mpq(a, qm, c);
ENSURE(qm.le(b, c));
}
static void tst_bug2() {
mpff_manager fm(4);
scoped_mpff a(fm), b(fm);
fm.set(b, 1);
fm.sub(a, b, b);
fm.set(a, -1);
ENSURE(fm.eq(a, b));
fm.set(a, 1);
fm.set(b, 0);
fm.sub(a, b, a);
fm.set(b, 1);
ENSURE(fm.eq(a, b));
fm.set(a, 1);
fm.set(b, 1);
fm.sub(a, b, a);
ENSURE(fm.is_zero(a));
}
static void tst_set64(unsigned N, unsigned prec) {
mpff_manager fm(prec);
scoped_mpff a(fm);
fm.set(a, static_cast(INT64_MAX));
ENSURE(fm.is_int64(a));
ENSURE(fm.is_uint64(a));
fm.inc(a);
ENSURE(!fm.is_int64(a));
ENSURE(fm.is_uint64(a));
ENSURE(fm.is_int(a));
fm.dec(a);
ENSURE(fm.is_int64(a));
ENSURE(fm.is_uint64(a));
fm.dec(a);
ENSURE(fm.is_int64(a));
ENSURE(fm.is_uint64(a));
fm.set(a, static_cast(INT64_MIN));
ENSURE(fm.is_int64(a));
ENSURE(!fm.is_uint64(a));
fm.dec(a);
ENSURE(!fm.is_int64(a));
ENSURE(!fm.is_uint64(a));
ENSURE(fm.is_int(a));
fm.inc(a);
ENSURE(fm.is_int64(a));
ENSURE(!fm.is_uint64(a));
fm.inc(a);
ENSURE(fm.is_int64(a));
ENSURE(!fm.is_uint64(a));
fm.set(a, static_cast(UINT64_MAX));
ENSURE(fm.is_uint64(a));
ENSURE(!fm.is_int64(a));
fm.inc(a);
ENSURE(!fm.is_uint64(a));
ENSURE(!fm.is_int64(a));
fm.dec(a);
ENSURE(fm.is_uint64(a));
ENSURE(!fm.is_int64(a));
fm.dec(a);
ENSURE(fm.is_uint64(a));
ENSURE(!fm.is_int64(a));
for (unsigned i = 0; i < N; i++) {
{
uint64_t v = (static_cast(rand()) << 32) + static_cast(rand());
fm.set(a, v);
ENSURE(fm.is_uint64(a));
v = (static_cast(rand() % 3) << 32) + static_cast(rand());
fm.set(a, v);
ENSURE(fm.is_uint64(a));
}
{
int64_t v = (static_cast(rand() % INT_MAX) << 32) + static_cast(rand());
if (rand()%2 == 0)
v = -v;
fm.set(a, v);
ENSURE(fm.is_int64(a));
v = (static_cast(rand() % 3) << 32) + static_cast(rand());
if (rand()%2 == 0)
v = -v;
fm.set(a, v);
ENSURE(fm.is_int64(a));
}
}
}
static void tst_capacity(unsigned prec = 2) {
mpff_manager m(prec);
scoped_mpff_vector v(m);
scoped_mpff a(m);
for (unsigned i = 0; i < 50000; i++) {
m.set(a, i);
v.push_back(a);
ENSURE(m.is_int(v.back()));
ENSURE(m.is_int64(v.back()));
ENSURE(m.is_uint64(v.back()));
}
for (unsigned i = 0; i < 50000; i++) {
ENSURE(m.get_int64(v[i]) == i);
}
}
static void tst_power(unsigned prec = 2) {
mpff_manager m(prec);
scoped_mpff a(m), b(m);
// 0^k == 0
ENSURE(m.is_zero(a));
m.power(a, 10, a);
ENSURE(m.is_zero(a));
// a != 0 ==> a^0 == 1
m.set(a, 33);
m.power(a, 0, a);
ENSURE(m.is_one(a));
m.set(a, -33);
m.power(a, 0, a);
ENSURE(m.is_one(a));
// a^1 == a
m.set(a, 33);
m.power(a, 1, b);
ENSURE(m.eq(a, b));
m.set(a, -33);
m.power(a, 1, b);
ENSURE(m.eq(a, b));
// checking special support for powers of 2
unsigned k;
m.set(a, 1);
ENSURE(m.is_power_of_two(a, k) && k == 0);
m.set(a, 2);
ENSURE(m.is_power_of_two(a, k) && k == 1);
m.set(a, 3);
ENSURE(!m.is_power_of_two(a, k));
m.set(a, 4);
ENSURE(m.is_power_of_two(a, k) && k == 2);
m.set(a, -4);
ENSURE(!m.is_power_of_two(a, k));
m.set(a, 8);
ENSURE(m.is_power_of_two(a, k) && k == 3);
m.set(a, 0);
ENSURE(!m.is_power_of_two(a));
m.set(a, UINT_MAX);
m.inc(a);
ENSURE(m.is_power_of_two(a, k) && k == 32);
ENSURE(m.get_uint64(a) == static_cast(UINT_MAX) + 1);
m.power(a, 2, a);
ENSURE(m.is_power_of_two(a, k) && k == 64);
m.power(a, 4, a);
ENSURE(m.is_power_of_two(a, k) && k == 256);
m.round_to_plus_inf();
m.inc(a);
ENSURE(!m.is_power_of_two(a, k));
m.set(a, -4);
m.power(a, 3, a);
m.set(b, -64);
ENSURE(m.eq(a, b));
m.set(a, -4);
m.power(a, 4, a);
m.set(b, 256);
ENSURE(m.eq(a, b));
// additional tests
m.set(a, 5);
m.power(a, 3, a);
m.set(b, 5*5*5);
ENSURE(m.eq(a,b));
m.set(a, -5);
m.power(a, 3, a);
m.set(b, -5*5*5);
ENSURE(m.eq(a,b));
}
static void tst_sgn(unsigned prec) {
mpff_manager m(prec);
scoped_mpff a(m), b(m);
ENSURE(m.is_zero(a) && !m.is_pos(a) && !m.is_neg(a) && m.is_nonpos(a) && m.is_nonneg(a));
m.set(a, 3);
ENSURE(!m.is_zero(a) && m.is_pos(a) && !m.is_neg(a) && !m.is_nonpos(a) && m.is_nonneg(a));
m.set(a, -3);
ENSURE(!m.is_zero(a) && !m.is_pos(a) && m.is_neg(a) && m.is_nonpos(a) && !m.is_nonneg(a));
m.set(a, 8);
m.power(a, 256, a);
ENSURE(!m.is_zero(a) && m.is_pos(a) && !m.is_neg(a) && !m.is_nonpos(a) && m.is_nonneg(a));
b = a;
m.neg(a);
ENSURE(m.neq(a, b));
ENSURE(!m.is_zero(a) && !m.is_pos(a) && m.is_neg(a) && m.is_nonpos(a) && !m.is_nonneg(a));
m.neg(a);
ENSURE(m.eq(a, b));
m.set(a, 1);
ENSURE(m.is_one(a) && !m.is_zero(a) && !m.is_minus_one(a) && m.is_abs_one(a));
m.neg(a);
ENSURE(!m.is_one(a) && !m.is_zero(a) && m.is_minus_one(a) && m.is_abs_one(a));
m.set(a, 3);
ENSURE(!m.is_one(a) && !m.is_zero(a) && !m.is_minus_one(a));
m.set(a, 3);
b = a;
m.abs(a);
ENSURE(m.eq(a, b));
m.set(a, -3);
b = a;
m.abs(a);
ENSURE(!m.eq(a,b) && m.is_pos(a));
m.set(a, 1);
m.swap(a, a);
ENSURE(m.is_one(a));
m.set(b, -1);
m.swap(a, b);
ENSURE(m.is_one(b) && m.is_minus_one(a));
m.neg(a);
ENSURE(m.eq(a, b));
}
static void tst_limits(unsigned prec) {
mpff_manager m(prec);
scoped_mpff a(m), b(m), two(m);
m.set_max(a);
ENSURE(m.is_pos(a));
m.set_min(b);
ENSURE(m.is_neg(b));
m.neg(a);
ENSURE(m.eq(a, b));
m.set_max(a);
m.set_max(b);
m.round_to_minus_inf();
m.inc(a);
ENSURE(m.eq(a, b));
m.dec(a);
ENSURE(m.lt(a, b));
m.set_max(a);
m.round_to_plus_inf();
bool overflow = false;
try { m.inc(a); }
catch (const mpff_manager::overflow_exception &) { overflow = true; }
VERIFY(overflow);
m.set_max(a);
m.dec(a);
ENSURE(m.eq(a, b));
m.set_min(a);
m.set_min(b);
m.round_to_minus_inf();
m.inc(a);
ENSURE(m.eq(a, b));
overflow = true;
try { m.dec(a); }
catch (const mpff_manager::overflow_exception &) { overflow = true; }
ENSURE(overflow);
m.round_to_plus_inf();
m.set_min(a);
m.inc(a);
ENSURE(m.gt(a,b));
m.set_min(a);
m.dec(a);
ENSURE(m.eq(a,b));
m.set_plus_epsilon(a);
m.set_plus_epsilon(b);
ENSURE(!m.is_zero(a) && m.is_pos(a));
m.set(two, 2);
m.round_to_plus_inf();
m.div(a, two, a);
ENSURE(m.eq(a, b));
m.round_to_minus_inf();
m.div(a, two, a);
ENSURE(m.is_zero(a));
m.round_to_plus_inf();
m.set_plus_epsilon(a);
m.add(a, a, a);
ENSURE(m.gt(a, b));
m.round_to_minus_inf();
m.set_plus_epsilon(a);
m.add(a, a, a);
ENSURE(m.gt(a, b));
m.set_plus_epsilon(a);
m.sub(a, a, a);
ENSURE(m.is_zero(a));
m.set_plus_epsilon(a);
ENSURE(m.is_plus_epsilon(a));
ENSURE(!m.is_minus_epsilon(a));
m.neg(a);
ENSURE(!m.is_plus_epsilon(a));
ENSURE(m.is_minus_epsilon(a));
for (unsigned i = 0; i < 2; i++) {
m.set_rounding(i == 0);
m.set_plus_epsilon(a);
m.floor(a);
ENSURE(m.is_zero(a));
m.set_plus_epsilon(a);
m.ceil(a);
ENSURE(m.is_one(a));
m.set_minus_epsilon(a);
m.floor(a);
ENSURE(m.is_minus_one(a));
m.set_minus_epsilon(a);
m.ceil(a);
ENSURE(m.is_zero(a));
}
m.set_minus_epsilon(a);
m.set_minus_epsilon(b);
ENSURE(!m.is_zero(a) && m.is_neg(a));
m.set(two, 2);
m.round_to_minus_inf();
m.div(a, two, a);
ENSURE(m.eq(a, b));
m.round_to_plus_inf();
m.div(a, two, a);
ENSURE(m.is_zero(a));
m.round_to_plus_inf();
m.set_minus_epsilon(a);
m.add(a, a, a);
ENSURE(m.lt(a, b));
m.round_to_minus_inf();
m.set_minus_epsilon(a);
m.add(a, a, a);
ENSURE(m.lt(a, b));
m.set_minus_epsilon(a);
m.sub(a, a, a);
ENSURE(m.is_zero(a));
m.set_minus_epsilon(a);
ENSURE(!m.is_plus_epsilon(a));
ENSURE(m.is_minus_epsilon(a));
m.neg(a);
ENSURE(m.is_plus_epsilon(a));
ENSURE(!m.is_minus_epsilon(a));
}
#if 0
static void tst_add_corner(unsigned prec) {
mpff_manager m(prec);
scoped_mpff a(m), b(m);
}
#endif
static void tst_decimal(int64_t n, uint64_t d, bool to_plus_inf, unsigned prec, char const * expected, unsigned decimal_places = UINT_MAX) {
mpff_manager m(prec);
scoped_mpff a(m);
m.set_rounding(to_plus_inf);
m.set(a, n, d);
m.display(std::cout, a); std::cout << std::endl;
m.display_decimal(std::cout, a, decimal_places); std::cout << std::endl;
std::ostringstream buffer;
m.display_decimal(buffer, a, decimal_places);
ENSURE(strcmp(expected, buffer.str().c_str()) == 0);
}
static void tst_decimal() {
tst_decimal(1, 3, false, 2, "0.3333333333333333333152632971252415927665424533188343048095703125");
tst_decimal(1, 3, false, 4, "0.33333333333333333333333333333333333333235375470764809374335938621898146193515111203602326039874270691143465228378772735595703125");
tst_decimal(-1, 3, true, 2, "-0.3333333333333333333152632971252415927665424533188343048095703125");
tst_decimal(-1, 3, false, 2, "-0.33333333333333333334236835143737920361672877334058284759521484375");
tst_decimal(0, 1, false, 2, "0");
tst_decimal(2, 1, false, 2, "2");
tst_decimal(-3, 1, false, 2, "-3");
tst_decimal(INT64_MAX, 1, false, 2, "9223372036854775807");
tst_decimal(4, 5, false, 2, "0.79999999999999999995663191310057982263970188796520233154296875");
tst_decimal(4, 5, false, 2, "0.7999999999?", 10);
tst_decimal(32, 5, true, 2, "6.4000000000000000000867361737988403547205962240695953369140625");
tst_decimal(32, 5, false, 2, "6.39999999999999999965305530480463858111761510372161865234375");
tst_decimal(-32, 5, false, 2, "-6.4000000000000000000867361737988403547205962240695953369140625");
tst_decimal(-32, 5, true, 2, "-6.39999999999999999965305530480463858111761510372161865234375");
}
static void tst_prev_power_2(int64_t n, uint64_t d, unsigned expected) {
mpff_manager m;
scoped_mpff a(m);
m.set(a, n, d);
ENSURE(m.prev_power_of_two(a) == expected);
}
static void tst_prev_power_2() {
tst_prev_power_2(-10, 1, 0);
tst_prev_power_2(0, 1, 0);
tst_prev_power_2(1, 1, 0);
tst_prev_power_2(2, 1, 1);
tst_prev_power_2(3, 1, 1);
tst_prev_power_2(4, 1, 2);
tst_prev_power_2(5, 1, 2);
tst_prev_power_2(8, 1, 3);
tst_prev_power_2(9, 1, 3);
tst_prev_power_2(9, 2, 2);
tst_prev_power_2(9, 4, 1);
tst_prev_power_2(9, 5, 0);
tst_prev_power_2((1ll << 60) + 1, 1, 60);
tst_prev_power_2((1ll << 60), 1, 60);
tst_prev_power_2((1ll << 60) - 1, 1, 59);
tst_prev_power_2((1ll << 60), 3, 58);
}
static void tst_div(unsigned prec) {
mpff_manager m(prec);
scoped_mpff a(m), b(m), c(m);
m.round_to_plus_inf();
m.set(a, 1);
m.set(b, static_cast(UINT64_MAX));
m.div(a, b, c);
m.display_raw(std::cout, a); std::cout << "\n";
m.display_raw(std::cout, b); std::cout << "\n";
std::cout << a << "/" << b << " <= " << c << "\n";
// 10...0 0...0
// 11111
}
void tst_mpff() {
disable_trace("mpff");
enable_trace("mpff_trace");
// enable_trace("mpff_bug");
// enable_trace("mpff_to_mpq");
//
tst_div(2);
tst_prev_power_2();
tst_decimal();
tst_div_core(679, 396, 279, 756, 2, 0);
tst_limits(2);
tst_limits(4);
tst_sgn(2);
tst_sgn(4);
tst_sgn(8);
tst_power(2);
tst_power(4);
tst_power(18);
tst_capacity(2);
tst_capacity(4);
tst_capacity(8);
tst_capacity(16);
tst_set64(1000, 2);
tst_set64(1000, 4);
tst_set64(1000, 6);
tst_bug2();
tst_sub(1000, 1024, 2);
tst_sub(1000, 1024, 4);
tst_div(1000, 1024, 2, true);
tst_div(1000, 1024, 4, true);
tst_mul(1000, 1024, 2);
tst_mul(1000, 1024, 4);
tst_add(1000, 1024, 2);
tst_add(1000, 1024, 4);
tst_sub(1000, UINT_MAX, 2);
tst_sub(1000, UINT_MAX, 4);
tst_div(1000, UINT_MAX, 2, true);
tst_div(1000, UINT_MAX, 4, true);
tst_mul(1000, UINT_MAX, 2);
tst_mul(1000, UINT_MAX, 4);
tst_add(1000, UINT_MAX, 2);
tst_add(1000, UINT_MAX, 4);
tst_bug2();
tst_bug();
tst_add_core(1,1, 1,1);
tst_add_core(1,3, 2,3);
tst1();
tst2();
tst3();
tst4();
tst5();
tst6();
tst7();
}
