@ -17,83 +17,65 @@
@@ -17,83 +17,65 @@
using namespace std ;
class mrutester
{
private :
mruset < int > mru ;
std : : set < int > set ;
public :
mrutester ( ) { mru . max_size ( MAX_SIZE ) ; }
int size ( ) const { return set . size ( ) ; }
void insert ( int n )
{
mru . insert ( n ) ;
set . insert ( n ) ;
BOOST_CHECK ( mru = = set ) ;
}
} ;
BOOST_FIXTURE_TEST_SUITE ( mruset_tests , BasicTestingSetup )
// Test that an mruset behaves like a set, as long as no more than MAX_SIZE elements are in it
BOOST_AUTO_TEST_CASE ( mruset_like_set )
{
for ( int nTest = 0 ; nTest < NUM_TESTS ; nTest + + )
{
mrutester tester ;
while ( tester . size ( ) < MAX_SIZE )
tester . insert ( GetRandInt ( 2 * MAX_SIZE ) ) ;
}
}
// Test that an mruset's size never exceeds its max_size
BOOST_AUTO_TEST_CASE ( mruset_limited_size )
BOOST_AUTO_TEST_CASE ( mruset_test )
{
for ( int nTest = 0 ; nTest < NUM_TESTS ; nTest + + )
{
mruset < int > mru ( MAX_SIZE ) ;
for ( int nAction = 0 ; nAction < 3 * MAX_SIZE ; nAction + + )
{
int n = GetRandInt ( 2 * MAX_SIZE ) ;
mru . insert ( n ) ;
BOOST_CHECK ( mru . size ( ) < = MAX_SIZE ) ;
// The mruset being tested.
mruset < int > mru ( 5000 ) ;
// Run the test 10 times.
for ( int test = 0 ; test < 10 ; test + + ) {
// Reset mru.
mru . clear ( ) ;
// A deque + set to simulate the mruset.
std : : deque < int > rep ;
std : : set < int > all ;
// Insert 10000 random integers below 15000.
for ( int j = 0 ; j < 10000 ; j + + ) {
int add = GetRandInt ( 15000 ) ;
mru . insert ( add ) ;
// Add the number to rep/all as well.
if ( all . count ( add ) = = 0 ) {
all . insert ( add ) ;
rep . push_back ( add ) ;
if ( all . size ( ) = = 5001 ) {
all . erase ( rep . front ( ) ) ;
rep . pop_front ( ) ;
}
}
// Do a full comparison between mru and the simulated mru every 1000 and every 5001 elements.
if ( j % 1000 = = 0 | | j % 5001 = = 0 ) {
mruset < int > mru2 = mru ; // Also try making a copy
// Check that all elements that should be in there, are in there.
BOOST_FOREACH ( int x , rep ) {
BOOST_CHECK ( mru . count ( x ) ) ;
BOOST_CHECK ( mru2 . count ( x ) ) ;
}
// Check that all elements that are in there, should be in there.
BOOST_FOREACH ( int x , mru ) {
BOOST_CHECK ( all . count ( x ) ) ;
}
// Check that all elements that are in there, should be in there.
BOOST_FOREACH ( int x , mru2 ) {
BOOST_CHECK ( all . count ( x ) ) ;
}
for ( int t = 0 ; t < 10 ; t + + ) {
int r = GetRandInt ( 15000 ) ;
BOOST_CHECK ( all . count ( r ) = = mru . count ( r ) ) ;
BOOST_CHECK ( all . count ( r ) = = mru2 . count ( r ) ) ;
}
}
}
}
}
// 16-bit permutation function
int static permute ( int n )
{
// hexadecimals of pi; verified to be linearly independent
static const int table [ 16 ] = { 0x243F , 0x6A88 , 0x85A3 , 0x08D3 , 0x1319 , 0x8A2E , 0x0370 , 0x7344 ,
0xA409 , 0x3822 , 0x299F , 0x31D0 , 0x082E , 0xFA98 , 0xEC4E , 0x6C89 } ;
int ret = 0 ;
for ( int bit = 0 ; bit < 16 ; bit + + )
if ( n & ( 1 < < bit ) )
ret ^ = table [ bit ] ;
return ret ;
}
// Test that an mruset acts like a moving window, if no duplicate elements are added
BOOST_AUTO_TEST_CASE ( mruset_window )
{
mruset < int > mru ( MAX_SIZE ) ;
for ( int n = 0 ; n < 10 * MAX_SIZE ; n + + )
{
mru . insert ( permute ( n ) ) ;
set < int > tester ;
for ( int m = max ( 0 , n - MAX_SIZE + 1 ) ; m < = n ; m + + )
tester . insert ( permute ( m ) ) ;
BOOST_CHECK ( mru = = tester ) ;
}
}
BOOST_AUTO_TEST_SUITE_END ( )