SPMF documentation > Mining Sequential Rules Common to Several Sequences with the CMRules algorithm

This example explains how to run the CMRules algorithm using the SPMF open-source data mining library.

How to run this example?

What is CMRules?

CMRules is an algorithm for discovering sequential rules that appears in sequence databases. This algorithm was proposed by Fournier-Viger et al. in 2010.

What is the input of CMRules ?

The input of CMRules is a sequence database and two user-specified thresholds named minsup (a value in [0, 1] representing a percentage) and minconf (a value in [0, 1] representing a percentage).

A sequence database is a set of sequences where each sequence is a list of itemsets. An itemset is an unordered set of items. For example, the table shown below contains four sequences. The first sequence, named S1, contains 5 itemsets. It means that item 1 was followed by items 1 2 and 3 at the same time, which were followed by 1 and 3, followed by 4, and followed by 3 and 6. It is assumed that items in an itemset are sorted in lexicographical order. This database is provided in the file "contextPrefixSpan.txt" of the SPMF distribution.

ID Sequences
S1 (1), (1 2 3), (1 3), (4), (3 6)
S2 (1 4), (3), (2 3), (1 5)
S3 (5 6), (1 2), (4 6), (3), (2)
S4 (5), (7), (1 6), (3), (2), (3)

What is the output of CMRules ?

Given a sequence database, and parameters named minsup and minconf, CMRules outputs all sequential rules having a support and confidence respectively higher than minsup and minconf.

A sequential rule X==>Y is a sequential relationship between two sets of items X and Y such that X and Y are disjoint, and that X is unordered and Y is unordered. The support of a rule X==>Y is the number of sequences that contain all items of X before all items from Y divided by the number of sequences in the database. The confidence of a rule is the number of sequences that contain all items of X before all items from Y, divided by the number of sequences that contains items in X.

In this example, we apply CMRules with minsup = 75 %, minconf= 50%. We obtains 9 sequential rules:

Rule Support Confidence
1 ==> 2 100 % 100 %
1 ==>3 100 % 100 %
2 ==> 3 75 % 75 %
3 ==> 2 75 % 75 %
4 ==> 3 75 % 100 %
1 3 ==> 2 75 % 75 %
1 2 ==> 3 75 % 75 %
1 4 ==> 3 75 % 100 %
1 ==> 2 3 100 % 100 %

For example, the rule 1 4 ==> 3 means that if 1 an 4 appears in any order they will be followed by 3 with a confidence of 100 %. Moreover, this rule has a support of 75 % because it appears in three sequences (S1, S2 and S3) out of four sequences.

Input file format

The input file format is defined as follows. It is a text file where each line represents a sequence from a sequence database. Each item from a sequence is a postive integer and items from the same itemset within a sequence are separated by single spaces. Note that it is assumed that items within a same itemset are sorted according to a total order and that no item can appear twice in the same itemset. The value "-1" indicates the end of an itemset. The value "-2" indicates the end of a sequence (it appears at the end of each line). For example, the sample input file "contextPrefixSpan.txt" contains the following four lines (four sequences).

1 -1 1 2 3 -1 1 3 -1 4 -1 3 6 -1 -2
1 4 -1 3 -1 2 3 -1 1 5 -1 -2
5 6 -1 1 2 -1 4 6 -1 3 -1 2 -1 -2
5 -1 7 -1 1 6 -1 3 -1 2 -1 3 -1 -2

The first line represents a sequence where the itemset {1} is followed by the itemset {1, 2, 3}, followed by the itemset {1, 3}, followed by the itemset {4}, followed by the itemset {3, 6}. The next lines follow the same format.

Note that it is also possible to use a text file containing a text (several sentences) if the text file has the ".text" extension, as an alternative to the default input format. If the algorithm is applied on a text file from the graphical interface or command line interface, the text file will be automatically converted to the SPMF format, by dividing the text into sentences separated by ".", "?" and "!", where each word is considered as an item. Note that when a text file is used as input of a data mining algorithm, the performance will be slightly less than if the native SPMF file format is used because a conversion of the input file will be automatically performed before launching the algorithm and the result will also have to be converted. This cost however should be small.

Output file format

The output file format is defined as follows. It is a text file. Each line is a sequential rule. Each item from a sequential rule is a postive integer. On each line, the items from the rule antecedent are first listed, separated by single spaces. Then the keyword "==>" appears, followed by the items from the rule consequent, separated by single spaces. Then, the keyword "#SUP:" appears followed by an integer indicating the support of the rule as a number of sequences. Then, the keyword "#CONF:" appears followed by a double values in the [0, 1] interval indicating the confidence of the rule. For example, a few lines from the output file from the previous example is shown below:

1,2 ==> 3 #SUP: 3 #CONF: 1.0
1,3 ==> 2 #SUP: 3 #CONF: 1.0
1 ==> 2,3 #SUP: 4 #CONF: 1.0
1,4 ==> 3 #SUP: 3 #CONF: 1.0

Consider the first line. It indicates that the rule {1, 2} ==> {3} has a support of 3 sequences and a confidence of 100 %. The next lines follow the same format

Optional feature: giving names to items

Some users have requested the feature of given names to items instead of using numbers. This feature is offered in the user interface of SPMF and in the command line of SPMF. To use this feature, your file must include @CONVERTED_FROM_TEXT as first line and then several lines to define the names of items in your file. For example, consider the example database "contextPrefixSpan.txt". Here we have modified the file to give names to the items: 

@CONVERTED_FROM_TEXT
@ITEM=1=apple
@ITEM=2=orange
@ITEM=3=tomato
@ITEM=4=milk
@ITEM=5=bread
@ITEM=6=noodle
@ITEM=7=rice
@ITEM=-1=|
1 -1 1 2 3 -1 1 3 -1 4 -1 3 6 -1 -2
1 4 -1 3 -1 2 3 -1 1 5 -1 -2
5 6 -1 1 2 -1 4 6 -1 3 -1 2 -1 -2
5 -1 7 -1 1 6 -1 3 -1 2 -1 3 -1 -2

In this file, the first line indicates, that it is a file where names are given to items. Then, the second line indicates that the item 1 is called "apple". The third line indicates that the item 2 is called "orange". The 9th line indicates that the symbol "-1" must be replaced by "|". Then the following lines define four sequences in the SPMF format.

Then, if we apply a sequential pattern mining algorithm using this file using the user interface of SPMF or the command line, the output file contains several patterns, including the following ones:

apple,orange,bread,noodle ==> tomato #SUP: 2 #CONF: 1.0
apple,bread,noodle ==> orange,tomato #SUP: 2 #CONF: 1.0
bread ==> apple,orange,tomato,noodle #SUP: 2 #CONF: 0.6666666666666666

Note that this feature could be also used from the source code of SPMF using the ResultConverter class. However, there is currently no example provided.

Performance

CMRules is a relatively efficient algorihtm. However, the RuleGrowth algorithm is faster.

What is interesting about CMRules is that it uses an association rule mining based approach for discovering sequential rules. Therefore it could be used to discover both sequential rules and association rules at the same time.

Where can I get more information about this algorithm?

The CMRules algorithm is described in this paper:

Fournier-Viger, P., Faghihi, U., Nkambou, R., Mephu Nguifo, E. (2012). CMRules: Mining Sequential Rules Common to Several Sequences. Knowledge-based Systems, Elsevier, 25(1): 63-76.

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