# 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. expect_scalar_roundtrip <- function(x, type) { s <- scalar(x) expect_r6_class(s, "Scalar") expect_equal(s$type, type) expect_identical(length(s), 1L) if (inherits(type, "NestedType")) { # Should this be? Missing if all elements are missing? # expect_identical(is.na(s), all(is.na(x))) # nolint } else { expect_identical(as.vector(is.na(s)), is.na(x)) # MakeArrayFromScalar not implemented for list types expect_as_vector(s, x) } } test_that("Scalar object roundtrip", { expect_scalar_roundtrip(2, float64()) expect_scalar_roundtrip(2L, int32()) expect_scalar_roundtrip(c(2, 4), list_of(float64())) expect_scalar_roundtrip(c(NA, NA), list_of(bool())) expect_scalar_roundtrip(data.frame(a = 2, b = 4L), struct(a = double(), b = int32())) }) test_that("Scalar print", { expect_output(print(scalar(4)), "Scalar\n4") }) test_that("ExtensionType scalar behaviour", { ext_array <- vctrs_extension_array(4) ext_scalar <- scalar(ext_array) expect_equal(ext_scalar$as_array(), ext_array) expect_identical(ext_scalar$as_vector(), 4) expect_identical(ext_scalar$as_vector(10), rep(4, 10)) expect_output(print(ext_scalar), "Scalar\n4") }) test_that("Creating Scalars of a different type and casting them", { expect_equal(scalar(4L, int8())$type, int8()) expect_equal(scalar(4L)$cast(float32())$type, float32()) }) test_that("Scalar to Array", { a <- scalar(42) expect_equal(a$as_array(), Array$create(42)) expect_equal(Array$create(a), Array$create(42)) }) test_that("Scalar$Equals", { a <- scalar(42) aa <- Array$create(42) b <- scalar(42) d <- scalar(43) expect_equal(a, b) expect_true(a$Equals(b)) expect_false(a$Equals(d)) expect_false(a$Equals(aa)) }) test_that("Scalar$ApproxEquals", { a <- scalar(1.0000000000001) aa <- Array$create(1.0000000000001) b <- scalar(1.0) d <- 2.400000000000001 expect_false(a$Equals(b)) expect_true(a$ApproxEquals(b)) expect_false(a$ApproxEquals(d)) expect_false(a$ApproxEquals(aa)) }) test_that("Handling string data with embedded nuls", { raws <- as.raw(c(0x6d, 0x61, 0x00, 0x6e)) expect_error( rawToChar(raws), "embedded nul in string: 'ma\\0n'", # See? fixed = TRUE ) scalar_with_nul <- scalar(raws, binary())$cast(utf8()) v <- expect_error(as.vector(scalar_with_nul), NA) expect_error( v[1], paste0( "embedded nul in string: 'ma\\0n'; to strip nuls when converting from Arrow to R, ", "set options(arrow.skip_nul = TRUE)" ), fixed = TRUE ) withr::with_options(list(arrow.skip_nul = TRUE), { expect_warning( expect_identical( as.vector(scalar_with_nul)[], "man" ), "Stripping '\\0' (nul) from character vector", fixed = TRUE ) }) })