/* Unit tests for hash-set.h.
Copyright (C) 2015-2020 Free Software Foundation, Inc.
This file is part of GCC.
GCC 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; either version 3, or (at your option) any later
version.
GCC 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 GCC; see the file COPYING3. If not see
. */
#include "config.h"
#include "system.h"
#include "coretypes.h"
#include "tm.h"
#include "opts.h"
#include "hash-set.h"
#include "selftest.h"
#if CHECKING_P
namespace selftest {
/* Construct a hash_set and verify that various operations
work correctly. */
static void
test_set_of_strings ()
{
hash_set s;
ASSERT_EQ (0, s.elements ());
const char *red = "red";
const char *green = "green";
const char *blue = "blue";
ASSERT_EQ (false, s.contains (red));
for (hash_set::iterator it = s.begin (); it != s.end (); ++it)
ASSERT_EQ (true, false);
/* Populate the hash_set. */
ASSERT_EQ (false, s.add (red));
ASSERT_EQ (false, s.add (green));
ASSERT_EQ (false, s.add (blue));
ASSERT_EQ (true, s.add (green));
/* Verify that the values are now within the set. */
ASSERT_EQ (true, s.contains (red));
ASSERT_EQ (true, s.contains (green));
ASSERT_EQ (true, s.contains (blue));
ASSERT_EQ (3, s.elements ());
/* Test removal. */
s.remove (red);
ASSERT_EQ (false, s.contains (red));
ASSERT_EQ (true, s.contains (green));
ASSERT_EQ (true, s.contains (blue));
ASSERT_EQ (2, s.elements ());
s.remove (red);
ASSERT_EQ (false, s.contains (red));
ASSERT_EQ (true, s.contains (green));
ASSERT_EQ (true, s.contains (blue));
ASSERT_EQ (2, s.elements ());
int seen = 0;
for (hash_set::iterator it = s.begin (); it != s.end (); ++it)
{
int n = *it == green;
if (n == 0)
ASSERT_EQ (*it, blue);
ASSERT_EQ (seen & (1 << n), 0);
seen |= 1 << n;
}
ASSERT_EQ (seen, 3);
hash_set t;
ASSERT_EQ (0, t.elements ());
ASSERT_EQ (false, t.contains (red));
for (hash_set::iterator it = t.begin ();
it != t.end (); ++it)
ASSERT_EQ (true, false);
/* Populate the hash_set. */
ASSERT_EQ (false, t.add (red));
ASSERT_EQ (false, t.add (green));
ASSERT_EQ (false, t.add (blue));
ASSERT_EQ (true, t.add (green));
/* Verify that the values are now within the set. */
ASSERT_EQ (true, t.contains (red));
ASSERT_EQ (true, t.contains (green));
ASSERT_EQ (true, t.contains (blue));
ASSERT_EQ (3, t.elements ());
seen = 0;
for (hash_set::iterator it = t.begin ();
it != t.end (); ++it)
{
int n = 2;
if (*it == green)
n = 0;
else if (*it == blue)
n = 1;
else
ASSERT_EQ (*it, red);
ASSERT_EQ (seen & (1 << n), 0);
seen |= 1 << n;
}
ASSERT_EQ (seen, 7);
/* Test removal. */
t.remove (red);
ASSERT_EQ (false, t.contains (red));
ASSERT_EQ (true, t.contains (green));
ASSERT_EQ (true, t.contains (blue));
ASSERT_EQ (2, t.elements ());
t.remove (red);
ASSERT_EQ (false, t.contains (red));
ASSERT_EQ (true, t.contains (green));
ASSERT_EQ (true, t.contains (blue));
ASSERT_EQ (2, t.elements ());
}
typedef class hash_set_test_value_t
{
public:
static int ndefault;
static int ncopy;
static int nassign;
static int ndtor;
hash_set_test_value_t (int v = 1): pval (&val), val (v)
{
++ndefault;
}
hash_set_test_value_t (const hash_set_test_value_t &rhs)
: pval (&val), val (rhs.val)
{
++ncopy;
}
hash_set_test_value_t& operator= (const hash_set_test_value_t &rhs)
{
++nassign;
val = rhs.val;
return *this;
}
~hash_set_test_value_t ()
{
/* Verify that the value hasn't been corrupted. */
gcc_assert (*pval > 0);
gcc_assert (pval == &val);
*pval = -3;
++ndtor;
}
int *pval;
int val;
} val_t;
int val_t::ndefault;
int val_t::ncopy;
int val_t::nassign;
int val_t::ndtor;
struct value_hash_traits: int_hash
{
typedef int_hash base_type;
typedef val_t value_type;
typedef value_type compare_type;
static hashval_t hash (const value_type &v)
{
return base_type::hash (v.val);
}
static bool equal (const value_type &a, const compare_type &b)
{
return base_type::equal (a.val, b.val);
}
static void mark_deleted (value_type &v)
{
base_type::mark_deleted (v.val);
}
static const bool empty_zero_p = false;
static void mark_empty (value_type &v)
{
base_type::mark_empty (v.val);
}
static bool is_deleted (const value_type &v)
{
return base_type::is_deleted (v.val);
}
static bool is_empty (const value_type &v)
{
return base_type::is_empty (v.val);
}
static void remove (value_type &v)
{
v.~value_type ();
}
};
static void
test_set_of_type_with_ctor_and_dtor ()
{
typedef hash_set Set;
{
Set s;
(void)&s;
}
ASSERT_TRUE (val_t::ndefault == 0);
ASSERT_TRUE (val_t::ncopy == 0);
ASSERT_TRUE (val_t::nassign == 0);
ASSERT_TRUE (val_t::ndtor == 0);
{
Set s;
ASSERT_EQ (false, s.add (val_t ()));
ASSERT_EQ (true, 1 == s.elements ());
}
ASSERT_TRUE (val_t::ndefault + val_t::ncopy == val_t::ndtor);
{
Set s;
ASSERT_EQ (false, s.add (val_t ()));
ASSERT_EQ (true, s.add (val_t ()));
ASSERT_EQ (true, 1 == s.elements ());
}
ASSERT_TRUE (val_t::ndefault + val_t::ncopy == val_t::ndtor);
{
Set s;
val_t v1 (1), v2 (2), v3 (3);
int ndefault = val_t::ndefault;
int nassign = val_t::nassign;
ASSERT_EQ (false, s.add (v1));
ASSERT_EQ (true, s.contains (v1));
ASSERT_EQ (true, 1 == s.elements ());
ASSERT_EQ (false, s.add (v2));
ASSERT_EQ (true, s.contains (v2));
ASSERT_EQ (true, 2 == s.elements ());
ASSERT_EQ (false, s.add (v3));
ASSERT_EQ (true, s.contains (v3));
ASSERT_EQ (true, 3 == s.elements ());
ASSERT_EQ (true, s.add (v2));
ASSERT_EQ (true, s.contains (v2));
ASSERT_EQ (true, 3 == s.elements ());
s.remove (v2);
ASSERT_EQ (true, 2 == s.elements ());
s.remove (v3);
ASSERT_EQ (true, 1 == s.elements ());
/* Verify that no default ctors or assignment operators have
been called. */
ASSERT_EQ (true, ndefault == val_t::ndefault);
ASSERT_EQ (true, nassign == val_t::nassign);
}
ASSERT_TRUE (val_t::ndefault + val_t::ncopy == val_t::ndtor);
}
/* Run all of the selftests within this file. */
void
hash_set_tests_c_tests ()
{
test_set_of_strings ();
test_set_of_type_with_ctor_and_dtor ();
}
} // namespace selftest
#endif /* #if CHECKING_P */