tests/testthat/test_rdd.R
In akzaidi/SparkR: R frontend for Spark
#
# Licensed to the Apache Software Foundation (ASF) under one or more
# contributor license agreements. See the NOTICE file distributed with
# this work for additional information regarding copyright ownership.
# The ASF licenses this file to You under the Apache License, Version 2.0
# (the "License"); you may not use this file except in compliance with
# the License. You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
#
context("basic RDD functions")
# JavaSparkContext handle
sc <- sparkR.init()
# Data
nums <- 1:10
rdd <- parallelize(sc, nums, 2L)
intPairs <- list(list(1L, -1), list(2L, 100), list(2L, 1), list(1L, 200))
intRdd <- parallelize(sc, intPairs, 2L)
test_that("get number of partitions in RDD", {
expect_equal(getNumPartitions(rdd), 2)
expect_equal(getNumPartitions(intRdd), 2)
})
test_that("first on RDD", {
expect_equal(first(rdd), 1)
newrdd <- lapply(rdd, function(x) x + 1)
expect_equal(first(newrdd), 2)
})
test_that("count and length on RDD", {
expect_equal(count(rdd), 10)
expect_equal(length(rdd), 10)
})
test_that("count by values and keys", {
mods <- lapply(rdd, function(x) { x %% 3 })
actual <- countByValue(mods)
expected <- list(list(0, 3L), list(1, 4L), list(2, 3L))
expect_equal(sortKeyValueList(actual), sortKeyValueList(expected))
actual <- countByKey(intRdd)
expected <- list(list(2L, 2L), list(1L, 2L))
expect_equal(sortKeyValueList(actual), sortKeyValueList(expected))
})
test_that("lapply on RDD", {
multiples <- lapply(rdd, function(x) { 2 * x })
actual <- collect(multiples)
expect_equal(actual, as.list(nums * 2))
})
test_that("lapplyPartition on RDD", {
sums <- lapplyPartition(rdd, function(part) { sum(unlist(part)) })
actual <- collect(sums)
expect_equal(actual, list(15, 40))
})
test_that("mapPartitions on RDD", {
sums <- mapPartitions(rdd, function(part) { sum(unlist(part)) })
actual <- collect(sums)
expect_equal(actual, list(15, 40))
})
test_that("flatMap() on RDDs", {
flat <- flatMap(intRdd, function(x) { list(x, x) })
actual <- collect(flat)
expect_equal(actual, rep(intPairs, each=2))
})
test_that("filterRDD on RDD", {
filtered.rdd <- filterRDD(rdd, function(x) { x %% 2 == 0 })
actual <- collect(filtered.rdd)
expect_equal(actual, list(2, 4, 6, 8, 10))
filtered.rdd <- Filter(function(x) { x[[2]] < 0 }, intRdd)
actual <- collect(filtered.rdd)
expect_equal(actual, list(list(1L, -1)))
# Filter out all elements.
filtered.rdd <- filterRDD(rdd, function(x) { x > 10 })
actual <- collect(filtered.rdd)
expect_equal(actual, list())
})
test_that("lookup on RDD", {
vals <- lookup(intRdd, 1L)
expect_equal(vals, list(-1, 200))
vals <- lookup(intRdd, 3L)
expect_equal(vals, list())
})
test_that("several transformations on RDD (a benchmark on PipelinedRDD)", {
rdd2 <- rdd
for (i in 1:12)
rdd2 <- lapplyPartitionsWithIndex(
rdd2, function(partIndex, part) {
part <- as.list(unlist(part) * partIndex + i)
})
rdd2 <- lapply(rdd2, function(x) x + x)
actual <- collect(rdd2)
expected <- list(24, 24, 24, 24, 24,
168, 170, 172, 174, 176)
expect_equal(actual, expected)
})
test_that("PipelinedRDD support actions: cache(), persist(), unpersist(), checkpoint()", {
# RDD
rdd2 <- rdd
# PipelinedRDD
rdd2 <- lapplyPartitionsWithIndex(
rdd2,
function(partIndex, part) {
part <- as.list(unlist(part) * partIndex)
})
cache(rdd2)
expect_true(rdd2@env$isCached)
rdd2 <- lapply(rdd2, function(x) x)
expect_false(rdd2@env$isCached)
unpersist(rdd2)
expect_false(rdd2@env$isCached)
persist(rdd2, "MEMORY_AND_DISK")
expect_true(rdd2@env$isCached)
rdd2 <- lapply(rdd2, function(x) x)
expect_false(rdd2@env$isCached)
unpersist(rdd2)
expect_false(rdd2@env$isCached)
tempDir <- tempfile(pattern = "checkpoint")
setCheckpointDir(sc, tempDir)
checkpoint(rdd2)
expect_true(rdd2@env$isCheckpointed)
rdd2 <- lapply(rdd2, function(x) x)
expect_false(rdd2@env$isCached)
expect_false(rdd2@env$isCheckpointed)
# make sure the data is collectable
collect(rdd2)
unlink(tempDir)
})
test_that("reduce on RDD", {
sum <- reduce(rdd, "+")
expect_equal(sum, 55)
# Also test with an inline function
sumInline <- reduce(rdd, function(x, y) { x + y })
expect_equal(sumInline, 55)
})
test_that("lapply with dependency", {
fa <- 5
multiples <- lapply(rdd, function(x) { fa * x })
actual <- collect(multiples)
expect_equal(actual, as.list(nums * 5))
})
test_that("lapplyPartitionsWithIndex on RDDs", {
func <- function(partIndex, part) { list(partIndex, Reduce("+", part)) }
actual <- collect(lapplyPartitionsWithIndex(rdd, func), flatten = FALSE)
expect_equal(actual, list(list(0, 15), list(1, 40)))
pairsRDD <- parallelize(sc, list(list(1, 2), list(3, 4), list(4, 8)), 1L)
partitionByParity <- function(key) { if (key %% 2 == 1) 0 else 1 }
mkTup <- function(partIndex, part) { list(partIndex, part) }
actual <- collect(lapplyPartitionsWithIndex(
partitionBy(pairsRDD, 2L, partitionByParity),
mkTup),
FALSE)
expect_equal(actual, list(list(0, list(list(1, 2), list(3, 4))),
list(1, list(list(4, 8)))))
})
test_that("sampleRDD() on RDDs", {
expect_equal(unlist(collect(sampleRDD(rdd, FALSE, 1.0, 2014L))), nums)
})
test_that("takeSample() on RDDs", {
# ported from RDDSuite.scala, modified seeds
data <- parallelize(sc, 1:100, 2L)
for (seed in 4:5) {
s <- takeSample(data, FALSE, 20L, seed)
expect_equal(length(s), 20L)
expect_equal(length(unique(s)), 20L)
for (elem in s) {
expect_true(elem >= 1 && elem <= 100)
}
}
for (seed in 4:5) {
s <- takeSample(data, FALSE, 200L, seed)
expect_equal(length(s), 100L)
expect_equal(length(unique(s)), 100L)
for (elem in s) {
expect_true(elem >= 1 && elem <= 100)
}
}
for (seed in 4:5) {
s <- takeSample(data, TRUE, 20L, seed)
expect_equal(length(s), 20L)
for (elem in s) {
expect_true(elem >= 1 && elem <= 100)
}
}
for (seed in 4:5) {
s <- takeSample(data, TRUE, 100L, seed)
expect_equal(length(s), 100L)
# Chance of getting all distinct elements is astronomically low, so test we
# got < 100
expect_true(length(unique(s)) < 100L)
}
for (seed in 4:5) {
s <- takeSample(data, TRUE, 200L, seed)
expect_equal(length(s), 200L)
# Chance of getting all distinct elements is still quite low, so test we
# got < 100
expect_true(length(unique(s)) < 100L)
}
})
test_that("mapValues() on pairwise RDDs", {
multiples <- mapValues(intRdd, function(x) { x * 2 })
actual <- collect(multiples)
expected <- lapply(intPairs, function(x) {
list(x[[1]], x[[2]] * 2)
})
expect_equal(sortKeyValueList(actual), sortKeyValueList(expected))
})
test_that("flatMapValues() on pairwise RDDs", {
l <- parallelize(sc, list(list(1, c(1,2)), list(2, c(3,4))))
actual <- collect(flatMapValues(l, function(x) { x }))
expect_equal(actual, list(list(1,1), list(1,2), list(2,3), list(2,4)))
# Generate x to x+1 for every value
actual <- collect(flatMapValues(intRdd, function(x) { x: (x + 1) }))
expect_equal(actual,
list(list(1L, -1), list(1L, 0), list(2L, 100), list(2L, 101),
list(2L, 1), list(2L, 2), list(1L, 200), list(1L, 201)))
})
test_that("reduceByKeyLocally() on PairwiseRDDs", {
pairs <- parallelize(sc, list(list(1, 2), list(1.1, 3), list(1, 4)), 2L)
actual <- reduceByKeyLocally(pairs, "+")
expect_equal(sortKeyValueList(actual),
sortKeyValueList(list(list(1, 6), list(1.1, 3))))
pairs <- parallelize(sc, list(list("abc", 1.2), list(1.1, 0), list("abc", 1.3),
list("bb", 5)), 4L)
actual <- reduceByKeyLocally(pairs, "+")
expect_equal(sortKeyValueList(actual),
sortKeyValueList(list(list("abc", 2.5), list(1.1, 0), list("bb", 5))))
})
test_that("distinct() on RDDs", {
nums.rep2 <- rep(1:10, 2)
rdd.rep2 <- parallelize(sc, nums.rep2, 2L)
uniques <- distinct(rdd.rep2)
actual <- sort(unlist(collect(uniques)))
expect_equal(actual, nums)
})
test_that("maximum() on RDDs", {
max <- maximum(rdd)
expect_equal(max, 10)
})
test_that("minimum() on RDDs", {
min <- minimum(rdd)
expect_equal(min, 1)
})
test_that("sumRDD() on RDDs", {
sum <- sumRDD(rdd)
expect_equal(sum, 55)
})
test_that("keyBy on RDDs", {
func <- function(x) { x * x }
keys <- keyBy(rdd, func)
actual <- collect(keys)
expect_equal(actual, lapply(nums, function(x) { list(func(x), x) }))
})
test_that("repartition/coalesce on RDDs", {
rdd <- parallelize(sc, 1:20, 4L) # each partition contains 5 elements
# repartition
r1 <- repartition(rdd, 2)
expect_equal(getNumPartitions(r1), 2L)
count <- length(collectPartition(r1, 0L))
expect_true(count >= 8 && count <= 12)
r2 <- repartition(rdd, 6)
expect_equal(getNumPartitions(r2), 6L)
count <- length(collectPartition(r2, 0L))
expect_true(count >= 0 && count <= 4)
# coalesce
r3 <- coalesce(rdd, 1)
expect_equal(getNumPartitions(r3), 1L)
count <- length(collectPartition(r3, 0L))
expect_equal(count, 20)
})
test_that("sortBy() on RDDs", {
sortedRdd <- sortBy(rdd, function(x) { x * x }, ascending = FALSE)
actual <- collect(sortedRdd)
expect_equal(actual, as.list(sort(nums, decreasing = TRUE)))
rdd2 <- parallelize(sc, sort(nums, decreasing = TRUE), 2L)
sortedRdd2 <- sortBy(rdd2, function(x) { x * x })
actual <- collect(sortedRdd2)
expect_equal(actual, as.list(nums))
})
test_that("takeOrdered() on RDDs", {
l <- list(10, 1, 2, 9, 3, 4, 5, 6, 7)
rdd <- parallelize(sc, l)
actual <- takeOrdered(rdd, 6L)
expect_equal(actual, as.list(sort(unlist(l)))[1:6])
l <- list("e", "d", "c", "d", "a")
rdd <- parallelize(sc, l)
actual <- takeOrdered(rdd, 3L)
expect_equal(actual, as.list(sort(unlist(l)))[1:3])
})
test_that("top() on RDDs", {
l <- list(10, 1, 2, 9, 3, 4, 5, 6, 7)
rdd <- parallelize(sc, l)
actual <- top(rdd, 6L)
expect_equal(actual, as.list(sort(unlist(l), decreasing = TRUE))[1:6])
l <- list("e", "d", "c", "d", "a")
rdd <- parallelize(sc, l)
actual <- top(rdd, 3L)
expect_equal(actual, as.list(sort(unlist(l), decreasing = TRUE))[1:3])
})
test_that("fold() on RDDs", {
actual <- fold(rdd, 0, "+")
expect_equal(actual, Reduce("+", nums, 0))
rdd <- parallelize(sc, list())
actual <- fold(rdd, 0, "+")
expect_equal(actual, 0)
})
test_that("aggregateRDD() on RDDs", {
rdd <- parallelize(sc, list(1, 2, 3, 4))
zeroValue <- list(0, 0)
seqOp <- function(x, y) { list(x[[1]] + y, x[[2]] + 1) }
combOp <- function(x, y) { list(x[[1]] + y[[1]], x[[2]] + y[[2]]) }
actual <- aggregateRDD(rdd, zeroValue, seqOp, combOp)
expect_equal(actual, list(10, 4))
rdd <- parallelize(sc, list())
actual <- aggregateRDD(rdd, zeroValue, seqOp, combOp)
expect_equal(actual, list(0, 0))
})
test_that("zipWithUniqueId() on RDDs", {
rdd <- parallelize(sc, list("a", "b", "c", "d", "e"), 3L)
actual <- collect(zipWithUniqueId(rdd))
expected <- list(list("a", 0), list("b", 3), list("c", 1),
list("d", 4), list("e", 2))
expect_equal(actual, expected)
rdd <- parallelize(sc, list("a", "b", "c", "d", "e"), 1L)
actual <- collect(zipWithUniqueId(rdd))
expected <- list(list("a", 0), list("b", 1), list("c", 2),
list("d", 3), list("e", 4))
expect_equal(actual, expected)
})
test_that("zipWithIndex() on RDDs", {
rdd <- parallelize(sc, list("a", "b", "c", "d", "e"), 3L)
actual <- collect(zipWithIndex(rdd))
expected <- list(list("a", 0), list("b", 1), list("c", 2),
list("d", 3), list("e", 4))
expect_equal(actual, expected)
rdd <- parallelize(sc, list("a", "b", "c", "d", "e"), 1L)
actual <- collect(zipWithIndex(rdd))
expected <- list(list("a", 0), list("b", 1), list("c", 2),
list("d", 3), list("e", 4))
expect_equal(actual, expected)
})
test_that("glom() on RDD", {
rdd <- parallelize(sc, as.list(1:4), 2L)
actual <- collect(glom(rdd))
expect_equal(actual, list(list(1, 2), list(3, 4)))
})
test_that("keys() on RDDs", {
keys <- keys(intRdd)
actual <- collect(keys)
expect_equal(actual, lapply(intPairs, function(x) { x[[1]] }))
})
test_that("values() on RDDs", {
values <- values(intRdd)
actual <- collect(values)
expect_equal(actual, lapply(intPairs, function(x) { x[[2]] }))
})
test_that("pipeRDD() on RDDs", {
actual <- collect(pipeRDD(rdd, "more"))
expected <- as.list(as.character(1:10))
expect_equal(actual, expected)
trailed.rdd <- parallelize(sc, c("1", "", "2\n", "3\n\r\n"))
actual <- collect(pipeRDD(trailed.rdd, "sort"))
expected <- list("", "1", "2", "3")
expect_equal(actual, expected)
rev.nums <- 9:0
rev.rdd <- parallelize(sc, rev.nums, 2L)
actual <- collect(pipeRDD(rev.rdd, "sort"))
expected <- as.list(as.character(c(5:9, 0:4)))
expect_equal(actual, expected)
})
test_that("zipRDD() on RDDs", {
rdd1 <- parallelize(sc, 0:4, 2)
rdd2 <- parallelize(sc, 1000:1004, 2)
actual <- collect(zipRDD(rdd1, rdd2))
expect_equal(actual,
list(list(0, 1000), list(1, 1001), list(2, 1002), list(3, 1003), list(4, 1004)))
mockFile <- c("Spark is pretty.", "Spark is awesome.")
fileName <- tempfile(pattern="spark-test", fileext=".tmp")
writeLines(mockFile, fileName)
rdd <- textFile(sc, fileName, 1)
actual <- collect(zipRDD(rdd, rdd))
expected <- lapply(mockFile, function(x) { list(x ,x) })
expect_equal(actual, expected)
rdd1 <- parallelize(sc, 0:1, 1)
actual <- collect(zipRDD(rdd1, rdd))
expected <- lapply(0:1, function(x) { list(x, mockFile[x + 1]) })
expect_equal(actual, expected)
rdd1 <- map(rdd, function(x) { x })
actual <- collect(zipRDD(rdd, rdd1))
expected <- lapply(mockFile, function(x) { list(x, x) })
expect_equal(actual, expected)
unlink(fileName)
})
test_that("cartesian() on RDDs", {
rdd <- parallelize(sc, 1:3)
actual <- collect(cartesian(rdd, rdd))
expect_equal(sortKeyValueList(actual),
list(
list(1, 1), list(1, 2), list(1, 3),
list(2, 1), list(2, 2), list(2, 3),
list(3, 1), list(3, 2), list(3, 3)))
# test case where one RDD is empty
emptyRdd <- parallelize(sc, list())
actual <- collect(cartesian(rdd, emptyRdd))
expect_equal(actual, list())
mockFile <- c("Spark is pretty.", "Spark is awesome.")
fileName <- tempfile(pattern="spark-test", fileext=".tmp")
writeLines(mockFile, fileName)
rdd <- textFile(sc, fileName)
actual <- collect(cartesian(rdd, rdd))
expected <- list(
list("Spark is awesome.", "Spark is pretty."),
list("Spark is awesome.", "Spark is awesome."),
list("Spark is pretty.", "Spark is pretty."),
list("Spark is pretty.", "Spark is awesome."))
expect_equal(sortKeyValueList(actual), expected)
rdd1 <- parallelize(sc, 0:1)
actual <- collect(cartesian(rdd1, rdd))
expect_equal(sortKeyValueList(actual),
list(
list(0, "Spark is pretty."),
list(0, "Spark is awesome."),
list(1, "Spark is pretty."),
list(1, "Spark is awesome.")))
rdd1 <- map(rdd, function(x) { x })
actual <- collect(cartesian(rdd, rdd1))
expect_equal(sortKeyValueList(actual), expected)
unlink(fileName)
})
test_that("subtract() on RDDs", {
l <- list(1, 1, 2, 2, 3, 4)
rdd1 <- parallelize(sc, l)
# subtract by itself
actual <- collect(subtract(rdd1, rdd1))
expect_equal(actual, list())
# subtract by an empty RDD
rdd2 <- parallelize(sc, list())
actual <- collect(subtract(rdd1, rdd2))
expect_equal(as.list(sort(as.vector(actual, mode="integer"))),
l)
rdd2 <- parallelize(sc, list(2, 4))
actual <- collect(subtract(rdd1, rdd2))
expect_equal(as.list(sort(as.vector(actual, mode="integer"))),
list(1, 1, 3))
l <- list("a", "a", "b", "b", "c", "d")
rdd1 <- parallelize(sc, l)
rdd2 <- parallelize(sc, list("b", "d"))
actual <- collect(subtract(rdd1, rdd2))
expect_equal(as.list(sort(as.vector(actual, mode="character"))),
list("a", "a", "c"))
})
test_that("subtractByKey() on pairwise RDDs", {
l <- list(list("a", 1), list("b", 4),
list("b", 5), list("a", 2))
rdd1 <- parallelize(sc, l)
# subtractByKey by itself
actual <- collect(subtractByKey(rdd1, rdd1))
expect_equal(actual, list())
# subtractByKey by an empty RDD
rdd2 <- parallelize(sc, list())
actual <- collect(subtractByKey(rdd1, rdd2))
expect_equal(sortKeyValueList(actual),
sortKeyValueList(l))
rdd2 <- parallelize(sc, list(list("a", 3), list("c", 1)))
actual <- collect(subtractByKey(rdd1, rdd2))
expect_equal(actual,
list(list("b", 4), list("b", 5)))
l <- list(list(1, 1), list(2, 4),
list(2, 5), list(1, 2))
rdd1 <- parallelize(sc, l)
rdd2 <- parallelize(sc, list(list(1, 3), list(3, 1)))
actual <- collect(subtractByKey(rdd1, rdd2))
expect_equal(actual,
list(list(2, 4), list(2, 5)))
})
test_that("intersection() on RDDs", {
# intersection with self
actual <- collect(intersection(rdd, rdd))
expect_equal(sort(as.integer(actual)), nums)
# intersection with an empty RDD
emptyRdd <- parallelize(sc, list())
actual <- collect(intersection(rdd, emptyRdd))
expect_equal(actual, list())
rdd1 <- parallelize(sc, list(1, 10, 2, 3, 4, 5))
rdd2 <- parallelize(sc, list(1, 6, 2, 3, 7, 8))
actual <- collect(intersection(rdd1, rdd2))
expect_equal(sort(as.integer(actual)), 1:3)
})
test_that("join() on pairwise RDDs", {
rdd1 <- parallelize(sc, list(list(1,1), list(2,4)))
rdd2 <- parallelize(sc, list(list(1,2), list(1,3)))
actual <- collect(join(rdd1, rdd2, 2L))
expect_equal(sortKeyValueList(actual),
sortKeyValueList(list(list(1, list(1, 2)), list(1, list(1, 3)))))
rdd1 <- parallelize(sc, list(list("a",1), list("b",4)))
rdd2 <- parallelize(sc, list(list("a",2), list("a",3)))
actual <- collect(join(rdd1, rdd2, 2L))
expect_equal(sortKeyValueList(actual),
sortKeyValueList(list(list("a", list(1, 2)), list("a", list(1, 3)))))
rdd1 <- parallelize(sc, list(list(1,1), list(2,2)))
rdd2 <- parallelize(sc, list(list(3,3), list(4,4)))
actual <- collect(join(rdd1, rdd2, 2L))
expect_equal(actual, list())
rdd1 <- parallelize(sc, list(list("a",1), list("b",2)))
rdd2 <- parallelize(sc, list(list("c",3), list("d",4)))
actual <- collect(join(rdd1, rdd2, 2L))
expect_equal(actual, list())
})
test_that("leftOuterJoin() on pairwise RDDs", {
rdd1 <- parallelize(sc, list(list(1,1), list(2,4)))
rdd2 <- parallelize(sc, list(list(1,2), list(1,3)))
actual <- collect(leftOuterJoin(rdd1, rdd2, 2L))
expected <- list(list(1, list(1, 2)), list(1, list(1, 3)), list(2, list(4, NULL)))
expect_equal(sortKeyValueList(actual),
sortKeyValueList(expected))
rdd1 <- parallelize(sc, list(list("a",1), list("b",4)))
rdd2 <- parallelize(sc, list(list("a",2), list("a",3)))
actual <- collect(leftOuterJoin(rdd1, rdd2, 2L))
expected <- list(list("b", list(4, NULL)), list("a", list(1, 2)), list("a", list(1, 3)))
expect_equal(sortKeyValueList(actual),
sortKeyValueList(expected))
rdd1 <- parallelize(sc, list(list(1,1), list(2,2)))
rdd2 <- parallelize(sc, list(list(3,3), list(4,4)))
actual <- collect(leftOuterJoin(rdd1, rdd2, 2L))
expected <- list(list(1, list(1, NULL)), list(2, list(2, NULL)))
expect_equal(sortKeyValueList(actual),
sortKeyValueList(expected))
rdd1 <- parallelize(sc, list(list("a",1), list("b",2)))
rdd2 <- parallelize(sc, list(list("c",3), list("d",4)))
actual <- collect(leftOuterJoin(rdd1, rdd2, 2L))
expected <- list(list("b", list(2, NULL)), list("a", list(1, NULL)))
expect_equal(sortKeyValueList(actual),
sortKeyValueList(expected))
})
test_that("rightOuterJoin() on pairwise RDDs", {
rdd1 <- parallelize(sc, list(list(1,2), list(1,3)))
rdd2 <- parallelize(sc, list(list(1,1), list(2,4)))
actual <- collect(rightOuterJoin(rdd1, rdd2, 2L))
expected <- list(list(1, list(2, 1)), list(1, list(3, 1)), list(2, list(NULL, 4)))
expect_equal(sortKeyValueList(actual), sortKeyValueList(expected))
rdd1 <- parallelize(sc, list(list("a",2), list("a",3)))
rdd2 <- parallelize(sc, list(list("a",1), list("b",4)))
actual <- collect(rightOuterJoin(rdd1, rdd2, 2L))
expected <- list(list("b", list(NULL, 4)), list("a", list(2, 1)), list("a", list(3, 1)))
expect_equal(sortKeyValueList(actual),
sortKeyValueList(expected))
rdd1 <- parallelize(sc, list(list(1,1), list(2,2)))
rdd2 <- parallelize(sc, list(list(3,3), list(4,4)))
actual <- collect(rightOuterJoin(rdd1, rdd2, 2L))
expect_equal(sortKeyValueList(actual),
sortKeyValueList(list(list(3, list(NULL, 3)), list(4, list(NULL, 4)))))
rdd1 <- parallelize(sc, list(list("a",1), list("b",2)))
rdd2 <- parallelize(sc, list(list("c",3), list("d",4)))
actual <- collect(rightOuterJoin(rdd1, rdd2, 2L))
expect_equal(sortKeyValueList(actual),
sortKeyValueList(list(list("d", list(NULL, 4)), list("c", list(NULL, 3)))))
})
test_that("fullOuterJoin() on pairwise RDDs", {
rdd1 <- parallelize(sc, list(list(1,2), list(1,3), list(3,3)))
rdd2 <- parallelize(sc, list(list(1,1), list(2,4)))
actual <- collect(fullOuterJoin(rdd1, rdd2, 2L))
expected <- list(list(1, list(2, 1)), list(1, list(3, 1)),
list(2, list(NULL, 4)), list(3, list(3, NULL)))
expect_equal(sortKeyValueList(actual), sortKeyValueList(expected))
rdd1 <- parallelize(sc, list(list("a",2), list("a",3), list("c", 1)))
rdd2 <- parallelize(sc, list(list("a",1), list("b",4)))
actual <- collect(fullOuterJoin(rdd1, rdd2, 2L))
expected <- list(list("b", list(NULL, 4)), list("a", list(2, 1)),
list("a", list(3, 1)), list("c", list(1, NULL)))
expect_equal(sortKeyValueList(actual),
sortKeyValueList(expected))
rdd1 <- parallelize(sc, list(list(1,1), list(2,2)))
rdd2 <- parallelize(sc, list(list(3,3), list(4,4)))
actual <- collect(fullOuterJoin(rdd1, rdd2, 2L))
expect_equal(sortKeyValueList(actual),
sortKeyValueList(list(list(1, list(1, NULL)), list(2, list(2, NULL)),
list(3, list(NULL, 3)), list(4, list(NULL, 4)))))
rdd1 <- parallelize(sc, list(list("a",1), list("b",2)))
rdd2 <- parallelize(sc, list(list("c",3), list("d",4)))
actual <- collect(fullOuterJoin(rdd1, rdd2, 2L))
expect_equal(sortKeyValueList(actual),
sortKeyValueList(list(list("a", list(1, NULL)), list("b", list(2, NULL)),
list("d", list(NULL, 4)), list("c", list(NULL, 3)))))
})
test_that("sortByKey() on pairwise RDDs", {
numPairsRdd <- map(rdd, function(x) { list (x, x) })
sortedRdd <- sortByKey(numPairsRdd, ascending = FALSE)
actual <- collect(sortedRdd)
numPairs <- lapply(nums, function(x) { list (x, x) })
expect_equal(actual, sortKeyValueList(numPairs, decreasing = TRUE))
rdd2 <- parallelize(sc, sort(nums, decreasing = TRUE), 2L)
numPairsRdd2 <- map(rdd2, function(x) { list (x, x) })
sortedRdd2 <- sortByKey(numPairsRdd2)
actual <- collect(sortedRdd2)
expect_equal(actual, numPairs)
# sort by string keys
l <- list(list("a", 1), list("b", 2), list("1", 3), list("d", 4), list("2", 5))
rdd3 <- parallelize(sc, l, 2L)
sortedRdd3 <- sortByKey(rdd3)
actual <- collect(sortedRdd3)
expect_equal(actual, list(list("1", 3), list("2", 5), list("a", 1), list("b", 2), list("d", 4)))
# test on the boundary cases
# boundary case 1: the RDD to be sorted has only 1 partition
rdd4 <- parallelize(sc, l, 1L)
sortedRdd4 <- sortByKey(rdd4)
actual <- collect(sortedRdd4)
expect_equal(actual, list(list("1", 3), list("2", 5), list("a", 1), list("b", 2), list("d", 4)))
# boundary case 2: the sorted RDD has only 1 partition
rdd5 <- parallelize(sc, l, 2L)
sortedRdd5 <- sortByKey(rdd5, numPartitions = 1L)
actual <- collect(sortedRdd5)
expect_equal(actual, list(list("1", 3), list("2", 5), list("a", 1), list("b", 2), list("d", 4)))
# boundary case 3: the RDD to be sorted has only 1 element
l2 <- list(list("a", 1))
rdd6 <- parallelize(sc, l2, 2L)
sortedRdd6 <- sortByKey(rdd6)
actual <- collect(sortedRdd6)
expect_equal(actual, l2)
# boundary case 4: the RDD to be sorted has 0 element
l3 <- list()
rdd7 <- parallelize(sc, l3, 2L)
sortedRdd7 <- sortByKey(rdd7)
actual <- collect(sortedRdd7)
expect_equal(actual, l3)
})
test_that("collectAsMap() on a pairwise RDD", {
rdd <- parallelize(sc, list(list(1, 2), list(3, 4)))
vals <- collectAsMap(rdd)
expect_equal(vals, list(`1` = 2, `3` = 4))
rdd <- parallelize(sc, list(list("a", 1), list("b", 2)))
vals <- collectAsMap(rdd)
expect_equal(vals, list(a = 1, b = 2))
rdd <- parallelize(sc, list(list(1.1, 2.2), list(1.2, 2.4)))
vals <- collectAsMap(rdd)
expect_equal(vals, list(`1.1` = 2.2, `1.2` = 2.4))
rdd <- parallelize(sc, list(list(1, "a"), list(2, "b")))
vals <- collectAsMap(rdd)
expect_equal(vals, list(`1` = "a", `2` = "b"))
})
test_that("show()", {
rdd <- parallelize(sc, list(1:10))
expect_output(show(rdd), "ParallelCollectionRDD\\[\\d+\\] at parallelize at RRDD\\.scala:\\d+")
})
test_that("sampleByKey() on pairwise RDDs", {
rdd <- parallelize(sc, 1:2000)
pairsRDD <- lapply(rdd, function(x) { if (x %% 2 == 0) list("a", x) else list("b", x) })
fractions <- list(a = 0.2, b = 0.1)
sample <- sampleByKey(pairsRDD, FALSE, fractions, 1618L)
expect_equal(100 < length(lookup(sample, "a")) && 300 > length(lookup(sample, "a")), TRUE)
expect_equal(50 < length(lookup(sample, "b")) && 150 > length(lookup(sample, "b")), TRUE)
expect_equal(lookup(sample, "a")[which.min(lookup(sample, "a"))] >= 0, TRUE)
expect_equal(lookup(sample, "a")[which.max(lookup(sample, "a"))] <= 2000, TRUE)
expect_equal(lookup(sample, "b")[which.min(lookup(sample, "b"))] >= 0, TRUE)
expect_equal(lookup(sample, "b")[which.max(lookup(sample, "b"))] <= 2000, TRUE)
rdd <- parallelize(sc, 1:2000)
pairsRDD <- lapply(rdd, function(x) { if (x %% 2 == 0) list(2, x) else list(3, x) })
fractions <- list(`2` = 0.2, `3` = 0.1)
sample <- sampleByKey(pairsRDD, TRUE, fractions, 1618L)
expect_equal(100 < length(lookup(sample, 2)) && 300 > length(lookup(sample, 2)), TRUE)
expect_equal(50 < length(lookup(sample, 3)) && 150 > length(lookup(sample, 3)), TRUE)
expect_equal(lookup(sample, 2)[which.min(lookup(sample, 2))] >= 0, TRUE)
expect_equal(lookup(sample, 2)[which.max(lookup(sample, 2))] <= 2000, TRUE)
expect_equal(lookup(sample, 3)[which.min(lookup(sample, 3))] >= 0, TRUE)
expect_equal(lookup(sample, 3)[which.max(lookup(sample, 3))] <= 2000, TRUE)
})
akzaidi/SparkR documentation built on May 10, 2019, 8:32 a.m.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
#
# Licensed to the Apache Software Foundation (ASF) under one or more
# contributor license agreements. See the NOTICE file distributed with
# this work for additional information regarding copyright ownership.
# The ASF licenses this file to You under the Apache License, Version 2.0
# (the "License"); you may not use this file except in compliance with
# the License. You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
#
context("basic RDD functions")
# JavaSparkContext handle
sc <- sparkR.init()
# Data
nums <- 1:10
rdd <- parallelize(sc, nums, 2L)
intPairs <- list(list(1L, -1), list(2L, 100), list(2L, 1), list(1L, 200))
intRdd <- parallelize(sc, intPairs, 2L)
test_that("get number of partitions in RDD", {
expect_equal(getNumPartitions(rdd), 2)
expect_equal(getNumPartitions(intRdd), 2)
})
test_that("first on RDD", {
expect_equal(first(rdd), 1)
newrdd <- lapply(rdd, function(x) x + 1)
expect_equal(first(newrdd), 2)
})
test_that("count and length on RDD", {
expect_equal(count(rdd), 10)
expect_equal(length(rdd), 10)
})
test_that("count by values and keys", {
mods <- lapply(rdd, function(x) { x %% 3 })
actual <- countByValue(mods)
expected <- list(list(0, 3L), list(1, 4L), list(2, 3L))
expect_equal(sortKeyValueList(actual), sortKeyValueList(expected))
actual <- countByKey(intRdd)
expected <- list(list(2L, 2L), list(1L, 2L))
expect_equal(sortKeyValueList(actual), sortKeyValueList(expected))
})
test_that("lapply on RDD", {
multiples <- lapply(rdd, function(x) { 2 * x })
actual <- collect(multiples)
expect_equal(actual, as.list(nums * 2))
})
test_that("lapplyPartition on RDD", {
sums <- lapplyPartition(rdd, function(part) { sum(unlist(part)) })
actual <- collect(sums)
expect_equal(actual, list(15, 40))
})
test_that("mapPartitions on RDD", {
sums <- mapPartitions(rdd, function(part) { sum(unlist(part)) })
actual <- collect(sums)
expect_equal(actual, list(15, 40))
})
test_that("flatMap() on RDDs", {
flat <- flatMap(intRdd, function(x) { list(x, x) })
actual <- collect(flat)
expect_equal(actual, rep(intPairs, each=2))
})
test_that("filterRDD on RDD", {
filtered.rdd <- filterRDD(rdd, function(x) { x %% 2 == 0 })
actual <- collect(filtered.rdd)
expect_equal(actual, list(2, 4, 6, 8, 10))
filtered.rdd <- Filter(function(x) { x[[2]] < 0 }, intRdd)
actual <- collect(filtered.rdd)
expect_equal(actual, list(list(1L, -1)))
# Filter out all elements.
filtered.rdd <- filterRDD(rdd, function(x) { x > 10 })
actual <- collect(filtered.rdd)
expect_equal(actual, list())
})
test_that("lookup on RDD", {
vals <- lookup(intRdd, 1L)
expect_equal(vals, list(-1, 200))
vals <- lookup(intRdd, 3L)
expect_equal(vals, list())
})
test_that("several transformations on RDD (a benchmark on PipelinedRDD)", {
rdd2 <- rdd
for (i in 1:12)
rdd2 <- lapplyPartitionsWithIndex(
rdd2, function(partIndex, part) {
part <- as.list(unlist(part) * partIndex + i)
})
rdd2 <- lapply(rdd2, function(x) x + x)
actual <- collect(rdd2)
expected <- list(24, 24, 24, 24, 24,
168, 170, 172, 174, 176)
expect_equal(actual, expected)
})
test_that("PipelinedRDD support actions: cache(), persist(), unpersist(), checkpoint()", {
# RDD
rdd2 <- rdd
# PipelinedRDD
rdd2 <- lapplyPartitionsWithIndex(
rdd2,
function(partIndex, part) {
part <- as.list(unlist(part) * partIndex)
})
cache(rdd2)
expect_true(rdd2@env$isCached)
rdd2 <- lapply(rdd2, function(x) x)
expect_false(rdd2@env$isCached)
unpersist(rdd2)
expect_false(rdd2@env$isCached)
persist(rdd2, "MEMORY_AND_DISK")
expect_true(rdd2@env$isCached)
rdd2 <- lapply(rdd2, function(x) x)
expect_false(rdd2@env$isCached)
unpersist(rdd2)
expect_false(rdd2@env$isCached)
tempDir <- tempfile(pattern = "checkpoint")
setCheckpointDir(sc, tempDir)
checkpoint(rdd2)
expect_true(rdd2@env$isCheckpointed)
rdd2 <- lapply(rdd2, function(x) x)
expect_false(rdd2@env$isCached)
expect_false(rdd2@env$isCheckpointed)
# make sure the data is collectable
collect(rdd2)
unlink(tempDir)
})
test_that("reduce on RDD", {
sum <- reduce(rdd, "+")
expect_equal(sum, 55)
# Also test with an inline function
sumInline <- reduce(rdd, function(x, y) { x + y })
expect_equal(sumInline, 55)
})
test_that("lapply with dependency", {
fa <- 5
multiples <- lapply(rdd, function(x) { fa * x })
actual <- collect(multiples)
expect_equal(actual, as.list(nums * 5))
})
test_that("lapplyPartitionsWithIndex on RDDs", {
func <- function(partIndex, part) { list(partIndex, Reduce("+", part)) }
actual <- collect(lapplyPartitionsWithIndex(rdd, func), flatten = FALSE)
expect_equal(actual, list(list(0, 15), list(1, 40)))
pairsRDD <- parallelize(sc, list(list(1, 2), list(3, 4), list(4, 8)), 1L)
partitionByParity <- function(key) { if (key %% 2 == 1) 0 else 1 }
mkTup <- function(partIndex, part) { list(partIndex, part) }
actual <- collect(lapplyPartitionsWithIndex(
partitionBy(pairsRDD, 2L, partitionByParity),
mkTup),
FALSE)
expect_equal(actual, list(list(0, list(list(1, 2), list(3, 4))),
list(1, list(list(4, 8)))))
})
test_that("sampleRDD() on RDDs", {
expect_equal(unlist(collect(sampleRDD(rdd, FALSE, 1.0, 2014L))), nums)
})
test_that("takeSample() on RDDs", {
# ported from RDDSuite.scala, modified seeds
data <- parallelize(sc, 1:100, 2L)
for (seed in 4:5) {
s <- takeSample(data, FALSE, 20L, seed)
expect_equal(length(s), 20L)
expect_equal(length(unique(s)), 20L)
for (elem in s) {
expect_true(elem >= 1 && elem <= 100)
}
}
for (seed in 4:5) {
s <- takeSample(data, FALSE, 200L, seed)
expect_equal(length(s), 100L)
expect_equal(length(unique(s)), 100L)
for (elem in s) {
expect_true(elem >= 1 && elem <= 100)
}
}
for (seed in 4:5) {
s <- takeSample(data, TRUE, 20L, seed)
expect_equal(length(s), 20L)
for (elem in s) {
expect_true(elem >= 1 && elem <= 100)
}
}
for (seed in 4:5) {
s <- takeSample(data, TRUE, 100L, seed)
expect_equal(length(s), 100L)
# Chance of getting all distinct elements is astronomically low, so test we
# got < 100
expect_true(length(unique(s)) < 100L)
}
for (seed in 4:5) {
s <- takeSample(data, TRUE, 200L, seed)
expect_equal(length(s), 200L)
# Chance of getting all distinct elements is still quite low, so test we
# got < 100
expect_true(length(unique(s)) < 100L)
}
})
test_that("mapValues() on pairwise RDDs", {
multiples <- mapValues(intRdd, function(x) { x * 2 })
actual <- collect(multiples)
expected <- lapply(intPairs, function(x) {
list(x[[1]], x[[2]] * 2)
})
expect_equal(sortKeyValueList(actual), sortKeyValueList(expected))
})
test_that("flatMapValues() on pairwise RDDs", {
l <- parallelize(sc, list(list(1, c(1,2)), list(2, c(3,4))))
actual <- collect(flatMapValues(l, function(x) { x }))
expect_equal(actual, list(list(1,1), list(1,2), list(2,3), list(2,4)))
# Generate x to x+1 for every value
actual <- collect(flatMapValues(intRdd, function(x) { x: (x + 1) }))
expect_equal(actual,
list(list(1L, -1), list(1L, 0), list(2L, 100), list(2L, 101),
list(2L, 1), list(2L, 2), list(1L, 200), list(1L, 201)))
})
test_that("reduceByKeyLocally() on PairwiseRDDs", {
pairs <- parallelize(sc, list(list(1, 2), list(1.1, 3), list(1, 4)), 2L)
actual <- reduceByKeyLocally(pairs, "+")
expect_equal(sortKeyValueList(actual),
sortKeyValueList(list(list(1, 6), list(1.1, 3))))
pairs <- parallelize(sc, list(list("abc", 1.2), list(1.1, 0), list("abc", 1.3),
list("bb", 5)), 4L)
actual <- reduceByKeyLocally(pairs, "+")
expect_equal(sortKeyValueList(actual),
sortKeyValueList(list(list("abc", 2.5), list(1.1, 0), list("bb", 5))))
})
test_that("distinct() on RDDs", {
nums.rep2 <- rep(1:10, 2)
rdd.rep2 <- parallelize(sc, nums.rep2, 2L)
uniques <- distinct(rdd.rep2)
actual <- sort(unlist(collect(uniques)))
expect_equal(actual, nums)
})
test_that("maximum() on RDDs", {
max <- maximum(rdd)
expect_equal(max, 10)
})
test_that("minimum() on RDDs", {
min <- minimum(rdd)
expect_equal(min, 1)
})
test_that("sumRDD() on RDDs", {
sum <- sumRDD(rdd)
expect_equal(sum, 55)
})
test_that("keyBy on RDDs", {
func <- function(x) { x * x }
keys <- keyBy(rdd, func)
actual <- collect(keys)
expect_equal(actual, lapply(nums, function(x) { list(func(x), x) }))
})
test_that("repartition/coalesce on RDDs", {
rdd <- parallelize(sc, 1:20, 4L) # each partition contains 5 elements
# repartition
r1 <- repartition(rdd, 2)
expect_equal(getNumPartitions(r1), 2L)
count <- length(collectPartition(r1, 0L))
expect_true(count >= 8 && count <= 12)
r2 <- repartition(rdd, 6)
expect_equal(getNumPartitions(r2), 6L)
count <- length(collectPartition(r2, 0L))
expect_true(count >= 0 && count <= 4)
# coalesce
r3 <- coalesce(rdd, 1)
expect_equal(getNumPartitions(r3), 1L)
count <- length(collectPartition(r3, 0L))
expect_equal(count, 20)
})
test_that("sortBy() on RDDs", {
sortedRdd <- sortBy(rdd, function(x) { x * x }, ascending = FALSE)
actual <- collect(sortedRdd)
expect_equal(actual, as.list(sort(nums, decreasing = TRUE)))
rdd2 <- parallelize(sc, sort(nums, decreasing = TRUE), 2L)
sortedRdd2 <- sortBy(rdd2, function(x) { x * x })
actual <- collect(sortedRdd2)
expect_equal(actual, as.list(nums))
})
test_that("takeOrdered() on RDDs", {
l <- list(10, 1, 2, 9, 3, 4, 5, 6, 7)
rdd <- parallelize(sc, l)
actual <- takeOrdered(rdd, 6L)
expect_equal(actual, as.list(sort(unlist(l)))[1:6])
l <- list("e", "d", "c", "d", "a")
rdd <- parallelize(sc, l)
actual <- takeOrdered(rdd, 3L)
expect_equal(actual, as.list(sort(unlist(l)))[1:3])
})
test_that("top() on RDDs", {
l <- list(10, 1, 2, 9, 3, 4, 5, 6, 7)
rdd <- parallelize(sc, l)
actual <- top(rdd, 6L)
expect_equal(actual, as.list(sort(unlist(l), decreasing = TRUE))[1:6])
l <- list("e", "d", "c", "d", "a")
rdd <- parallelize(sc, l)
actual <- top(rdd, 3L)
expect_equal(actual, as.list(sort(unlist(l), decreasing = TRUE))[1:3])
})
test_that("fold() on RDDs", {
actual <- fold(rdd, 0, "+")
expect_equal(actual, Reduce("+", nums, 0))
rdd <- parallelize(sc, list())
actual <- fold(rdd, 0, "+")
expect_equal(actual, 0)
})
test_that("aggregateRDD() on RDDs", {
rdd <- parallelize(sc, list(1, 2, 3, 4))
zeroValue <- list(0, 0)
seqOp <- function(x, y) { list(x[[1]] + y, x[[2]] + 1) }
combOp <- function(x, y) { list(x[[1]] + y[[1]], x[[2]] + y[[2]]) }
actual <- aggregateRDD(rdd, zeroValue, seqOp, combOp)
expect_equal(actual, list(10, 4))
rdd <- parallelize(sc, list())
actual <- aggregateRDD(rdd, zeroValue, seqOp, combOp)
expect_equal(actual, list(0, 0))
})
test_that("zipWithUniqueId() on RDDs", {
rdd <- parallelize(sc, list("a", "b", "c", "d", "e"), 3L)
actual <- collect(zipWithUniqueId(rdd))
expected <- list(list("a", 0), list("b", 3), list("c", 1),
list("d", 4), list("e", 2))
expect_equal(actual, expected)
rdd <- parallelize(sc, list("a", "b", "c", "d", "e"), 1L)
actual <- collect(zipWithUniqueId(rdd))
expected <- list(list("a", 0), list("b", 1), list("c", 2),
list("d", 3), list("e", 4))
expect_equal(actual, expected)
})
test_that("zipWithIndex() on RDDs", {
rdd <- parallelize(sc, list("a", "b", "c", "d", "e"), 3L)
actual <- collect(zipWithIndex(rdd))
expected <- list(list("a", 0), list("b", 1), list("c", 2),
list("d", 3), list("e", 4))
expect_equal(actual, expected)
rdd <- parallelize(sc, list("a", "b", "c", "d", "e"), 1L)
actual <- collect(zipWithIndex(rdd))
expected <- list(list("a", 0), list("b", 1), list("c", 2),
list("d", 3), list("e", 4))
expect_equal(actual, expected)
})
test_that("glom() on RDD", {
rdd <- parallelize(sc, as.list(1:4), 2L)
actual <- collect(glom(rdd))
expect_equal(actual, list(list(1, 2), list(3, 4)))
})
test_that("keys() on RDDs", {
keys <- keys(intRdd)
actual <- collect(keys)
expect_equal(actual, lapply(intPairs, function(x) { x[[1]] }))
})
test_that("values() on RDDs", {
values <- values(intRdd)
actual <- collect(values)
expect_equal(actual, lapply(intPairs, function(x) { x[[2]] }))
})
test_that("pipeRDD() on RDDs", {
actual <- collect(pipeRDD(rdd, "more"))
expected <- as.list(as.character(1:10))
expect_equal(actual, expected)
trailed.rdd <- parallelize(sc, c("1", "", "2\n", "3\n\r\n"))
actual <- collect(pipeRDD(trailed.rdd, "sort"))
expected <- list("", "1", "2", "3")
expect_equal(actual, expected)
rev.nums <- 9:0
rev.rdd <- parallelize(sc, rev.nums, 2L)
actual <- collect(pipeRDD(rev.rdd, "sort"))
expected <- as.list(as.character(c(5:9, 0:4)))
expect_equal(actual, expected)
})
test_that("zipRDD() on RDDs", {
rdd1 <- parallelize(sc, 0:4, 2)
rdd2 <- parallelize(sc, 1000:1004, 2)
actual <- collect(zipRDD(rdd1, rdd2))
expect_equal(actual,
list(list(0, 1000), list(1, 1001), list(2, 1002), list(3, 1003), list(4, 1004)))
mockFile <- c("Spark is pretty.", "Spark is awesome.")
fileName <- tempfile(pattern="spark-test", fileext=".tmp")
writeLines(mockFile, fileName)
rdd <- textFile(sc, fileName, 1)
actual <- collect(zipRDD(rdd, rdd))
expected <- lapply(mockFile, function(x) { list(x ,x) })
expect_equal(actual, expected)
rdd1 <- parallelize(sc, 0:1, 1)
actual <- collect(zipRDD(rdd1, rdd))
expected <- lapply(0:1, function(x) { list(x, mockFile[x + 1]) })
expect_equal(actual, expected)
rdd1 <- map(rdd, function(x) { x })
actual <- collect(zipRDD(rdd, rdd1))
expected <- lapply(mockFile, function(x) { list(x, x) })
expect_equal(actual, expected)
unlink(fileName)
})
test_that("cartesian() on RDDs", {
rdd <- parallelize(sc, 1:3)
actual <- collect(cartesian(rdd, rdd))
expect_equal(sortKeyValueList(actual),
list(
list(1, 1), list(1, 2), list(1, 3),
list(2, 1), list(2, 2), list(2, 3),
list(3, 1), list(3, 2), list(3, 3)))
# test case where one RDD is empty
emptyRdd <- parallelize(sc, list())
actual <- collect(cartesian(rdd, emptyRdd))
expect_equal(actual, list())
mockFile <- c("Spark is pretty.", "Spark is awesome.")
fileName <- tempfile(pattern="spark-test", fileext=".tmp")
writeLines(mockFile, fileName)
rdd <- textFile(sc, fileName)
actual <- collect(cartesian(rdd, rdd))
expected <- list(
list("Spark is awesome.", "Spark is pretty."),
list("Spark is awesome.", "Spark is awesome."),
list("Spark is pretty.", "Spark is pretty."),
list("Spark is pretty.", "Spark is awesome."))
expect_equal(sortKeyValueList(actual), expected)
rdd1 <- parallelize(sc, 0:1)
actual <- collect(cartesian(rdd1, rdd))
expect_equal(sortKeyValueList(actual),
list(
list(0, "Spark is pretty."),
list(0, "Spark is awesome."),
list(1, "Spark is pretty."),
list(1, "Spark is awesome.")))
rdd1 <- map(rdd, function(x) { x })
actual <- collect(cartesian(rdd, rdd1))
expect_equal(sortKeyValueList(actual), expected)
unlink(fileName)
})
test_that("subtract() on RDDs", {
l <- list(1, 1, 2, 2, 3, 4)
rdd1 <- parallelize(sc, l)
# subtract by itself
actual <- collect(subtract(rdd1, rdd1))
expect_equal(actual, list())
# subtract by an empty RDD
rdd2 <- parallelize(sc, list())
actual <- collect(subtract(rdd1, rdd2))
expect_equal(as.list(sort(as.vector(actual, mode="integer"))),
l)
rdd2 <- parallelize(sc, list(2, 4))
actual <- collect(subtract(rdd1, rdd2))
expect_equal(as.list(sort(as.vector(actual, mode="integer"))),
list(1, 1, 3))
l <- list("a", "a", "b", "b", "c", "d")
rdd1 <- parallelize(sc, l)
rdd2 <- parallelize(sc, list("b", "d"))
actual <- collect(subtract(rdd1, rdd2))
expect_equal(as.list(sort(as.vector(actual, mode="character"))),
list("a", "a", "c"))
})
test_that("subtractByKey() on pairwise RDDs", {
l <- list(list("a", 1), list("b", 4),
list("b", 5), list("a", 2))
rdd1 <- parallelize(sc, l)
# subtractByKey by itself
actual <- collect(subtractByKey(rdd1, rdd1))
expect_equal(actual, list())
# subtractByKey by an empty RDD
rdd2 <- parallelize(sc, list())
actual <- collect(subtractByKey(rdd1, rdd2))
expect_equal(sortKeyValueList(actual),
sortKeyValueList(l))
rdd2 <- parallelize(sc, list(list("a", 3), list("c", 1)))
actual <- collect(subtractByKey(rdd1, rdd2))
expect_equal(actual,
list(list("b", 4), list("b", 5)))
l <- list(list(1, 1), list(2, 4),
list(2, 5), list(1, 2))
rdd1 <- parallelize(sc, l)
rdd2 <- parallelize(sc, list(list(1, 3), list(3, 1)))
actual <- collect(subtractByKey(rdd1, rdd2))
expect_equal(actual,
list(list(2, 4), list(2, 5)))
})
test_that("intersection() on RDDs", {
# intersection with self
actual <- collect(intersection(rdd, rdd))
expect_equal(sort(as.integer(actual)), nums)
# intersection with an empty RDD
emptyRdd <- parallelize(sc, list())
actual <- collect(intersection(rdd, emptyRdd))
expect_equal(actual, list())
rdd1 <- parallelize(sc, list(1, 10, 2, 3, 4, 5))
rdd2 <- parallelize(sc, list(1, 6, 2, 3, 7, 8))
actual <- collect(intersection(rdd1, rdd2))
expect_equal(sort(as.integer(actual)), 1:3)
})
test_that("join() on pairwise RDDs", {
rdd1 <- parallelize(sc, list(list(1,1), list(2,4)))
rdd2 <- parallelize(sc, list(list(1,2), list(1,3)))
actual <- collect(join(rdd1, rdd2, 2L))
expect_equal(sortKeyValueList(actual),
sortKeyValueList(list(list(1, list(1, 2)), list(1, list(1, 3)))))
rdd1 <- parallelize(sc, list(list("a",1), list("b",4)))
rdd2 <- parallelize(sc, list(list("a",2), list("a",3)))
actual <- collect(join(rdd1, rdd2, 2L))
expect_equal(sortKeyValueList(actual),
sortKeyValueList(list(list("a", list(1, 2)), list("a", list(1, 3)))))
rdd1 <- parallelize(sc, list(list(1,1), list(2,2)))
rdd2 <- parallelize(sc, list(list(3,3), list(4,4)))
actual <- collect(join(rdd1, rdd2, 2L))
expect_equal(actual, list())
rdd1 <- parallelize(sc, list(list("a",1), list("b",2)))
rdd2 <- parallelize(sc, list(list("c",3), list("d",4)))
actual <- collect(join(rdd1, rdd2, 2L))
expect_equal(actual, list())
})
test_that("leftOuterJoin() on pairwise RDDs", {
rdd1 <- parallelize(sc, list(list(1,1), list(2,4)))
rdd2 <- parallelize(sc, list(list(1,2), list(1,3)))
actual <- collect(leftOuterJoin(rdd1, rdd2, 2L))
expected <- list(list(1, list(1, 2)), list(1, list(1, 3)), list(2, list(4, NULL)))
expect_equal(sortKeyValueList(actual),
sortKeyValueList(expected))
rdd1 <- parallelize(sc, list(list("a",1), list("b",4)))
rdd2 <- parallelize(sc, list(list("a",2), list("a",3)))
actual <- collect(leftOuterJoin(rdd1, rdd2, 2L))
expected <- list(list("b", list(4, NULL)), list("a", list(1, 2)), list("a", list(1, 3)))
expect_equal(sortKeyValueList(actual),
sortKeyValueList(expected))
rdd1 <- parallelize(sc, list(list(1,1), list(2,2)))
rdd2 <- parallelize(sc, list(list(3,3), list(4,4)))
actual <- collect(leftOuterJoin(rdd1, rdd2, 2L))
expected <- list(list(1, list(1, NULL)), list(2, list(2, NULL)))
expect_equal(sortKeyValueList(actual),
sortKeyValueList(expected))
rdd1 <- parallelize(sc, list(list("a",1), list("b",2)))
rdd2 <- parallelize(sc, list(list("c",3), list("d",4)))
actual <- collect(leftOuterJoin(rdd1, rdd2, 2L))
expected <- list(list("b", list(2, NULL)), list("a", list(1, NULL)))
expect_equal(sortKeyValueList(actual),
sortKeyValueList(expected))
})
test_that("rightOuterJoin() on pairwise RDDs", {
rdd1 <- parallelize(sc, list(list(1,2), list(1,3)))
rdd2 <- parallelize(sc, list(list(1,1), list(2,4)))
actual <- collect(rightOuterJoin(rdd1, rdd2, 2L))
expected <- list(list(1, list(2, 1)), list(1, list(3, 1)), list(2, list(NULL, 4)))
expect_equal(sortKeyValueList(actual), sortKeyValueList(expected))
rdd1 <- parallelize(sc, list(list("a",2), list("a",3)))
rdd2 <- parallelize(sc, list(list("a",1), list("b",4)))
actual <- collect(rightOuterJoin(rdd1, rdd2, 2L))
expected <- list(list("b", list(NULL, 4)), list("a", list(2, 1)), list("a", list(3, 1)))
expect_equal(sortKeyValueList(actual),
sortKeyValueList(expected))
rdd1 <- parallelize(sc, list(list(1,1), list(2,2)))
rdd2 <- parallelize(sc, list(list(3,3), list(4,4)))
actual <- collect(rightOuterJoin(rdd1, rdd2, 2L))
expect_equal(sortKeyValueList(actual),
sortKeyValueList(list(list(3, list(NULL, 3)), list(4, list(NULL, 4)))))
rdd1 <- parallelize(sc, list(list("a",1), list("b",2)))
rdd2 <- parallelize(sc, list(list("c",3), list("d",4)))
actual <- collect(rightOuterJoin(rdd1, rdd2, 2L))
expect_equal(sortKeyValueList(actual),
sortKeyValueList(list(list("d", list(NULL, 4)), list("c", list(NULL, 3)))))
})
test_that("fullOuterJoin() on pairwise RDDs", {
rdd1 <- parallelize(sc, list(list(1,2), list(1,3), list(3,3)))
rdd2 <- parallelize(sc, list(list(1,1), list(2,4)))
actual <- collect(fullOuterJoin(rdd1, rdd2, 2L))
expected <- list(list(1, list(2, 1)), list(1, list(3, 1)),
list(2, list(NULL, 4)), list(3, list(3, NULL)))
expect_equal(sortKeyValueList(actual), sortKeyValueList(expected))
rdd1 <- parallelize(sc, list(list("a",2), list("a",3), list("c", 1)))
rdd2 <- parallelize(sc, list(list("a",1), list("b",4)))
actual <- collect(fullOuterJoin(rdd1, rdd2, 2L))
expected <- list(list("b", list(NULL, 4)), list("a", list(2, 1)),
list("a", list(3, 1)), list("c", list(1, NULL)))
expect_equal(sortKeyValueList(actual),
sortKeyValueList(expected))
rdd1 <- parallelize(sc, list(list(1,1), list(2,2)))
rdd2 <- parallelize(sc, list(list(3,3), list(4,4)))
actual <- collect(fullOuterJoin(rdd1, rdd2, 2L))
expect_equal(sortKeyValueList(actual),
sortKeyValueList(list(list(1, list(1, NULL)), list(2, list(2, NULL)),
list(3, list(NULL, 3)), list(4, list(NULL, 4)))))
rdd1 <- parallelize(sc, list(list("a",1), list("b",2)))
rdd2 <- parallelize(sc, list(list("c",3), list("d",4)))
actual <- collect(fullOuterJoin(rdd1, rdd2, 2L))
expect_equal(sortKeyValueList(actual),
sortKeyValueList(list(list("a", list(1, NULL)), list("b", list(2, NULL)),
list("d", list(NULL, 4)), list("c", list(NULL, 3)))))
})
test_that("sortByKey() on pairwise RDDs", {
numPairsRdd <- map(rdd, function(x) { list (x, x) })
sortedRdd <- sortByKey(numPairsRdd, ascending = FALSE)
actual <- collect(sortedRdd)
numPairs <- lapply(nums, function(x) { list (x, x) })
expect_equal(actual, sortKeyValueList(numPairs, decreasing = TRUE))
rdd2 <- parallelize(sc, sort(nums, decreasing = TRUE), 2L)
numPairsRdd2 <- map(rdd2, function(x) { list (x, x) })
sortedRdd2 <- sortByKey(numPairsRdd2)
actual <- collect(sortedRdd2)
expect_equal(actual, numPairs)
# sort by string keys
l <- list(list("a", 1), list("b", 2), list("1", 3), list("d", 4), list("2", 5))
rdd3 <- parallelize(sc, l, 2L)
sortedRdd3 <- sortByKey(rdd3)
actual <- collect(sortedRdd3)
expect_equal(actual, list(list("1", 3), list("2", 5), list("a", 1), list("b", 2), list("d", 4)))
# test on the boundary cases
# boundary case 1: the RDD to be sorted has only 1 partition
rdd4 <- parallelize(sc, l, 1L)
sortedRdd4 <- sortByKey(rdd4)
actual <- collect(sortedRdd4)
expect_equal(actual, list(list("1", 3), list("2", 5), list("a", 1), list("b", 2), list("d", 4)))
# boundary case 2: the sorted RDD has only 1 partition
rdd5 <- parallelize(sc, l, 2L)
sortedRdd5 <- sortByKey(rdd5, numPartitions = 1L)
actual <- collect(sortedRdd5)
expect_equal(actual, list(list("1", 3), list("2", 5), list("a", 1), list("b", 2), list("d", 4)))
# boundary case 3: the RDD to be sorted has only 1 element
l2 <- list(list("a", 1))
rdd6 <- parallelize(sc, l2, 2L)
sortedRdd6 <- sortByKey(rdd6)
actual <- collect(sortedRdd6)
expect_equal(actual, l2)
# boundary case 4: the RDD to be sorted has 0 element
l3 <- list()
rdd7 <- parallelize(sc, l3, 2L)
sortedRdd7 <- sortByKey(rdd7)
actual <- collect(sortedRdd7)
expect_equal(actual, l3)
})
test_that("collectAsMap() on a pairwise RDD", {
rdd <- parallelize(sc, list(list(1, 2), list(3, 4)))
vals <- collectAsMap(rdd)
expect_equal(vals, list(`1` = 2, `3` = 4))
rdd <- parallelize(sc, list(list("a", 1), list("b", 2)))
vals <- collectAsMap(rdd)
expect_equal(vals, list(a = 1, b = 2))
rdd <- parallelize(sc, list(list(1.1, 2.2), list(1.2, 2.4)))
vals <- collectAsMap(rdd)
expect_equal(vals, list(`1.1` = 2.2, `1.2` = 2.4))
rdd <- parallelize(sc, list(list(1, "a"), list(2, "b")))
vals <- collectAsMap(rdd)
expect_equal(vals, list(`1` = "a", `2` = "b"))
})
test_that("show()", {
rdd <- parallelize(sc, list(1:10))
expect_output(show(rdd), "ParallelCollectionRDD\\[\\d+\\] at parallelize at RRDD\\.scala:\\d+")
})
test_that("sampleByKey() on pairwise RDDs", {
rdd <- parallelize(sc, 1:2000)
pairsRDD <- lapply(rdd, function(x) { if (x %% 2 == 0) list("a", x) else list("b", x) })
fractions <- list(a = 0.2, b = 0.1)
sample <- sampleByKey(pairsRDD, FALSE, fractions, 1618L)
expect_equal(100 < length(lookup(sample, "a")) && 300 > length(lookup(sample, "a")), TRUE)
expect_equal(50 < length(lookup(sample, "b")) && 150 > length(lookup(sample, "b")), TRUE)
expect_equal(lookup(sample, "a")[which.min(lookup(sample, "a"))] >= 0, TRUE)
expect_equal(lookup(sample, "a")[which.max(lookup(sample, "a"))] <= 2000, TRUE)
expect_equal(lookup(sample, "b")[which.min(lookup(sample, "b"))] >= 0, TRUE)
expect_equal(lookup(sample, "b")[which.max(lookup(sample, "b"))] <= 2000, TRUE)
rdd <- parallelize(sc, 1:2000)
pairsRDD <- lapply(rdd, function(x) { if (x %% 2 == 0) list(2, x) else list(3, x) })
fractions <- list(`2` = 0.2, `3` = 0.1)
sample <- sampleByKey(pairsRDD, TRUE, fractions, 1618L)
expect_equal(100 < length(lookup(sample, 2)) && 300 > length(lookup(sample, 2)), TRUE)
expect_equal(50 < length(lookup(sample, 3)) && 150 > length(lookup(sample, 3)), TRUE)
expect_equal(lookup(sample, 2)[which.min(lookup(sample, 2))] >= 0, TRUE)
expect_equal(lookup(sample, 2)[which.max(lookup(sample, 2))] <= 2000, TRUE)
expect_equal(lookup(sample, 3)[which.min(lookup(sample, 3))] >= 0, TRUE)
expect_equal(lookup(sample, 3)[which.max(lookup(sample, 3))] <= 2000, TRUE)
})
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
Embedding an R snippet on your website
Add the following code to your website.
For more information on customizing the embed code, read Embedding Snippets.