I know that RB tree with left and right child can be implemented in pure functional way without degrading log n performance. Can tree with parent pointer be implemented in logarithm time? Seems like cyclic reference child>parent and parent>child requires all tree to be cloned, thus linear time.

Fully persistent, purely functional data structures are tree shaped, but may utilize pointer sharing to become a directed acyclic graph. However, once you introduce a pointer cycle, you can't "change" part of that subgraph without copying that entire subgraph. The solution is to add an indirection: You assign "identities" to values, which can be objects (like Clojure's atoms) or simple values used as look up keys (such as numbers or symbols). You can think of a immutable pointer as an implementation of IDeref which always returns the same object. A cyclic graph can be represented as an adjacency graph, where "derefing" a node by name is the same as looking it up in a the map of names to nodes. For more information on representing fully persistent graphs, see Fully Persistent Graphs  Which One to Choose?. 

