data <- list( c("a","b","c"), c("a","b"), c("a","b","d"), c("b","e"), c("a","c"), c("c","e"), c("a","b","d","e") ) names(data) <- paste("Tr",c(1:7), sep = "") trans <- as(data, "transactions") ### rules is <- apriori(trans, parameter=list(supp=0.25, target = "frequent"), control=list(verb=FALSE)) # inspect(is) ## without transactions works with frequent and closed itemsets r1 <- ruleInduction(is) # inspect(r1) # lhs rhs support confidence lift #3 {d} => {b} 0.2857143 1.0 1.40 #5 {d} => {a} 0.2857143 1.0 1.40 #9 {b} => {a} 0.5714286 0.8 1.12 #10 {a} => {b} 0.5714286 0.8 1.12 #11 {b,d} => {a} 0.2857143 1.0 1.40 #12 {a,d} => {b} 0.2857143 1.0 1.40 expect_equal(length(r1), 6L) expect_true(all(quality(r1)$support >= .25)) r2 <- ruleInduction(is, confidence = 1) # inspect(r2) # lhs rhs support confidence lift #3 {d} => {b} 0.2857143 1 1.4 #5 {d} => {a} 0.2857143 1 1.4 #11 {b,d} => {a} 0.2857143 1 1.4 #12 {a,d} => {b} 0.2857143 1 1.4 expect_equal(length(r2), 4L) expect_true(all(quality(r2)$confidence == 1)) ## missing itemsets is_incomplete <- is[labels(is) != "{a,b}"] expect_error(r_incomplete <- ruleInduction(is_incomplete), regex = "cannot induce rules") ## missing support is_nosupp <- is # empty quality quality(is_nosupp) <- data.frame() expect_error(r_nosupp <- ruleInduction(is_nosupp), regex = "support is missing") # no support quality(is_nosupp) <- data.frame(weird_measure = runif(length(is_nosupp))) # inspect(is_nosupp) expect_error(r_nosupp <- ruleInduction(is_nosupp), regex = "support is missing") expect_equal_rules <- function(r1, r2) { expect_equal(length(r1), length(r2)) r2 <- r2[match(labels(r2), labels(r1))] expect_equal(labels(r1), labels(r1)) ### Note rownames may differ in quality after matching q1 <- quality(r1)[, c("support", "confidence", "lift")] rownames(q1) <- NULL q2 <- quality(r2)[, c("support", "confidence", "lift")] rownames(q2) <- NULL expect_equal(q1, q2) } ## with transactions r1_w <- ruleInduction(is, transactions = trans) expect_equal_rules(r1, r1_w) r2_w <- ruleInduction(is, transactions = trans, confidence =1) expect_equal_rules(r2, r2_w) r2_incomplete <- ruleInduction(is_incomplete, transactions = trans) #> inspect(r2_incomplete) # lhs rhs support confidence lift itemset #3 {d} => {b} 0.2857143 1 1.4 7 #5 {d} => {a} 0.2857143 1 1.4 8 #9 {b,d} => {a} 0.2857143 1 1.4 10 #10 {a,d} => {b} 0.2857143 1 1.4 10 expect_equal(length(r2_incomplete), 4) r2_nosupp <- ruleInduction(is_nosupp, transactions = trans) expect_equal_rules(r2_nosupp, r1) ## test method apriori and compare to ptree method (default) ## they all need specified transactions r1_a <- ruleInduction(is, transactions = trans, control=list(method="apriori")) expect_equal_rules(r1_a, r1) r2_a <- ruleInduction(is, transactions = trans, control=list(method="apriori"), confidence = 1) expect_equal_rules(r2_a, r2) # test tidlists # FIXME: tidlists does not work correctly! # r1_t <- ruleInduction(is, transactions = trans, # control=list(method="tidlists")) # expect_equal_rules(r1_t, r1) # # r2_t <- ruleInduction(is, transactions = trans, # control=list(method="tidlists"), confidence = 1) # expect_equal_rules(r2_t, r2) ## test with problematic transactions (items have support of 0) r_t0 <- ruleInduction(is, transactions = trans[0]) expect_equal(length(r_t0), 0L) r_t2 <- ruleInduction(is, transactions = trans[1:2]) #> inspect(trans[1:2]) # items transactionID #1 {a,b,c} Tr1 #2 {a,b} Tr2 #> inspect(r_t2) # lhs rhs support confidence lift itemset #1 {c} => {a} 0.5 1 1 6 #9 {b} => {a} 1.0 1 1 10 #10 {a} => {b} 1.0 1 1 10 expect_equal(length(r_t2), 3L) # method apriori r_t0a <- ruleInduction(is, transactions = trans[0], control=list(method="apriori")) expect_equal(length(r_t0a), 0L) r_t2a <- ruleInduction(is, transactions = trans[1:2], control=list(method="apriori")) ## FIXME: apriori returns rules like {} -> rule induction does not! expect_equal_rules(r_t2, r_t2a[size(r_t2a)>1]) ## test with problematic transactions (items missing, items in different order) expect_error(ruleInduction(is, transactions = trans[,rev(1:nitems(trans))]), regex = "Item labels") expect_error(ruleInduction(is, transactions = trans[,-2]), regex = "Dimensions")