# 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. withr::local_options(list( arrow.summarise.sort = TRUE, rlib_warning_verbosity = "verbose", # This prevents the warning in `summarize()` about having grouped output without # also specifying what to do with `.groups` dplyr.summarise.inform = FALSE )) library(dplyr, warn.conflicts = FALSE) library(stringr) skip_if_not_available("acero") tbl <- example_data # Add some better string data tbl$verses <- verses[[1]] # c(" a ", " b ", " c ", ...) increasing padding # nchar = 3 5 7 9 11 13 15 17 19 21 tbl$padded_strings <- stringr::str_pad(letters[1:10], width = 2 * (1:10) + 1, side = "both") tbl$some_grouping <- rep(c(1, 2), 5) test_that("summarize() doesn't evaluate eagerly", { expect_s3_class( Table$create(tbl) %>% summarize(total = sum(int)), "arrow_dplyr_query" ) expect_r6_class( Table$create(tbl) %>% summarize(total = sum(int)) %>% compute(), "ArrowTabular" ) }) test_that("Can aggregate in Arrow", { compare_dplyr_binding( .input %>% summarize(total = sum(int, na.rm = TRUE)) %>% collect(), tbl ) compare_dplyr_binding( .input %>% summarize(total = sum(int)) %>% collect(), tbl ) }) test_that("Group by sum on dataset", { compare_dplyr_binding( .input %>% group_by(some_grouping) %>% summarize(total = sum(int, na.rm = TRUE)) %>% collect(), tbl ) compare_dplyr_binding( .input %>% group_by(some_grouping) %>% summarize(total = sum(int * 4, na.rm = TRUE)) %>% collect(), tbl ) compare_dplyr_binding( .input %>% group_by(some_grouping) %>% summarize(total = sum(int)) %>% collect(), tbl, ) }) test_that("Group by mean on dataset", { compare_dplyr_binding( .input %>% group_by(some_grouping) %>% summarize(mean = mean(int, na.rm = TRUE)) %>% collect(), tbl ) compare_dplyr_binding( .input %>% group_by(some_grouping) %>% summarize( mean = mean(int, na.rm = FALSE), mean2 = base::mean(int, na.rm = TRUE) ) %>% collect(), tbl ) }) test_that("Group by sd on dataset", { compare_dplyr_binding( .input %>% group_by(some_grouping) %>% summarize(sd = sd(int, na.rm = TRUE)) %>% collect(), tbl ) compare_dplyr_binding( .input %>% group_by(some_grouping) %>% summarize( sd = sd(int, na.rm = FALSE), sd2 = stats::sd(int, na.rm = TRUE) ) %>% collect(), tbl ) }) test_that("Group by var on dataset", { compare_dplyr_binding( .input %>% group_by(some_grouping) %>% summarize(var = var(int, na.rm = TRUE)) %>% collect(), tbl ) compare_dplyr_binding( .input %>% group_by(some_grouping) %>% summarize( var = var(int, na.rm = FALSE), var2 = stats::var(int, na.rm = TRUE) ) %>% collect(), tbl ) }) test_that("n()", { compare_dplyr_binding( .input %>% summarize(counts = n()) %>% collect(), tbl ) compare_dplyr_binding( .input %>% group_by(some_grouping) %>% summarize( counts = n(), counts2 = dplyr::n() ) %>% arrange(some_grouping) %>% collect(), tbl ) }) test_that("Group by any/all", { compare_dplyr_binding( .input %>% group_by(some_grouping) %>% summarize( any(lgl, na.rm = TRUE), base::any(lgl, na.rm = TRUE) ) %>% collect(), tbl ) compare_dplyr_binding( .input %>% group_by(some_grouping) %>% summarize( all(lgl, na.rm = TRUE), base::all(lgl, na.rm = TRUE) ) %>% collect(), tbl ) compare_dplyr_binding( .input %>% group_by(some_grouping) %>% summarize(any(lgl, na.rm = FALSE)) %>% collect(), tbl ) compare_dplyr_binding( .input %>% group_by(some_grouping) %>% summarize(all(lgl, na.rm = FALSE)) %>% collect(), tbl ) compare_dplyr_binding( .input %>% mutate(has_words = nchar(verses) < 0) %>% group_by(some_grouping) %>% summarize(any(has_words, na.rm = TRUE)) %>% collect(), tbl ) compare_dplyr_binding( .input %>% mutate(has_words = nchar(verses) < 0) %>% group_by(some_grouping) %>% summarize(all(has_words, na.rm = TRUE)) %>% collect(), tbl ) compare_dplyr_binding( .input %>% group_by(some_grouping) %>% summarize(has_words = all(nchar(verses) < 0, na.rm = TRUE)) %>% collect(), tbl ) }) test_that("n_distinct() with many batches", { skip_if_not_available("parquet") tf <- tempfile() write_parquet(dplyr::starwars, tf, chunk_size = 20) ds <- open_dataset(tf) expect_equal( ds %>% summarise(n_distinct(sex, na.rm = FALSE)) %>% collect(), ds %>% collect() %>% summarise(n_distinct(sex, na.rm = FALSE)) ) }) test_that("n_distinct() on dataset", { # With group_by compare_dplyr_binding( .input %>% group_by(some_grouping) %>% summarize(distinct = n_distinct(lgl, na.rm = FALSE)) %>% collect(), tbl ) compare_dplyr_binding( .input %>% group_by(some_grouping) %>% summarize(distinct = n_distinct(lgl, na.rm = TRUE)) %>% collect(), tbl ) # Without groupby compare_dplyr_binding( .input %>% summarize(distinct = n_distinct(lgl, na.rm = FALSE)) %>% collect(), tbl ) compare_dplyr_binding( .input %>% summarize( distinct = n_distinct(lgl, na.rm = TRUE), distinct2 = dplyr::n_distinct(lgl, na.rm = TRUE) ) %>% collect(), tbl ) compare_dplyr_binding( .input %>% summarize(distinct = n_distinct(int, lgl)) %>% collect(), tbl, warning = "Multiple arguments" ) compare_dplyr_binding( .input %>% group_by(some_grouping) %>% summarize(distinct = n_distinct(int, lgl)) %>% collect(), tbl, warning = "Multiple arguments" ) }) test_that("Functions that take ... but we only accept a single arg", { # With zero arguments, n_distinct() will error in dplyr 1.1.0 too, # so use a Dataset to avoid the "pulling data into R" step that would # trigger a dplyr error skip_if_not_available("dataset") expect_snapshot( InMemoryDataset$create(tbl) %>% summarize(distinct = n_distinct()), error = TRUE ) expect_snapshot_warning( as_record_batch(tbl) %>% summarize(distinct = n_distinct(int, lgl)) ) # Now that we've demonstrated that the whole machinery works, let's test # the agg_funcs directly expect_error(call_binding_agg("n_distinct"), "n_distinct() with 0 arguments", fixed = TRUE) expect_error(call_binding_agg("sum"), "sum() with 0 arguments", fixed = TRUE) expect_error(call_binding_agg("any"), "any() with 0 arguments", fixed = TRUE) expect_error(call_binding_agg("all"), "all() with 0 arguments", fixed = TRUE) expect_error(call_binding_agg("min"), "min() with 0 arguments", fixed = TRUE) expect_error(call_binding_agg("max"), "max() with 0 arguments", fixed = TRUE) expect_error(call_binding_agg("n_distinct", 1, 2), "Multiple arguments to n_distinct()") expect_error(call_binding_agg("sum", 1, 2), "Multiple arguments to sum") expect_error(call_binding_agg("any", 1, 2), "Multiple arguments to any()") expect_error(call_binding_agg("all", 1, 2), "Multiple arguments to all()") expect_error(call_binding_agg("min", 1, 2), "Multiple arguments to min()") expect_error(call_binding_agg("max", 1, 2), "Multiple arguments to max()") }) test_that("median()", { # When medians are integer-valued, stats::median() sometimes returns output of # type integer, whereas whereas the Arrow approx_median kernels always return # output of type float64. The calls to median(int, ...) in the tests below # are enclosed in as.double() to work around this known difference. # with groups suppressWarnings( compare_dplyr_binding( .input %>% group_by(some_grouping) %>% summarize( med_dbl = median(dbl), med_int = as.double(median(int)), med_dbl_narmf = median(dbl, FALSE), med_int_narmf = as.double(median(int, na.rm = FALSE)), med_dbl_narmt = median(dbl, na.rm = TRUE), med_int_narmt = as.double(median(int, TRUE)) ) %>% arrange(some_grouping) %>% collect(), tbl, warning = "median\\(\\) currently returns an approximate median in Arrow" ), classes = "arrow.median.approximate" ) # without groups, with na.rm = TRUE suppressWarnings( compare_dplyr_binding( .input %>% summarize( med_dbl_narmt = median(dbl, na.rm = TRUE), med_int_narmt = as.double(median(int, TRUE)) ) %>% collect(), tbl, warning = "median\\(\\) currently returns an approximate median in Arrow" ), classes = "arrow.median.approximate" ) # without groups, with na.rm = FALSE (the default) suppressWarnings( compare_dplyr_binding( .input %>% summarize( med_dbl = median(dbl), med_int = as.double(median(int)), med_dbl2 = stats::median(dbl), med_int2 = base::as.double(stats::median(int)), med_dbl_narmf = median(dbl, FALSE), med_int_narmf = as.double(median(int, na.rm = FALSE)) ) %>% collect(), tbl, warning = "median\\(\\) currently returns an approximate median in Arrow" ), classes = "arrow.median.approximate" ) }) test_that("quantile()", { skip_if_not_available("dataset") # The default method for stats::quantile() throws an error when na.rm = FALSE # and the input contains NA or NaN, whereas the Arrow tdigest kernels return # null in this situation. To work around this known difference, the tests # below always use na.rm = TRUE when the data contains NA or NaN. # The default method for stats::quantile() has an argument `names` that # controls whether the result has a names attribute. It defaults to # names = TRUE. With Arrow, it is not possible to give the result a names # attribute, so the quantile() binding in Arrow does not accept a `names` # argument. Differences in this names attribute cause compare_dplyr_binding() to # report that the objects are not equal, so we do not use compare_dplyr_binding() # in the tests below. # The tests below all use probs = 0.5 because other values cause differences # between the exact quantiles returned by R and the approximate quantiles # returned by Arrow. # When quantiles are integer-valued, stats::quantile() sometimes returns # output of type integer, whereas whereas the Arrow tdigest kernels always # return output of type float64. The calls to quantile(int, ...) in the tests # below are enclosed in as.double() to work around this known difference. # with groups suppressWarnings( expect_warning( expect_equal( tbl %>% group_by(some_grouping) %>% summarize( q_dbl = quantile(dbl, probs = 0.5, na.rm = TRUE, names = FALSE), q_int = as.double( quantile(int, probs = 0.5, na.rm = TRUE, names = FALSE) ) ) %>% arrange(some_grouping), Table$create(tbl) %>% group_by(some_grouping) %>% summarize( q_dbl = quantile(dbl, probs = 0.5, na.rm = TRUE), q_int = as.double(quantile(int, probs = 0.5, na.rm = TRUE)) ) %>% arrange(some_grouping) %>% collect() ), "quantile() currently returns an approximate quantile in Arrow", fixed = TRUE ), classes = "arrow.quantile.approximate" ) # without groups suppressWarnings( expect_warning( expect_equal( tbl %>% summarize( q_dbl = quantile(dbl, probs = 0.5, na.rm = TRUE, names = FALSE), q_int = as.double( quantile(int, probs = 0.5, na.rm = TRUE, names = FALSE) ) ), Table$create(tbl) %>% summarize( q_dbl = quantile(dbl, probs = 0.5, na.rm = TRUE), q_int = as.double(quantile(int, probs = 0.5, na.rm = TRUE)) ) %>% collect() ), "quantile() currently returns an approximate quantile in Arrow", fixed = TRUE ), classes = "arrow.quantile.approximate" ) # with missing values and na.rm = FALSE suppressWarnings( expect_warning( expect_equal( tibble( q_dbl = NA_real_, q_int = NA_real_ ), Table$create(tbl) %>% summarize( q_dbl = quantile(dbl, probs = 0.5, na.rm = FALSE), q_int = as.double(quantile(int, probs = 0.5, na.rm = FALSE)) ) %>% collect() ), "quantile() currently returns an approximate quantile in Arrow", fixed = TRUE ), classes = "arrow.quantile.approximate" ) # with a vector of 2+ probs expect_error( InMemoryDataset$create(data.frame(x = 1)) %>% summarize(q = quantile(x, probs = c(0.2, 0.8), na.rm = TRUE)), "quantile() with length(probs) != 1 not supported in Arrow", fixed = TRUE ) }) test_that("quantile() with namespacing", { suppressWarnings( expect_warning( expect_equal( tbl %>% group_by(some_grouping) %>% summarize( q_dbl = quantile(dbl, probs = 0.5, na.rm = TRUE, names = FALSE), q_int = as.double( quantile(int, probs = 0.5, na.rm = TRUE, names = FALSE) ) ) %>% arrange(some_grouping), Table$create(tbl) %>% group_by(some_grouping) %>% summarize( q_dbl = stats::quantile(dbl, probs = 0.5, na.rm = TRUE), q_int = as.double(quantile(int, probs = 0.5, na.rm = TRUE)) ) %>% arrange(some_grouping) %>% collect() ), "quantile() currently returns an approximate quantile in Arrow", fixed = TRUE ), classes = "arrow.quantile.approximate" ) }) test_that("summarize() with min() and max()", { compare_dplyr_binding( .input %>% select(int, chr) %>% filter(int > 5) %>% # this filters out the NAs in `int` summarize(min_int = min(int), max_int = max(int)) %>% collect(), tbl, ) compare_dplyr_binding( .input %>% select(int, chr) %>% filter(int > 5) %>% # this filters out the NAs in `int` summarize( min_int = min(int + 4) / 2, max_int = 3 / max(42 - int) ) %>% collect(), tbl, ) compare_dplyr_binding( .input %>% select(int, chr) %>% summarize(min_int = min(int), max_int = max(int)) %>% collect(), tbl, ) compare_dplyr_binding( .input %>% select(int) %>% summarize( min_int = min(int, na.rm = TRUE), max_int = max(int, na.rm = TRUE), min_int2 = base::min(int, na.rm = TRUE), max_int2 = base::max(int, na.rm = TRUE) ) %>% collect(), tbl, ) compare_dplyr_binding( .input %>% select(dbl, int) %>% summarize( min_int = -min(log(ceiling(dbl)), na.rm = TRUE), max_int = log(max(as.double(int), na.rm = TRUE)) ) %>% collect(), tbl, ) # multiple dots arguments to min(), max() not supported compare_dplyr_binding( .input %>% summarize(min_mult = min(dbl, int)) %>% collect(), tbl, warning = "Multiple arguments to min\\(\\) not supported in Arrow" ) compare_dplyr_binding( .input %>% select(int, dbl, dbl2) %>% summarize(max_mult = max(int, dbl, dbl2)) %>% collect(), tbl, warning = "Multiple arguments to max\\(\\) not supported in Arrow" ) # min(logical) or max(logical) yields integer in R # min(Boolean) or max(Boolean) yields Boolean in Arrow compare_dplyr_binding( .input %>% select(lgl) %>% summarize( max_lgl = as.logical(max(lgl, na.rm = TRUE)), min_lgl = as.logical(min(lgl, na.rm = TRUE)) ) %>% collect(), tbl, ) }) test_that("min() and max() on character strings", { compare_dplyr_binding( .input %>% summarize( min_chr = min(chr, na.rm = TRUE), max_chr = max(chr, na.rm = TRUE) ) %>% collect(), tbl, ) withr::with_options(list(arrow.summarise.sort = FALSE), { # TODO(#29887 / ARROW-14313) sorting on dictionary columns not supported # so turn off arrow.summarise.sort so that we don't order_by fct after summarize compare_dplyr_binding( .input %>% group_by(fct) %>% summarize( min_chr = min(chr, na.rm = TRUE), max_chr = max(chr, na.rm = TRUE) ) %>% arrange(min_chr) %>% collect(), tbl, ) }) }) test_that("summarise() with !!sym()", { test_chr_col <- "int" test_dbl_col <- "dbl" test_lgl_col <- "lgl" compare_dplyr_binding( .input %>% group_by(false) %>% summarise( sum = sum(!!sym(test_dbl_col)), any = any(!!sym(test_lgl_col)), all = all(!!sym(test_lgl_col)), mean = mean(!!sym(test_dbl_col)), sd = sd(!!sym(test_dbl_col)), var = var(!!sym(test_dbl_col)), n_distinct = n_distinct(!!sym(test_chr_col)), min = min(!!sym(test_dbl_col)), max = max(!!sym(test_dbl_col)) ) %>% collect(), tbl ) }) test_that("Filter and aggregate", { compare_dplyr_binding( .input %>% filter(some_grouping == 2) %>% summarize(total = sum(int, na.rm = TRUE)) %>% collect(), tbl ) compare_dplyr_binding( .input %>% filter(int > 5) %>% summarize(total = sum(int, na.rm = TRUE)) %>% collect(), tbl ) compare_dplyr_binding( .input %>% filter(some_grouping == 2) %>% group_by(some_grouping) %>% summarize(total = sum(int, na.rm = TRUE)) %>% collect(), tbl ) compare_dplyr_binding( .input %>% filter(int > 5) %>% group_by(some_grouping) %>% summarize(total = sum(int, na.rm = TRUE)) %>% collect(), tbl ) }) test_that("Group by edge cases", { compare_dplyr_binding( .input %>% group_by(some_grouping * 2) %>% summarize(total = sum(int, na.rm = TRUE)) %>% collect(), tbl ) compare_dplyr_binding( .input %>% group_by(alt = some_grouping * 2) %>% summarize(total = sum(int, na.rm = TRUE)) %>% collect(), tbl ) }) test_that("Do things after summarize", { group2_sum <- tbl %>% group_by(some_grouping) %>% filter(int > 5) %>% summarize(total = sum(int, na.rm = TRUE)) %>% pull() %>% tail(1) compare_dplyr_binding( .input %>% group_by(some_grouping) %>% filter(int > 5) %>% summarize(total = sum(int, na.rm = TRUE)) %>% filter(total == group2_sum) %>% mutate(extra = total * 5) %>% collect(), tbl ) compare_dplyr_binding( .input %>% filter(dbl > 2) %>% select(chr, int, lgl) %>% mutate(twice = int * 2L) %>% group_by(lgl) %>% summarize( count = n(), total = sum(twice, na.rm = TRUE) ) %>% mutate(mean = total / count) %>% collect(), tbl ) }) test_that("Non-field variable references in aggregations", { tab <- arrow_table(x = 1:5) scale_factor <- 10 expect_identical( tab %>% summarize(value = sum(x) / scale_factor) %>% collect(), tab %>% summarize(value = sum(x) / 10) %>% collect() ) }) test_that("Expressions on aggregations", { # This is what it effectively is compare_dplyr_binding( .input %>% group_by(some_grouping) %>% summarize( any = any(lgl), all = all(lgl) ) %>% ungroup() %>% # TODO: loosen the restriction on mutate after group_by mutate(some = any & !all) %>% select(some_grouping, some) %>% collect(), tbl ) # More concisely: compare_dplyr_binding( .input %>% group_by(some_grouping) %>% summarize(any(lgl) & !all(lgl)) %>% collect(), tbl ) # Save one of the aggregates first compare_dplyr_binding( .input %>% group_by(some_grouping) %>% summarize( any_lgl = any(lgl), some = any_lgl & !all(lgl) ) %>% collect(), tbl ) # Make sure order of columns in result is correct compare_dplyr_binding( .input %>% group_by(some_grouping) %>% summarize( any_lgl = any(lgl), some = any_lgl & !all(lgl), n() ) %>% collect(), tbl ) # Aggregates on aggregates are not supported expect_warning( record_batch(tbl) %>% summarise(any(any(lgl))), paste( "Aggregate within aggregate expression", "any\\(any\\(lgl\\)\\) not supported in Arrow" ) ) # Check aggregates on aggeregates with more complex calls expect_warning( record_batch(tbl) %>% summarise(any(any(!lgl))), paste( "Aggregate within aggregate expression", "any\\(any\\(!lgl\\)\\) not supported in Arrow" ) ) expect_warning( record_batch(tbl) %>% summarise(!any(any(lgl))), paste( "Aggregate within aggregate expression", "any\\(any\\(lgl\\)\\) not supported in Arrow" ) ) }) test_that("Summarize with 0 arguments", { compare_dplyr_binding( .input %>% group_by(some_grouping) %>% summarize() %>% collect(), tbl ) }) test_that("Not (yet) supported: implicit join", { withr::local_options(list(arrow.debug = TRUE)) compare_dplyr_binding( .input %>% group_by(some_grouping) %>% summarize( sum((dbl - mean(dbl))^2) ) %>% collect(), tbl, warning = paste( "Aggregate within aggregate expression sum\\(\\(dbl - mean\\(dbl\\)\\)\\^2\\)", "not supported in Arrow; pulling data into R" ) ) compare_dplyr_binding( .input %>% group_by(some_grouping) %>% summarize( sum(dbl - mean(dbl)) ) %>% collect(), tbl, warning = paste( "Aggregate within aggregate expression sum\\(dbl - mean\\(dbl\\)\\)", "not supported in Arrow; pulling data into R" ) ) compare_dplyr_binding( .input %>% group_by(some_grouping) %>% summarize( sqrt(sum((dbl - mean(dbl))^2) / (n() - 1L)) ) %>% collect(), tbl, warning = paste( "Aggregate within aggregate expression sum\\(\\(dbl - mean\\(dbl\\)\\)\\^2\\)", "not supported in Arrow; pulling data into R" ) ) compare_dplyr_binding( .input %>% group_by(x) %>% summarize(y - mean(y)) %>% collect(), data.frame(x = 1, y = 2), warning = paste( "Expression y - mean\\(y\\) is not an aggregate expression", "or is not supported in Arrow; pulling data into R" ) ) compare_dplyr_binding( .input %>% group_by(x) %>% summarize(y) %>% collect(), data.frame(x = 1, y = 2), warning = paste( "Expression y is not an aggregate expression", "or is not supported in Arrow; pulling data into R" ) ) # This one could possibly be supported--in mutate() compare_dplyr_binding( .input %>% group_by(x) %>% summarize(x - y) %>% collect(), data.frame(x = 1, y = 2, z = 3), warning = paste( "Expression x - y is not an aggregate expression", "or is not supported in Arrow; pulling data into R" ) ) }) test_that(".groups argument", { compare_dplyr_binding( .input %>% group_by(some_grouping, int < 6) %>% summarize(count = n()) %>% collect(), tbl ) compare_dplyr_binding( .input %>% group_by(some_grouping, int < 6) %>% summarize(count = n(), .groups = "drop_last") %>% collect(), tbl ) compare_dplyr_binding( .input %>% group_by(some_grouping, int < 6) %>% summarize(count = n(), .groups = "keep") %>% collect(), tbl ) compare_dplyr_binding( .input %>% group_by(some_grouping, int < 6) %>% summarize(count = n(), .groups = "drop") %>% collect(), tbl ) compare_dplyr_binding( .input %>% group_by(some_grouping, int < 6) %>% summarize(count = n(), .groups = "rowwise") %>% collect(), tbl, warning = TRUE ) # abandon_ship() raises the warning, then dplyr itself errors # This isn't ideal but it's fine and won't be an issue on Datasets expect_error( expect_warning( Table$create(tbl) %>% group_by(some_grouping, int < 6) %>% summarize(count = n(), .groups = "NOTVALID"), "Invalid .groups argument" ), "NOTVALID" ) }) test_that("summarize() handles group_by .drop", { # Error: Type error: Sorting not supported for type dictionary withr::local_options(list(arrow.summarise.sort = FALSE)) tbl <- tibble( x = 1:10, y = factor(rep(c("a", "c"), each = 5), levels = c("a", "b", "c")) ) compare_dplyr_binding( .input %>% group_by(y) %>% count() %>% collect() %>% arrange(y), tbl ) # Not supported: check message compare_dplyr_binding( .input %>% group_by(y, .drop = FALSE) %>% count() %>% collect() %>% # Because it's not supported, we have to filter out the (empty) row # that dplyr keeps, just so we test equal (otherwise) filter(y != "b") %>% arrange(y), tbl, warning = ".drop = FALSE currently not supported in Arrow aggregation" ) # But this is ok because there is no factor group compare_dplyr_binding( .input %>% group_by(y, .drop = FALSE) %>% count() %>% collect() %>% arrange(y), tibble( x = 1:10, y = rep(c("a", "c"), each = 5) ) ) }) test_that("summarise() passes through type information for temporary columns", { # applies to ifelse and case_when(), in which argument types are checked # within a translated function (previously this failed because the appropriate # schema was not available for n() > 1, mean(y), and mean(z)) compare_dplyr_binding( .input %>% group_by(x) %>% summarise(r = if_else(n() > 1, mean(y), mean(z))) %>% collect(), tibble( x = c(0, 1, 1), y = c(2, 3, 5), z = c(8, 13, 21) ) ) }) test_that("summarise() can handle scalars and literal values", { some_scalar_value <- 2L compare_dplyr_binding( .input %>% summarise(y = 1L) %>% collect(), tbl ) compare_dplyr_binding( .input %>% summarise(y = some_scalar_value) %>% collect(), tbl ) compare_dplyr_binding( .input %>% summarise(y = !!some_scalar_value) %>% collect(), tbl ) expect_identical( record_batch(tbl) %>% summarise(y = 1L) %>% collect(), tibble(y = 1L) ) expect_identical( record_batch(tbl) %>% summarise(y = Expression$scalar(1L)) %>% collect(), tibble(y = 1L) ) expect_identical( record_batch(tbl) %>% summarise(y = Scalar$create(1L)) %>% collect(), tibble(y = 1L) ) expect_identical( record_batch(tbl) %>% summarise(y = some_scalar_value) %>% collect(), tibble(y = 2L) ) expect_identical( record_batch(tbl) %>% summarise(y = !!some_scalar_value) %>% collect(), tibble(y = 2L) ) }) test_that("summarise() supports namespacing", { compare_dplyr_binding( .input %>% summarize(total = base::sum(int, na.rm = TRUE)) %>% collect(), tbl ) compare_dplyr_binding( .input %>% summarise( log_total = sum(base::log(int) + 1, na.rm = TRUE) ) %>% collect(), tbl ) compare_dplyr_binding( .input %>% summarise( log_total = base::round(base::sum(base::log(int) + dbl, na.rm = TRUE)) ) %>% collect(), tbl ) }) test_that("We don't add unnecessary ProjectNodes when aggregating", { tab <- Table$create(tbl) # Wrapper to simplify the tests expect_project_nodes <- function(query, n) { plan <- capture.output(query %>% show_query()) expect_length(grep("ProjectNode", plan), n) } # 1 Projection: select int as `mean(int)` before aggregation expect_project_nodes( tab %>% summarize(mean(int)), 1 ) # 0 Projections if # (a) input only contains the col you're aggregating, and # (b) the output col name is the same as the input name, and # (c) no grouping expect_project_nodes( tab[, "int"] %>% summarize(int = mean(int, na.rm = TRUE)), 0 ) # 0 Projections if # (a) only nullary functions in summarize() # (b) no grouping expect_project_nodes( tab[, "int"] %>% summarize(n()), 0 ) # Still just 1 projection expect_project_nodes( tab %>% group_by(lgl) %>% summarize(mean(int)), 1 ) expect_project_nodes( tab %>% count(lgl), 1 ) }) test_that("Can use across() within summarise()", { compare_dplyr_binding( .input %>% group_by(lgl) %>% summarise(across(starts_with("dbl"), sum, .names = "sum_{.col}")) %>% arrange(lgl) %>% collect(), example_data ) # across() doesn't work in summarise when input expressions evaluate to bare field references expect_warning( data.frame(x = 1, y = 2) %>% arrow_table() %>% group_by(x) %>% summarise(across(everything())) %>% collect(), regexp = "Expression y is not an aggregate expression or is not supported in Arrow; pulling data into R" ) }) test_that("across() does not select grouping variables within summarise()", { compare_dplyr_binding( .input %>% select(int, dbl, chr) %>% group_by(chr) %>% summarise(across(everything(), sum)) %>% arrange(chr) %>% collect(), example_data ) expect_error( example_data %>% select(int, dbl) %>% arrow_table() %>% group_by(int) %>% summarise(across(int, sum)), "Column `int` doesn't exist" ) }) test_that(".by argument", { compare_dplyr_binding( .input %>% summarize(total = sum(int, na.rm = TRUE), .by = some_grouping) %>% collect(), tbl ) compare_dplyr_binding( .input %>% summarize(total = sum(int, na.rm = TRUE), .by = starts_with("dbl")) %>% arrange(dbl) %>% collect(), tbl ) expect_error( tbl %>% arrow_table() %>% group_by(some_grouping) %>% summarize(total = sum(int, na.rm = TRUE), .by = starts_with("dbl")), "Can't supply `\\.by` when `\\.data` is grouped data" ) })