Provided by: elektra-doc_0.8.14-5.1ubuntu2_all
NAME
api - for kdb.h.
SYNOPSIS
Functions ssize_t keySetStringF (Key *key, const char *format,...) Set a formatted string. int elektraArrayIncName (Key *key) Increment the name of the key by one. int elektraKsToMemArray (KeySet *ks, Key **buffer) Builds an array of pointers to the keys in the supplied keyset. int elektraKsFilter (KeySet *result, KeySet *input, int(*filter)(const Key *k, void *argument), void *argument) return only those keys from the given keyset that pass the supplied filter function with the supplied argument KeySet * elektraRenameKeys (KeySet *config, const char *name) Takes the first key and cuts off this common part for all other keys, instead name will be prepended. elektraNamespace keyGetNamespace (const Key *key) For currently valid namespaces see elektraNamespace. int keyLock (Key *key, enum elektraLockOptions what) Permanently locks a part of the key. KeySet * elektraArrayGet (const Key *arrayParent, KeySet *keys) Return all the array keys below the given arrayparent The arrayparent itself is not returned. Key * elektraArrayGetNextKey (KeySet *arrayKeys) Return the next key in the given array. KeySet * elektraKeyGetMetaKeySet (const Key *key) Return meta data as keyset. Key * ksPrev (KeySet *ks) Returns the previous Key in a KeySet. Key * ksPopAtCursor (KeySet *ks, cursor_t pos) Pop key at given cursor position.
Detailed Description
for kdb.h. Warning: Do not use these methods if you do not want to depend on exactly the Elektra version your binary was built for. These methods are a technical preview of what might be added in future Elektra releases. It is a requirement that methods are first added here, before they are added to the public API. Usually, names in proposal stage should be prefixed with elektra to clearly mark that the signature is likely to be changed and not yet ABI compatible.
Function Documentation
KeySet* elektraArrayGet (const Key * arrayParent, KeySet * keys) Return all the array keys below the given arrayparent The arrayparent itself is not returned. For example, if user/config/# is an array, user/config is the array parent. Only the direct array keys will be returned. This means that for example user/config/#1/key will not be included, but only user/config/#1. A new keyset will be allocated for the resulting keys. This means that the caller must ksDel the resulting keyset. Parameters: arrayParent the parent of the array to be returned keys the keyset containing the array keys. Returns: a keyset containing the arraykeys (if any) Return values: NULL on NULL pointers Key* elektraArrayGetNextKey (KeySet * arrayKeys) Return the next key in the given array. The function will automatically allocate memory for a new key and name it accordingly. Precondition: The supplied keyset must contain only valid array keys. The caller has to keyDel the resulting key. Parameters: arraykeys the array where the new key will belong to Returns: the new array key on success Return values: NULL if the passed array is empty NULL on NULL pointers or if an error occurs int elektraArrayIncName (Key * key) Increment the name of the key by one. Alphabetical order will remain e.g. user/abc/#9 will be changed to user/abc/#_10 For the start: user/abc/# will be changed to user/abc/#0 Parameters: key which base name will be incremented Return values: -1 on error (e.g. too large array, not validated array) 0 on success KeySet* elektraKeyGetMetaKeySet (const Key * key) Return meta data as keyset. Parameters: key the key object to work with Returns: a duplication of the keyset representing the meta data int elektraKsFilter (KeySet * result, KeySet * input, int(*)(const Key *k, void *argument) filter, void * argument) return only those keys from the given keyset that pass the supplied filter function with the supplied argument Parameters: result the keyset that should contain the filtered keys input the keyset whose keys should be filtered filter a function pointer to a function that will be used to filter the keyset. A key will be taken if the function returns a value greater than 0. argument an argument that will be passed to the filter function each time it is called Returns: the number of filtered keys if the filter function always returned a positive value, -1 otherwise Return values: NULL on NULL pointer int elektraKsToMemArray (KeySet * ks, Key ** buffer) Builds an array of pointers to the keys in the supplied keyset. The keys are not copied, calling keyDel may remove them from the keyset. The size of the buffer can be easily allocated via ksGetSize. Example: KeySet *ks = somekeyset; Key **keyArray = calloc (ksGetSize(ks), sizeof (Key *)); elektraKsToMemArray (ks, keyArray); ... work with the array ... free (keyArray); Parameters: ks the keyset object to work with buffer the buffer to put the result into Returns: the number of elements in the array if successful a negative number on null pointers or if an error occurred KeySet* elektraRenameKeys (KeySet * config, const char * name) Takes the first key and cuts off this common part for all other keys, instead name will be prepended. Returns: a new allocated keyset with keys in user namespace. The first key is removed in the resulting keyset. elektraNamespace keyGetNamespace (const Key * key) For currently valid namespaces see elektraNamespace. Since: 0.8.10 Added method to kdbproposal.h To handle every possible cases (including namespaces) a key can have: switch (keyGetNamespace(k)) { case KEY_NS_SPEC: printf ("spec namespace0); break; case KEY_NS_PROC: printf ("proc namespace0); break; case KEY_NS_DIR: printf ("dir namespace0); break; case KEY_NS_USER: printf ("user namespace0); break; case KEY_NS_SYSTEM: printf ("system namespace0); break; case KEY_NS_EMPTY: printf ("empty name0); break; case KEY_NS_NONE: printf ("no key0); break; case KEY_NS_META: printf ("meta key0); break; case KEY_NS_CASCADING: printf ("cascading key0); break; } To loop over all valid namespaces use: for (elektraNamespace ns=KEY_NS_FIRST; ns<=KEY_NS_LAST; ++ns) { // work with namespace printf ("%d0, ns); } Note: This method might be enhanced. You do not have any guarantee that, when for a specific name KEY_NS_META is returned today, that it still will be returned after the next recompilation. So make sure that your compiler gives you a warning for unhandled switches (gcc: -Wswitch or -Wswitch-enum if you want to handle default) and look out for those warnings. Parameters: key the key object to work with Returns: the namespace of a key. int keyLock (Key * key, enum elektraLockOptions what) Permanently locks a part of the key. This can be: • KEY_FLAG_LOCK_NAME to lock the name • KEY_FLAG_LOCK_VALUE to lock the value • KEY_FLAG_LOCK_META to lock the meta data To unlock the key, duplicate it. It is also possible to lock when the key is created with keyNew(). Some data structures need to lock the key (most likely its name), so that the ordering does not get confused. Parameters: key which name should be locked See also: keyNew(), keyDup(), ksAppendKey() Return values: >0 the bits that were successfully locked 0 if everything was locked before -1 if it could not be locked (nullpointer) ssize_t keySetStringF (Key * key, const char * format, ...) Set a formatted string. Parameters: key the key to set the string value format NULL-terminated text format string ... more arguments Returns: the size of the string as set (with including 0) Key* ksPopAtCursor (KeySet * ks, cursor_t pos) Pop key at given cursor position. Parameters: ks the keyset to pop key from c where to pop The internal cursor will be rewinded using ksRewind(). You can use ksGetCursor() and ksSetCursor() jump back to the previous position. e.g. to pop at current position within ksNext() loop: cursor_t c = ksGetCursor(ks); keyDel (ksPopAtCursor(ks, c)); ksSetCursor(ks, c); ksPrev(ks); // to have correct key after next ksNext() Warning: do not use, will be superseded by external iterator API Returns: the popped key Return values: 0 if ks is 0 Key* ksPrev (KeySet * ks) Returns the previous Key in a KeySet. KeySets have an internal cursor that can be reset with ksRewind(). Every time ksPrev() is called the cursor is decremented and the new current Key is returned. You'll get a NULL pointer if the key before begin of the KeySet was reached. Don't delete the key, use ksPop() if you want to delete it. Returns: the new current Key See also: ksRewind(), ksCurrent()
Author
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