void test_zeroMatchFlags (void)
{
Key * parentKey = keyNew ("user/tests/glob", KEY_END);
KeySet * conf = ksNew (20, keyNew ("user/glob/#1", KEY_VALUE, "*test1", KEY_META, "testmetakey1", "testvalue1", KEY_END),
/* disable default pathname globbing behaviour */
keyNew ("user/glob/#1/flags", KEY_VALUE, "", KEY_END), KS_END);
PLUGIN_OPEN ("glob");
KeySet * ks = createKeys ();
succeed_if (plugin->kdbSet (plugin, ks, parentKey) >= 1, "call to kdbSet was not successful");
succeed_if (output_error (parentKey), "error in kdbSet");
succeed_if (output_warnings (parentKey), "warnings in kdbSet");
Key * key = ksLookupByName (ks, "user/tests/glob/test1", 0);
exit_if_fail (key, "key user/tests/glob/test1 not found");
const Key * metaKey1 = keyGetMeta (key, "testmetakey1");
exit_if_fail (metaKey1, "testmetakey1 not found");
succeed_if (strcmp ("testvalue1", keyValue (metaKey1)) == 0, "value of metakey testmetakey1 not correct");
key = ksLookupByName (ks, "user/tests/glob/test3", 0);
exit_if_fail (key, "user/tests/glob/test3 not found");
succeed_if (!keyGetMeta (key, "testmetakey1"), "testmetakey1 copied to wrong key");
key = ksLookupByName (ks, "user/tests/glob/test2/subtest1", 0);
exit_if_fail (key, "user/tests/glob/test2/subtest1 not found");
const Key * metaKey2 = keyGetMeta (key, "testmetakey1");
exit_if_fail (metaKey2, "testmetakey1 not found");
succeed_if (strcmp ("testvalue1", keyValue (metaKey2)) == 0, "value of metakey testmetakey1 not correct");
ksDel (ks);
keyDel (parentKey);
PLUGIN_CLOSE ();
}
void test_setGlobalMatch (void)
{
Key * parentKey = keyNew ("user/tests/glob", KEY_END);
// clang-format off
KeySet *conf = ksNew (20,
keyNew ("user/glob/#1", KEY_VALUE, "/*",
KEY_META, "testmetakey1", "testvalue1",
KEY_META, "testmetakey2", "testvalue2",
KEY_END),
KS_END);
// clang-format on
PLUGIN_OPEN ("glob");
KeySet * ks = createKeys ();
succeed_if (plugin->kdbSet (plugin, ks, parentKey) >= 1, "call to kdbSet was not successful");
succeed_if (output_error (parentKey), "error in kdbSet");
succeed_if (output_warnings (parentKey), "warnings in kdbSet");
testKeys (ks);
ksDel (ks);
keyDel (parentKey);
PLUGIN_CLOSE ();
}
void test_namedMatchFlags (void)
{
Key * parentKey = keyNew ("user/tests/glob", KEY_END);
KeySet * conf = ksNew (20, keyNew ("user/glob/#1", KEY_VALUE, "user/tests/glob/*", KEY_META, "testmetakey1", "testvalue1", KEY_END),
/* explicitly request pathname matching */
keyNew ("user/glob/#1/flags", KEY_VALUE, "pathname", KEY_END), KS_END);
PLUGIN_OPEN ("glob");
KeySet * ks = createKeys ();
succeed_if (plugin->kdbSet (plugin, ks, parentKey) >= 1, "call to kdbSet was not successful");
succeed_if (output_error (parentKey), "error in kdbSet");
succeed_if (output_warnings (parentKey), "warnings in kdbSet");
Key * key = ksLookupByName (ks, "user/tests/glob/test1", 0);
exit_if_fail (key, "key user/tests/glob/test1 not found");
const Key * metaKey1 = keyGetMeta (key, "testmetakey1");
exit_if_fail (metaKey1, "testmetakey1 not found");
key = ksLookupByName (ks, "user/tests/glob/test3", 0);
exit_if_fail (key, "user/tests/glob/test3 not found");
const Key * metaKey2 = keyGetMeta (key, "testmetakey1");
exit_if_fail (metaKey2, "testmetakey1 not found");
key = ksLookupByName (ks, "user/tests/glob/test2/subtest1", 0);
exit_if_fail (key, "user/tests/glob/test2/subtest1 not found");
const Key * metaKey3 = keyGetMeta (key, "testmetakey1");
exit_if_fail (!metaKey3, "testmetakey1 was copied to subtest1, but subtest1 should not be matched with pathname flag");
ksDel (ks);
keyDel (parentKey);
PLUGIN_CLOSE ();
}
bool PianoKeyBoard::init()
{
//1.enable the touch event...
//2.
lowNote_ = 48 ;
highNote_ = 83 ;
keys_ =new Dictionary();
whiteNormalPix_="game-keyboard-white.png";
whiteDownPix_="game-keyboard-white-p.png";
whiteErrorPix_="game-keyboard-white-pw.png";
blackNormalPix_="game-keyboard-black.png";
blackDownPix_="game-keyboard-black-p.png";
blackErrorPix_="game-keyboard-black-pw.png";
keyboardSize_ = (this->getBoundingBox()).size ;
calculateKeySize(keyboardSize_);
createKeys();
drawKeyBoard();
return true ;
}
void test_onlyFirstMatchIsApplied (void)
{
Key * parentKey = keyNew ("user/tests/glob", KEY_END);
// clang-format off
KeySet * conf = ksNew (20,
keyNew ("user/glob/#1",
KEY_VALUE, "user/tests/glob/test1*",
KEY_META, "testmetakey1", "testvalue1",
KEY_END),
keyNew ("user/glob/#2",
KEY_VALUE, "user/tests/glob/*",
KEY_META, "testmetakey2", "testvalue2",
KEY_END),
/* disable all flags */
keyNew ("user/glob/#1/flags",
KEY_VALUE, "",
KEY_END),
keyNew ("user/glob/#2/flags",
KEY_VALUE, "",
KEY_END),
KS_END);
// clang-format on
PLUGIN_OPEN ("glob");
KeySet * ks = createKeys ();
succeed_if (plugin->kdbGet (plugin, ks, parentKey) >= 1, "call to kdbSet was not successful");
succeed_if (output_error (parentKey), "error in kdbSet");
succeed_if (output_warnings (parentKey), "warnings in kdbSet");
Key * key = ksLookupByName (ks, "user/tests/glob/test1", 0);
exit_if_fail (key, "key user/tests/glob/test1 not found");
const Key * firstMatchKey = keyGetMeta (key, "testmetakey1");
exit_if_fail (firstMatchKey, "testmetakey1 not found");
const Key * secondMatchKey = keyGetMeta (key, "testmetakey2");
exit_if_fail (!secondMatchKey, "testmetakey2 was applied to testmetakey1 although another match was already applied")
key = ksLookupByName (ks, "user/tests/glob/test2/subtest1", 0);
exit_if_fail (key, "user/tests/glob/test2/subtest1 not found");
exit_if_fail (keyGetMeta (key, "testmetakey2"), "testmetakey2 not found");
key = ksLookupByName (ks, "user/tests/glob/test3", 0);
exit_if_fail (key, "user/tests/glob/test3 not found");
exit_if_fail (keyGetMeta (key, "testmetakey2"), "testmetakey2 not found");
ksDel (ks);
keyDel (parentKey);
PLUGIN_CLOSE ();
}
TEST_F(ProtectKeyHaspSLTest, find_key) {
protect_keys_t protect_keys = createKeys();
auto iprotectKey = ProtectKey::find_key(protect_keys, nullptr);
}
int
main(int argc,char **argv)
{
char *program = argv[0];
while (*++argv)
{
char *arg = *argv;
if (*arg == '-')
{
if (arg[1] == '-')
usage(program);
while (*++arg && isalpha(*arg))
{
switch (*arg)
{
case 'v':
gVerbose = true;
break;
case 'e':
gExcessive = true;
break;
case 't':
if (*++argv == NULL)
usage(program);
if (!strcmp(*argv,"string"))
gType = S_STR_INDEX;
else if (!strcmp(*argv,"int32")
|| !strcmp(*argv,"int"))
gType = S_INT_INDEX;
else if (!strcmp(*argv,"uint32")
|| !strcmp(*argv,"uint"))
gType = S_UINT_INDEX;
else if (!strcmp(*argv,"int64")
|| !strcmp(*argv,"llong"))
gType = S_LONG_LONG_INDEX;
else if (!strcmp(*argv,"uint64")
|| !strcmp(*argv,"ullong"))
gType = S_ULONG_LONG_INDEX;
else if (!strcmp(*argv,"float"))
gType = S_FLOAT_INDEX;
else if (!strcmp(*argv,"double"))
gType = S_DOUBLE_INDEX;
else
usage(program);
break;
case 'n':
if (*++argv == NULL || !isdigit(**argv))
usage(program);
gNum = atoi(*argv);
if (gNum < 1)
gNum = 1;
break;
case 'h':
if (*++argv == NULL || !isdigit(**argv))
usage(program);
gHard = atoi(*argv);
if (gHard < 1)
gHard = 1;
break;
case 'i':
if (*++argv == NULL || !isdigit(**argv))
usage(program);
gIterations = atoi(*argv);
if (gIterations < 1)
gIterations = 1;
break;
case 'r':
if (*++argv == NULL || !isdigit(**argv))
usage(program);
gSeed = atoi(*argv);
break;
}
}
}
else
break;
}
// we do want to have reproducible random keys
if (gVerbose)
printf("Set seed to %ld\n",gSeed);
srand(gSeed);
Inode inode("tree.data",gType | S_ALLOW_DUPS);
gVolume = inode.GetVolume();
Transaction transaction(gVolume,0);
init_cache(gVolume->Device(),gVolume->BlockSize());
//
// Create the tree, the keys, and add all keys to the tree initially
//
BPlusTree tree(&transaction,&inode);
status_t status;
if ((status = tree.InitCheck()) < B_OK) {
fprintf(stderr,"creating tree failed: %s\n",strerror(status));
bailOut();
}
printf("*** Creating %ld keys...\n",gNum);
if ((status = createKeys()) < B_OK) {
fprintf(stderr,"creating keys failed: %s\n",strerror(status));
bailOut();
}
if (gVerbose)
dumpKeys();
for (int32 j = 0; j < gHard; j++ ) {
addAllKeys(&transaction, &tree);
//
// Run the tests (they will exit the app, if an error occurs)
//
for (int32 i = 0;i < gIterations;i++) {
printf("---------- Test iteration %ld ---------------------------------\n",i+1);
addRandomSet(&transaction,&tree,int32(1.0 * gNum * rand() / RAND_MAX));
removeRandomSet(&transaction,&tree,int32(1.0 * gNum * rand() / RAND_MAX));
duplicateTest(&transaction,&tree);
}
removeAllKeys(&transaction, &tree);
}
// of course, we would have to free all our memory in a real application here...
// write the cache back to the tree
shutdown_cache(gVolume->Device(),gVolume->BlockSize());
return 0;
}
