//Has to be first for StackAllocator swap overload to be taken
//into account (at least using GCC 4.0.1)
#include "stack_allocator.h"
#include <vector>
#include <algorithm>
#include <map>
#include <set>
#if defined (STLPORT) && !defined (_STLP_NO_EXTENSIONS)
# include <hash_map>
# include <hash_set>
# include <rope>
#endif
#include <string>
#include "cppunit/cppunit_proxy.h"
#if defined (__MVS__)
const char star = 92;
#else
const char star = 42;
#endif
#if !defined (STLPORT) || defined (_STLP_USE_NAMESPACES)
using namespace std;
#endif
//
// TestCase class
//
class HashTest : public CPPUNIT_NS::TestCase
{
CPPUNIT_TEST_SUITE(HashTest);
#if !defined (STLPORT) || defined (_STLP_NO_EXTENSIONS)
CPPUNIT_IGNORE;
#endif
CPPUNIT_TEST(hmap1);
CPPUNIT_TEST(hmmap1);
CPPUNIT_TEST(hmmap2);
CPPUNIT_TEST(hmset1);
CPPUNIT_TEST(hset2);
CPPUNIT_TEST(insert_erase);
CPPUNIT_TEST(allocator_with_state);
//CPPUNIT_TEST(equality);
CPPUNIT_TEST_SUITE_END();
#if defined (STLPORT) && !defined (_STLP_NO_EXTENSIONS)
typedef hash_multiset<char, hash<char>, equal_to<char> > hmset;
#endif
protected:
void hmap1();
void hmmap1();
void hmmap2();
void hmset1();
void hset2();
void insert_erase();
//void equality();
void allocator_with_state();
#if defined (STLPORT) && !defined (_STLP_NO_EXTENSIONS)
typedef hash_multimap<int, int> hashType;
typedef multimap<int, int> mapType;
void check_keys( hashType& h, mapType& m );
#endif
};
CPPUNIT_TEST_SUITE_REGISTRATION(HashTest);
//
// tests implementation
//
void HashTest::hmap1()
{
#if defined (STLPORT) && !defined (_STLP_NO_EXTENSIONS)
typedef hash_map<char, crope, hash<char>, equal_to<char> > maptype;
maptype m;
// Store mappings between roman numerals and decimals.
m['l'] = "50";
m['x'] = "20"; // Deliberate mistake.
m['v'] = "5";
m['i'] = "1";
CPPUNIT_ASSERT( !strcmp(m['x'].c_str(),"20") );
m['x'] = "10"; // Correct mistake.
CPPUNIT_ASSERT( !strcmp(m['x'].c_str(),"10") );
CPPUNIT_ASSERT( !strcmp(m['z'].c_str(),"") );
CPPUNIT_ASSERT( m.count('z')==1 );
pair<maptype::iterator, bool> p = m.insert(pair<const char, crope>('c', crope("100")));
CPPUNIT_ASSERT(p.second);
p = m.insert(pair<const char, crope>('c', crope("100")));
CPPUNIT_ASSERT(!p.second);
//Some iterators compare check, really compile time checks
maptype::iterator ite(m.begin());
maptype::const_iterator cite(m.begin());
cite = m.begin();
maptype const& cm = m;
cite = cm.begin();
CPPUNIT_ASSERT( ite == cite );
CPPUNIT_ASSERT( !(ite != cite) );
CPPUNIT_ASSERT( cite == ite );
CPPUNIT_ASSERT( !(cite != ite) );
#endif
}
void HashTest::hmmap1()
{
#if defined (STLPORT) && !defined (_STLP_NO_EXTENSIONS)
typedef hash_multimap<char, int, hash<char>,equal_to<char> > mmap;
mmap m;
CPPUNIT_ASSERT(m.count('X')==0);
m.insert(pair<const char,int>('X', 10)); // Standard way.
CPPUNIT_ASSERT(m.count('X')==1);
// m.insert('X', 20); // Non-standard, but very convenient!
m.insert(pair<const char,int>('X', 20)); // jbuck: standard way
CPPUNIT_ASSERT(m.count('X')==2);
// m.insert('Y', 32);
m.insert(pair<const char,int>('Y', 32)); // jbuck: standard way
mmap::iterator i = m.find('X'); // Find first match.
CPPUNIT_ASSERT((*i).first=='X');
CPPUNIT_ASSERT((*i).second==10);
i++;
CPPUNIT_ASSERT((*i).first=='X');
CPPUNIT_ASSERT((*i).second==20);
i++;
CPPUNIT_ASSERT((*i).first=='Y');
CPPUNIT_ASSERT((*i).second==32);
i++;
CPPUNIT_ASSERT(i==m.end());
size_t count = m.erase('X');
CPPUNIT_ASSERT(count==2);
//Some iterators compare check, really compile time checks
mmap::iterator ite(m.begin());
mmap::const_iterator cite(m.begin());
CPPUNIT_ASSERT( ite == cite );
CPPUNIT_ASSERT( !(ite != cite) );
CPPUNIT_ASSERT( cite == ite );
CPPUNIT_ASSERT( !(cite != ite) );
typedef hash_multimap<size_t, size_t> HMapType;
HMapType hmap;
//We fill the map to implicitely start a rehash.
for (size_t counter = 0; counter < 3077; ++counter)
hmap.insert(HMapType::value_type(1, counter));
hmap.insert(HMapType::value_type(12325, 1));
hmap.insert(HMapType::value_type(12325, 2));
CPPUNIT_ASSERT( hmap.count(12325) == 2 );
//At this point 23 goes to the same bucket as 12325, it used to reveal a bug.
hmap.insert(HMapType::value_type(23, 0));
CPPUNIT_ASSERT( hmap.count(12325) == 2 );
#endif
}
#if defined (STLPORT) && !defined (_STLP_NO_EXTENSIONS)
// Short demonstrator that helps reproducing a bug in the hash-table implementation
// of STLPort 5.0.1/5.0.2.
//
// Problem: Fill a hash_multimap with entries of which many have the same key
// Internally, entries with the same key are kept as one block within the same bucket.
// Thus, when calling equal_range(key) the begin/end of that block is returned.
// However, this code shows that for key =3, that block is destroyed after inserting the 194th element.
// According to _hashtable.c we will have a rehash from size 193 to size 389 in that situation.
// After that rehash, equal_range only returns 2 elements with key = 3 whereas there are 65 in it.
// Reproduction:
// In the main()-method we fill a hash_multimap as well as a multi_map with the same <key, data> pairs
// After each insertion we call check_keys(...) to assure validity of these two containers.
// This works fine up to the 193th insertion. Insertion 194 generates the bug.
//
// check_keys() works as follows:
// (a) we check whether both containers contain the same number of elements.
// (b) Assuming that the multi_map works correctly, we iterate over all its elements and check
// whether we can find that key also in the hash_multimap. We collect all data for that specific
// key in in a set ("collection"). Notice that data is unique by construction in main(), thus the
// number of elements in the set must equal the number of entries in the hash_multimap and in the multimap
// (c) We check if we have seen as many data elements in collection as we have seen in the multimap.
// if so, we print "OK", otherwise we print a detailed key/data overview and assert.
// Caution:
// There are several configurations of the program that will NOT fail. (see comment in code below)
// E.g. it seems that whenever the keys are more or less sorted, the problem does not occur.
// Also, using numbers from 200 downto 1 or from 300 downto 1 cannot generate the problem,
// whereas using 400 downto 1 will fail.
// Finally, if we use key 1 (rather than key 3) we cannot generate a problem.
void HashTest::check_keys( HashTest::hashType& h, HashTest::mapType& m )
{
set<int> collection;
// (a) check sizes
CPPUNIT_CHECK( h.size() == m.size() );
// (b) iterate over multi_map
for ( mapType::iterator i = m.begin(); i != m.end(); ++i ) {
// look up that key in hash-table and keep all data in the set
pair<hashType::iterator,hashType::iterator> range = h.equal_range( i->first );
for ( hashType::iterator j = range.first; j != range.second; ++j ) {
collection.insert( j->second );
}
}
// (c) we should have seen as many elements as there are in the hash-table
#if 0
if (collection.size() == h.size()) cout << " OK" << endl;
else {
// if not, please report
cout << " FAILED: " << endl;
int lastKey = -1;
// iterate over all elements in multi_map
for (mapType::iterator mIter = m.begin(); mIter != m.end(); mIter++) {
// new key? print a new status line
if (mIter->first != lastKey) {
cout << endl << "Key : " << mIter->first << endl;
lastKey = mIter->first;
// print all hashed values for that key
cout << " data in hash: ";
pair<hashType::iterator,hashType::iterator> range = h.equal_range(mIter->first);
for (hashType::iterator h = range.first; h != range.second; h++) {
assert (h->first == lastKey);
cerr << h->second << ", "; // print all data for that key in Hash-Table
}
cout << endl << " data in map: ";
}
// and print all member in multi-map until the next key occurs
cout << mIter->second << ", " ; // print all data for that key in Map
}
}
#endif
CPPUNIT_CHECK( collection.size() == h.size() );
}
#endif
void HashTest::hmmap2()
{
#if defined (STLPORT) && !defined (_STLP_NO_EXTENSIONS)
hashType h;
mapType m;
// CAUTION the following configurations WORKS in our setting
// for (int id = 1; id != 400; id ++) and int key = (id %3 == 0 ? 3 : id)
// for (int id = 200; id != 1; id --) and int key = (id %3 == 0 ? 3 : id)
// for (int id = 300; id != 1; id --) and int key = (id %3 == 0 ? 3 : id)
// for (int id = 400; id != 1; id --) and int key = (id %3 == 0 ? 1 : id)
// for (int id = 4000; id != 1; id --) and int key = (id %3 == 0 ? 1 : id)
//
// whereas these will FAIL
// for (int id = 400; id != 1; id --) and int key = (id %3 == 0 ? 3 : id)
// for (int id = 4000; id != 1; id --) and int key = (id %3 == 0 ? 3 : id)
//
for ( int id = 400; id != 1; id-- ) {
// generate many entries with key 3, fill up with unique keys. Data is unique (needed in check_keys())
int key = (id % 3 == 0 ? 3 : id);
// keep hash_multi_map and multimap in sync
h.insert(make_pair(key, id));
m.insert(make_pair(key, id));
// check whether both contain the same elements
check_keys( h, m );
}
#endif
}
void HashTest::hmset1()
{
#if defined (STLPORT) && !defined (_STLP_NO_EXTENSIONS)
hmset s;
CPPUNIT_ASSERT( s.count(star) == 0 );
s.insert(star);
CPPUNIT_ASSERT( s.count(star) == 1 );
s.insert(star);
CPPUNIT_ASSERT( s.count(star) == 2 );
hmset::iterator i = s.find(char(40));
CPPUNIT_ASSERT( i == s.end() );
i = s.find(star);
CPPUNIT_ASSERT( i != s.end() )
CPPUNIT_ASSERT( *i == '*' );
CPPUNIT_ASSERT( s.erase(star) == 2 );
#endif
}
void HashTest::hset2()
{
#if defined (STLPORT) && !defined (_STLP_NO_EXTENSIONS)
hash_set<int, hash<int>, equal_to<int> > s;
pair<hash_set<int, hash<int>, equal_to<int> >::iterator, bool> p = s.insert(42);
CPPUNIT_ASSERT( p.second );
CPPUNIT_ASSERT( *(p.first) == 42 );
p = s.insert(42);
CPPUNIT_ASSERT( !p.second );
#endif
}
void HashTest::insert_erase()
{
#if defined (STLPORT) && !defined (_STLP_NO_EXTENSIONS)
typedef hash_map<string, size_t, hash<string>, equal_to<string> > hmap;
typedef hmap::value_type val_type;
{
hmap values;
# if !defined (__BORLANDC__) || (__BORLANDC__ >= 0x564)
CPPUNIT_ASSERT( values.insert(val_type("foo", 0)).second );
CPPUNIT_ASSERT( values.insert(val_type("bar", 0)).second );
CPPUNIT_ASSERT( values.insert(val_type("abc", 0)).second );
# else
CPPUNIT_ASSERT( values.insert(hmap::value_type("foo", 0)).second );
CPPUNIT_ASSERT( values.insert(hmap::value_type("bar", 0)).second );
CPPUNIT_ASSERT( values.insert(hmap::value_type("abc", 0)).second );
# endif
CPPUNIT_ASSERT( values.erase("foo") == 1 );
CPPUNIT_ASSERT( values.erase("bar") == 1 );
CPPUNIT_ASSERT( values.erase("abc") == 1 );
}
{
hmap values;
# if !defined (__BORLANDC__) || (__BORLANDC__ >= 0x564)
CPPUNIT_ASSERT( values.insert(val_type("foo", 0)).second );
CPPUNIT_ASSERT( values.insert(val_type("bar", 0)).second );
CPPUNIT_ASSERT( values.insert(val_type("abc", 0)).second );
# else
CPPUNIT_ASSERT( values.insert(hmap::value_type("foo", 0)).second );
CPPUNIT_ASSERT( values.insert(hmap::value_type("bar", 0)).second );
CPPUNIT_ASSERT( values.insert(hmap::value_type("abc", 0)).second );
# endif
CPPUNIT_ASSERT( values.erase("abc") == 1 );
CPPUNIT_ASSERT( values.erase("bar") == 1 );
CPPUNIT_ASSERT( values.erase("foo") == 1 );
}
#endif
}
/*
* Here is the test showing why equality operator on hash containers
* has no meaning:
struct equality_hash_func {
size_t operator () (size_t val) const {
return val % 10;
}
};
void HashTest::equality()
{
hash_set<size_t, equality_hash_func, equal_to<size_t> > s1, s2;
s1.insert(10);
s1.insert(20);
s2.insert(20);
s2.insert(10);
//s1 and s2 contains both 10 and 20:
CPPUNIT_ASSERT( s1 == s2 );
}
*/
void HashTest::allocator_with_state()
{
#if defined (STLPORT) && !defined (_STLP_NO_EXTENSIONS)
char buf1[2048];
StackAllocator<int> stack1(buf1, buf1 + sizeof(buf1));
char buf2[2048];
StackAllocator<int> stack2(buf2, buf2 + sizeof(buf2));
{
typedef hash_set<int, hash<int>, equal_to<int>, StackAllocator<int> > HashSetInt;
HashSetInt hint1(10, hash<int>(), equal_to<int>(), stack1);
int i;
for (i = 0; i < 5; ++i)
hint1.insert(i);
HashSetInt hint1Cpy(hint1);
HashSetInt hint2(10, hash<int>(), equal_to<int>(), stack2);
for (; i < 10; ++i)
hint2.insert(i);
HashSetInt hint2Cpy(hint2);
hint1.swap(hint2);
CPPUNIT_ASSERT( hint1.get_allocator().swaped() );
CPPUNIT_ASSERT( hint2.get_allocator().swaped() );
CPPUNIT_ASSERT( hint1.get_allocator() == stack2 );
CPPUNIT_ASSERT( hint2.get_allocator() == stack1 );
}
CPPUNIT_ASSERT( stack1.ok() );
CPPUNIT_ASSERT( stack2.ok() );
#endif
}
#if defined (STLPORT) && !defined (_STLP_NO_EXTENSIONS) && \
(!defined (_STLP_USE_PTR_SPECIALIZATIONS) || defined (_STLP_CLASS_PARTIAL_SPECIALIZATION))
# if !defined (__DMC__)
/* Simple compilation test: Check that nested types like iterator
* can be access even if type used to instanciate container is not
* yet completely defined.
*/
class IncompleteClass
{
hash_set<IncompleteClass> hsinstances;
typedef hash_set<IncompleteClass>::iterator hsit;
hash_multiset<IncompleteClass> hsminstances;
typedef hash_multiset<IncompleteClass>::iterator hsmit;
hash_map<IncompleteClass, IncompleteClass> hminstances;
typedef hash_map<IncompleteClass, IncompleteClass>::iterator hmit;
hash_multimap<IncompleteClass, IncompleteClass> hmminstances;
typedef hash_multimap<IncompleteClass, IncompleteClass>::iterator hmmit;
};
# endif
#endif