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KeySet :: Class Methods(3) | Library Functions Manual | KeySet :: Class Methods(3) |
NAME¶
KeySet :: Class Methods - Methods to manipulate KeySets.Functions¶
KeySet * ksNew (size_t alloc,...)
Detailed Description¶
Methods to manipulate KeySets.#include <kdb.h> // create a new keyset with 3 keys // with a hint that about 20 keys will be inside KeySet *myConfig = ksNew(20, keyNew ('user/name1', 0), keyNew ('user/name2', 0), keyNew ('user/name3', 0), KS_END); // append a key in the keyset ksAppendKey(myConfig, keyNew('user/name4', 0)); Key *current; ksRewind(myConfig); while ((current=ksNext(myConfig))!=0) { printf('Key name is %s.0, keyName (current)); } ksDel (myConfig); // delete keyset and all keys appended
Function Documentation¶
ssize_t ksAppend (KeySet *ks, const KeySet *toAppend) Append all toAppend contained keys to the end of the ks.¶
toAppend KeySet will be left unchanged. Makes the keyset dirty, see ksSort(). Returns:the size of the KeySet after transfer
-1 on NULL pointers
Parameters:
ks the KeySet that will receive the
keys
toAppend the KeySet that provides the keys that will be transfered
See also:
ksAppendKey(), ksInsert(),
ksInsertKeys()
ssize_t ksAppendKey (KeySet *ks, Key *toAppend) Appends a Key to the end of ks.¶
A pointer to the key will be stored, and not a private copy. So a future ksDel() on ks may keyDel() the toAppend object, see keyGetRef(). The reference counter of the key will be incremented, and thus toAppend is not const. The KeySet internal cursor is not moved. Makes the keyset dirty, see ksSort(). Returns:the size of the KeySet after insertion
-1 on NULL pointers
Parameters:
ks KeySet that will receive the key
toAppend Key that will be appended to ks
See also:
ksInsert(), ksInsertKeys(), ksAppend(),
keyNew(), ksDel()
keyIncRef()
int ksCopy (KeySet *dest, const KeySet *source) Copy a keyset.¶
Most often you may want a duplicate of a keyset, see ksDup() or append keys, see ksAppend(). But in some situations you need to copy a keyset to a existing keyset, for that this function exists. You can also use it to clear a keyset when you pass a NULL pointer as source. Note that all keys in dest will be deleted. Afterwards the content of the source will be added to the destination and the ksCurrent() is set properly in dest. A flat copy is made, so the keys will not be duplicated, but there reference counter is updated, so both keysets need to be ksDel().int f (KeySet *ks) { KeySet *c = ksNew (20, ..., KS_END); // c receives keys ksCopy (ks, c); // pass the keyset to the caller ksDel (c); } // caller needs to ksDel (ks)Parameters:
source has to be an initialized source
KeySet or NULL
dest has to be an initialized KeySet where to write the keys
Returns:
1 on success
0 if dest was cleared successfully (source is NULL)
-1 on NULL pointer
See also:
ksNew(), ksDel(), ksDup()
keyCopy() for copying keys
Key* ksCurrent (const KeySet *ks) Return the current Key.¶
The pointer is NULL if you reached the end or after ksRewind(). Note:You must not delete the key or change the key,
use ksPop() if you want to delete it.
Parameters:
ks the keyset object to work with
Returns:
pointer to the Key pointed by ks's cursor
0 on NULL pointer
See also:
ksNext(), ksRewind()
kdbMonitorKeys() for a usage example
int ksDel (KeySet *ks) A destructor for KeySet objects.¶
Cleans all internal dynamic attributes, decrement all reference pointers to all keys and then keyDel() all contained Keys, and free()s the release the KeySet object memory (that was previously allocated by ksNew()). Parameters:ks the keyset object to work with
Returns:
0 when the keyset was freed
-1 on null pointer
See also:
ksNew()
KeySet* ksDup (const KeySet *source) Return a duplicate of a keyset.¶
Objects created with ksDup() must be destroyed with ksDel(). Memory will be allocated as needed for dynamic properties, so you need to ksDel() the returned pointer. A flat copy is made, so the keys will not be duplicated, but there reference counter is updated, so both keysets need ksDel(). Parameters:source has to be an initializised
source KeySet
Returns:
a flat copy of source on success
0 on NULL pointer
See also:
ksNew(), ksDel()
keyDup() for Key :: Basic Methods duplication
cursor_t ksGetCursor (const KeySet *ks) Get the KeySet internal cursor.¶
Use it to get the cursor of the actual position. Warning:Cursors are getting invalid when the key was
ksPop()ed or ksLookup() with KDB_O_POP was used.
Read ahead¶
With the cursors it is possible to read ahead in a keyset:cursor_t jump; ksRewind (ks); while ((key = keyNext (ks))!=0) { // now mark this key jump = ksGetCursor(ks); //code.. keyNext (ks); // now browse on // use ksCurrent(ks) to check the keys //code.. // jump back to the position marked before ksSetCursor(ks, jump); }
Restoring state¶
It can also be used to restore the state of a keyset in a functionint f (KeySet *ks) { cursor_t state = ksGetCursor(ks); // work with keyset // now bring the keyset to the state before ksSetCursor (ks, state); }It is of course possible to make the KeySet const and cast its const away to set the cursor. Another way to achieve the same is to ksDup() the keyset, but it is not as efficient. An invalid cursor will be returned directly after ksRewind(). When you set an invalid cursor ksCurrent() is 0 and ksNext() == ksHead(). Note:
Only use a cursor for the same keyset which it
was made for.
Parameters:
ks the keyset object to work with
Returns:
a valid cursor on success
an invalid cursor on NULL pointer or after ksRewind()
See also:
ksNext(), ksSetCursor()
ssize_t ksGetSize (const KeySet *ks) Return the number of keys that ks contains.¶
Parameters:ks the keyset object to work with
Returns:
the number of keys that ks contains.
-1 on NULL pointer
See also:
ksNew(0), ksDel()
Key* ksHead (const KeySet *ks) Return the first key in the KeySet.¶
The KeySets cursor will not be effected. If ksCurrent()==ksHead() you know you are on the first key. Parameters:ks the keyset object to work with
Returns:
the first Key of a keyset
0 on NULL pointer or empty keyset
See also:
ksTail() for the last Key :: Basic
Methods
ksRewind(), ksCurrent() and ksNext() for iterating over the
KeySet :: Class Methods
Key* ksLookup (KeySet *ks, Key *key, option_toptions) Look for a Key contained in ks that matches the name of the key.¶
Introduction¶
ksLookup() is designed to let you work with entirely pre-loaded KeySets, so instead of kdbGetKey(), key by key, the idea is to fully kdbGet() for your application root key and process it all at once with ksLookup(). This function is very efficient by using binary search. Together with kdbGet() which can you load the whole configuration with only some communication to backends you can write very effective but short code for configuration.Usage¶
If found, ks internal cursor will be positioned in the matched key (also accessible by ksCurrent()), and a pointer to the Key is returned. If not found, ks internal cursor will not move, and a NULL pointer is returned. Cascading is done if the first character is a /. This leads to ignoring the prefix like system/ and user/.if (kdbGet(handle, 'user/myapp', myConfig, 0 ) == -1) ErrorHandler ('Could not get Keys'); if (kdbGet(handle, 'system/myapp', myConfig, 0 ) == -1) ErrorHandler ('Could not get Keys'); if ((myKey = ksLookup(myConfig, key, 0)) == NULL) ErrorHandler ('Could not Lookup Key');This is the way multi user Programs should get there configuration and search after the values. It is guaranteed that more namespaces can be added easily and that all values can be set by admin and user.
KDB_O_NOALL¶
When KDB_O_NOALL is set the keyset will be only searched from ksCurrent() to ksTail(). You need to ksRewind() the keyset yourself. ksCurrent() is always set properly after searching a key, so you can go on searching another key after the found key. When KDB_O_NOALL is not set the cursor will stay untouched and all keys are considered. A much more efficient binary search will be used then. So if you change keys, e.g. rename ( keySetName()) or remove (keyRemove()) them make sure to sort the keyset with ksSort(). When the keyset is dirty, see ksNeedSort() it will be sorted automatically when needed.KDB_O_POP¶
When KDB_O_POP is set the key which was found will be ksPop()ed. ksCurrent() will not be changed, only iff ksCurrent() is the searched key, then the keyset will be ksRewind()ed. Note:Note that keyRemove() keys won't be
found after the first time the keyset is resorted. Lookup automatically sorts
the keyset, if needed, but it can't find it out when only keys are changed,
not the keyset.
Like in ksPop() the popped key always needs to be keyDel()
afterwards, even if it is appended to another keyset.
Warning:
All cursors on the keyset will be invalid iff
you use KDB_O_POP, so don't use this if you rely on a cursor, see
ksGetCursor().
Note:
Never use ksLookup() with KDB_O_POP and
ksAppendKey() or ksAppend() together in a loop. Otherwise
ksLookup() will need to resort the keyset every iteration and spend
99.96% of the time in ksSort() (benchmarked with above 500k
iterations).
You can solve this problem by using KDB_O_NOALL, risking you have to iterate n^2
instead of n.
The more elegant way is to separate the keyset you use for ksLookup() and
ksAppendKey():
int f(KeySet *iterator, KeySet *lookup) { KeySet *append = ksNew (ksGetSize(lookup), KS_END); Key *key; Key *current; ksRewind(iterator); while (current=ksNext(iterator)) { key = ksLookup (lookup, current, KDB_O_POP); // do something... ksAppendKey(append, key); // now append it to append, not lookup! keyDel (key); // make sure to ALWAYS delete poped keys. } ksAppend(lookup, append); // now lookup needs to be sorted only once, append never ksDel (append); }Parameters:
ks where to look for
key the key object you are looking for
options some KDB_O_* option bits:
Returns:
- •
- KDB_O_NOCASE
Lookup ignoring case.
- •
- KDB_O_WITHOWNER
Also consider correct owner.
- •
- KDB_O_NOALL
Only search from ksCurrent() to end of keyset, see above text.
- •
- KDB_O_POP
Pop the key which was found.
- •
- KDB_O_SORT
Force sorting before searching, see ksSort(). Together with KDB_O_NOALL the search will start from beginning.
pointer to the Key found, 0 otherwise
0 on NULL pointers
See also:
ksLookupByName() to search by a name
given by a string
ksCurrent(), ksRewind(), ksNext() for iterating over a
KeySet :: Class Methods
ksSort() to understand how KeySet :: Class Methods sort
themself
Key* ksLookupByName (KeySet *ks, const char *name, option_toptions) Look for a Key contained in ks that matches name.¶
ksLookupByName() is designed to let you work with entirely pre-loaded KeySets, so instead of kdbGetKey(), key by key, the idea is to fully kdbGetByName() for your application root key and process it all at once with ksLookupByName(). This function is very efficient by using binary search. Together with kdbGetByName() which can you load the whole configuration with only some communication to backends you can write very effective but short code for configuration. If found, ks internal cursor will be positioned in the matched key (also accessible by ksCurrent()), and a pointer to the Key is returned. If not found, ks internal cursor will not move, and a NULL pointer is returned.Cascading¶
Cascading is done if the first character is a /. This leads to ignoring the prefix like system/ and user/.if (kdbGetByName(handle, '/sw/myapp/current', myConfig, 0 ) == -1) ErrorHandler ('Could not get Keys'); if ((myKey = ksLookupByName (myConfig, '/myapp/current/key', 0)) == NULL) ErrorHandler ('Could not Lookup Key');This is the way multi user Programs should get there configuration and search after the values. It is guaranteed that more namespaces can be added easily and that all values can be set by admin and user.
Full Search¶
When KDB_O_NOALL is set the keyset will be only searched from ksCurrent() to ksTail(). You need to ksRewind() the keyset yourself. ksCurrent() is always set properly after searching a key, so you can go on searching another key after the found key. When KDB_O_NOALL is not set the cursor will stay untouched and all keys are considered. A much more efficient binary search will be used then. Parameters:ks where to look for
name key name you are looking for
options some KDB_O_* option bits:
Currently no options supported.
Returns:
- •
- KDB_O_NOCASE
Lookup ignoring case.
- •
- KDB_O_WITHOWNER
Also consider correct owner.
- •
- KDB_O_NOALL
Only search from ksCurrent() to end of keyset, see above text.
- •
- KDB_O_POP
Pop the key which was found.
- •
- KDB_O_SORT
Force sorting before searching, see ksSort(). Together with KDB_O_NOALL the search will start from beginning.
pointer to the Key found, 0 otherwise
0 on NULL pointers
See also:
keyCompare() for very powerful Key lookups in
KeySets
ksCurrent(), ksRewind(), ksNext()
KeySet* ksNew (size_talloc, ...) Allocate, initialize and return a new KeySet object.¶
Objects created with ksNew() must be destroyed with ksDel(). You can use a various long list of parameters to preload the keyset with a list of keys. Either your first and only parameter is 0 or your last parameter must be KEY_END. For most usesKeySet *keys = ksNew(0); // work with it ksDel (keys);
goes ok, the alloc size will be 16, defined in kdbprivate.h. The alloc size will be doubled whenever size reaches alloc size, so it also performs out large keysets. But if you have any clue how large your keyset may be you should read the next statements. If you want a keyset with length 15 (because you know of your application that you normally need about 12 up to 14 keys), use:
KeySet * keys = ksNew (15, KS_END); // work with it ksDel (keys);If you start having 3 keys, and your application needs approximately 200-500 keys, you can use:
KeySet * config = ksNew (500, keyNew ('user/sw/app/fixedConfiguration/key1', KEY_SWITCH_VALUE, 'value1', 0), keyNew ('user/sw/app/fixedConfiguration/key2', KEY_SWITCH_VALUE, 'value2', 0), keyNew ('user/sw/app/fixedConfiguration/key3', KEY_SWITCH_VALUE, 'value3', 0), KS_END); // don't forget the KS_END at the end! // work with it ksDel (config);
Alloc size is 500, the size of the keyset will be 3 after ksNew. This means the keyset will reallocate when appending more than 497 keys. The main benefit of taking a list of variant length parameters is to be able to have one C-Statement for any possible KeySet. Due to ABI compatibility, the KeySet structure is only declared in kdb.h, and not defined. So you can only declare pointers to KeySets in your program. See http://tldp.org/HOWTO/Program-Library-HOWTO/shared-libraries.html#AEN135 See also:
ksDel() to free the KeySet :: Class
Methods afterwards
ksDup() to duplicate an existing KeySet :: Class Methods
Parameters:
alloc gives a hint for the size how
many Keys may be stored initially
Returns:
a ready to use KeySet object
0 on memory error
Key* ksNext (KeySet *ks) Returns the next Key in a KeySet.¶
KeySets have an internal cursor that can be reset with ksRewind(). Every time ksNext() is called the cursor is incremented and the new current Key is returned. You'll get a NULL pointer if the key after the end of the KeySet was reached. It will set the cursor to the beginning of the KeySet and the next time the first key is returned. The ks internal cursor will be changed, so it is not const. Note:You must not delete or change the key, use
ksPop() if you want to delete it.
Parameters:
ks the keyset object to work with
Returns:
the new current Key
0 when the end is reached
0 on NULL pointer
See also:
ksRewind(), ksCurrent()
Key* ksPop (KeySet *ks) Remove and return the last key of ks.¶
The reference counter will be decremented by one. The KeySets cursor will not be effected if it did not point to the popped key. Note:You need to keyDel() the key
afterwards, if you don't append it to another keyset. It has the same
semantics like a key allocated with keyNew() or keyDup().
ks1=ksNew(0); ks2=ksNew(0); k1=keyNew(0); // ref counter 0 ksAppendKey(ks1, k1); // ref counter 1 ksAppendKey(ks2, k1); // ref counter 2 k1=ksPop (ks1); // ref counter 1 k1=ksPop (ks2); // ref counter 0, like after keyNew() ksAppendKey(ks1, k1); // ref counter 1 ksDel (ks1); // key is deleted too ksDel (ks2); *Returns:
the last key of ks
NULL if ks is empty or on NULL pointer
Parameters:
ks KeySet to work with
See also:
ksAppendKey(), ksAppend()
commandList() for an example
int ksRewind (KeySet *ks) Rewinds the KeySet internal cursor.¶
Use it to set the cursor to the beginning of the KeySet. ksCurrent() will then always return NULL afterwards. So you want to ksNext() first.ksRewind (ks); while ((key = keyNext (ks))!=0) {}Parameters:
ks the keyset object to work with
Returns:
0 on success
-1 on NULL pointer
See also:
ksNext(), ksCurrent()
int ksSetCursor (KeySet *ks, cursor_tcursor) Set the KeySet internal cursor.¶
Use it to set the cursor to a stored position. ksCurrent() will then be the position which you got with. Warning:Cursors may get invalid when the key was
ksPop()ed or ksLookup() was used together with KDB_O_POP.
cursor_t cursor; // key now in any position here cursor = ksGetCursor (ks); while ((key = keyNext (ks))!=0) {} ksSetCursor (ks, cursor); // reset state ksCurrent(ks); // in same position as beforeAn invalid cursor will set the keyset to its beginning like ksRewind(). When you set an invalid cursor ksCurrent() is 0 and ksNext() == ksHead(). Parameters:
cursor the cursor to use
ks the keyset object to work with
Returns:
0 when the keyset is ksRewind()ed
1 otherwise
-1 on NULL pointer
See also:
ksNext(), ksGetCursor()
void ksSort (KeySet *ks) Sorts a KeySet alphabetically by Key name.¶
You need ksSort() only in few cases directly.Don't need to sort before using ksLookup¶
You don't need it if you just just kdbGet() and subsequent ksLookup().KeySet *ks = ksNew(0); kdbGet(h, ks, k, 0); // ksPop(), ksAppend() and ksAppendKey() allowed here ksLookup(ks, s, 0); // you don't need to sort ksThis is because the KeySet tracks if it needs to be sorted and ksLookup() will sort when needed.
Sort when iterating¶
Before you iterate over a keyset you have to sort it, if you need it in a sorted way. To achieve that you can pass option_t::KDB_O_SORT to kdbGet() and kdbSet(). Then you will receive a already sorted keyset over which you can iterate.KeySet *ks = ksNew(0); kdbGet(h, ks, k, KDB_O_SORT); // no changes to keyset allowed ksRewind(ks); // now you can iterate over a sorted keysetIts of course also possible to use ksLookup() once, because it will sort the keyset too.
Sort when changing key¶
Warning:You should not use keySetName() or
keyRemove() when a key belongs to a keyset. When you are doing this,
you always need to manually sort all keysets where the key was before using
ksLookup() (otherwise ksLookup() won't find that keys),
kdbGet() or kdbSet() methods.
When you change a key's name or its remove status the order which was previously
correctly is then wrong. The keyset does not recognize this, so the programmer
has to take care that ksSort() is called before any operation which
needs a sorted keyset (which are all ksLookup(), all kdbGet()
and all kdbSet() functions).
Note:
You can remember that easily that all
functions which get options require one of the following:
- •
- that you did not manipulate a keys name or a remove status
- •
- that you pass KDB_O_SORT when you know that you manipulated at least one key
- •
- that you ksSort() yourself after manipulating keys
Dirty KeySet¶
When you use ksAppend(), ksAppendKey(), ksPop() the keyset is dirty afterwards, which means that it needs to be sorted. This is done automatically using a ksLookup() method and in ksGet() or ksSet() (All methods which accept options). It won't be done if you just iterate over the keyset, so you might use a ksLookup() or ksSort() first. ksLookup() will be more efficient in that case, because it will only sort when needed. Don't pass KDB_O_NOALL (it will deactivate the sorting feature), see ksLookup() for more information. Parameters:ks KeySet to be sorted
See also:
kdbGet(), kdbSet(),
ksLookup() for some functions which may need sorting before they are
called. (All functions which take options as arguments)
keySetName(), keySetBaseName(), keyAddBaseName() and
keyRemove() for all methods which change the sorting state where the
KeySet :: Class Methods can't track the change.
ksAppend(), ksAppendKey(), ksPop() for all methods which
make a KeySet :: Class Methods dirty.
Key* ksTail (const KeySet *ks) Return the last key in the KeySet.¶
The KeySets cursor will not be effected. If ksCurrent()==ksTail() you know you are on the last key. ksNext() will return a NULL pointer afterwards. Parameters:ks the keyset object to work with
Returns:
the last Key of a keyset
0 on NULL pointer or empty keyset
See also:
ksHead() for the first Key :: Basic
Methods
ksRewind(), ksCurrent() and ksNext() for iterating over the
KeySet :: Class Methods
Author¶
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