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I am writing a program in C++ that requires IP addresses( all IPv4) to be looked up and stored in a fast way. Every IP address has a data associated with it. In case it already exists in the trie, I intend to merge the data of the IP address in the trie with the new addresses data. If it is not present, I intend to add it as a new entry to the trie. Deletion of IP address is not necessary.

In order to implement this, I need to design a Patricia Trie. However, I am unable to visualize the design beyond this. It seems quite naive of me, but the only idea that came to my mind was to change the IP address to their binary form and then use the trie. I am however clueless about HOW exactly to implement this.

I would be really thankful to you if you could help me with this one. Please note that I did find a similar question here . The question or more specifically the answer was beyond my understanding as the code in the CPAN web site was not clear enough for me.

Also note, my data is the following format "Tom","Jack","Smith" "Jones","Liz" "Jimmy","George" "Mike","Harry","Jennifer"

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How many? (if a few million: use a hash table) – wildplasser Oct 3 '12 at 13:54
I've added an example, if that helps. – Justin Oct 4 '12 at 11:47
up vote 0 down vote accepted

Patricia tries solve the problem of finding the best covering prefix for a given IP address (they are used by routers to quickly determine that is the best choice for, for example). If you are just trying to match IP addresses exactly, a hash table is a better choice.

share|improve this answer

I think you are referring to a RadixTree. I have an implementation of a RadixTrie in Java, if you want to use that as a starting point, which does the actual key to value mapping. It uses a PatriciaTrie as it's backing structure.

Example using the following strings.


Trie example (uncompressed)

└── 1
    └── 0
        └── .
            └── 1
                └── 0
                    └── .
                        └── 1
                            ├── 0
                            │   ├── 1
                            │   │   └── .
                            │   │       └── (2)
                            │   └── 0
                            │       └── .
                            │           └── (1)
                            └── 1
                                └── 0
                                    └── .
                                        └── (3)

Patricia Trie (compressed)

└── [black] 10.10.1
    ├── [black] 0
    │   ├── [white] (0.1) 00.1
    │   └── [white] (1.2) 01.2
    └── [white] (10.3)
share|improve this answer
I'm having trouble understanding your explanation of PATRICIA tries. The references I have read (Knuth, Sedgewick and this) all seem to suggest "Patricia creates a binary tree, with one node per string stored", but it seems to me as though your PATRICIA creates more than one node per string stored... – Seb Dec 8 '15 at 1:38
@Seb I'd assume they refer to the compressed version of the Patricia Trie (as seen in my second example above). That being said, Patricia Trie seems to be a bit overloaded in it's definition. The version I wrote follows along with the explanation here: – Justin Dec 8 '15 at 3:40
Make no mistake, I have read Knuth and Sedgewick's books on this subject and I understand their explanation precisely. I also have a copy of "PATRICIA - Practical Algorithm to Retrieve Information Coded in Alphanumeric", which is historically speaking the authoritive definition of PATRICIA, written by D. R. Morrison and submitted to the Journal of ACM. Your diagram is using five nodes to store three strings; according to Morrison, "Corollaries state that as the library grows, each new end brings into the library with it exactly one new branch"... The emphasis is mine. – Seb Dec 8 '15 at 5:38
If you would like to know what a PATRICIA tree looks like, it's much more like a cyclic graph. Your diagram looks like some other kind of radix trie. – Seb Dec 8 '15 at 5:39
@Seb I think you are arguing implementation. It can be implement using a binary radix tree, DAG, or many other ways. If you look at the slides from Sedwick himself while at Princeton, his graph looks exactly like a my example above. Page 51 He also mentions that Patricia tree is 'Also known as: crit-bit tree, radix tree.' – Justin Dec 8 '15 at 16:20

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