context("numpy") test_that("R matrixes are converted to numpy ndarray", { skip_if_no_numpy() np <- import("numpy") m1 <- matrix(c(1,2,3,4), nrow = 2, ncol = 2) m2 <- m1 expect_equal(np$equal(m1,m2), m1 == m2) }) test_that("Numpy ndarray is converted to R matrix", { skip_if_no_numpy() np <- import("numpy") m1 <- np$matrix(list(c(1,2), c(3,4))) expect_equal(m1, matrix(c(1,2,3,4), nrow = 2, ncol = 2, byrow = TRUE)) }) test_that("Multi-dimensional arrays are handled correctly", { skip_if_no_numpy() np <- import("numpy") a1 <- array(c(1:8), dim = c(2,2,2)) expect_equal(-a1, np$negative(a1)) }) test_that("Character arrays are handled correctly", { skip_if_no_numpy() np <- import("numpy") a1 <- array(as.character(c(1:8)), dim = c(2,2,2)) expect_equal(a1, py_to_r(r_to_py(a1))) }) test_that("Long integer types are converted to R numeric", { skip_if_no_numpy() np <- import("numpy", convert = FALSE) dtypes <- c(np$int64, np$int32, np$uint64, np$uint32) lapply(dtypes, function(dtype) { a1 <- np$array(c(1L:30L), dtype = dtype) a1 <- as.vector(py_to_r(a1)) expect_true(is.numeric(a1)) expect_equal(a1, 1:30) }) }) test_that("Numpy scalars are converted to R vectors", { skip_if_no_numpy() np <- import("numpy") scalar <- c(1.1) expect_equal(as.numeric(np$array(scalar)), scalar) }) test_that("np_array creates arrays of the expected type", { skip_if_no_numpy() np <- import("numpy") a <- np_array(c(1L:10L), dtype = "float32") expect_equal(py_to_r(a$dtype$name), "float32") }) test_that("np_array creates arrays of the expected order", { skip_if_no_numpy() np <- import("numpy") a <- np_array(c(1L:8L), dtype = "float32", order = "F") expect_true(py_to_r(a$flags$f_contiguous)) }) test_that("numpy length functions works", { skip_if_no_numpy() test_array <- function(a) { expect_equal(length(a), 8) } # test no-convert numpy array a <- np_array(c(1L:8L), dtype = "float32") test_array(a) # test convertable numpy array np <- import("numpy") test_array(r_to_py(matrix(c(1:8), nrow = 2, ncol = 4))) }) test_that("boolean matrices are converted appropriately", { skip_if_no_numpy() A <- matrix(TRUE, nrow = 2, ncol = 2) expect_equal(A, py_to_r(r_to_py(A))) }) test_that("numpy string arrays are correctly handled", { # https://github.com/rstudio/reticulate/issues/1409 skip_if_no_numpy() np <- import("numpy", convert = FALSE) c1 <- np$array(c("1", "2", "3")) c2 <- np$array(c("4", "5", "6")) x <- py_to_r(np$stack(list(c1, c2), axis = 1L)) expect_equal(x, matrix(as.character(1:6), ncol = 2)) # test for more dimensions x <- np$random$rand(3L, 5L, 4L) y <- x$astype("str") a <- py_to_r(x) b <- py_to_r(y) storage.mode(b) <- "numeric" expect_equal(a, b) # test F ordering x <- np$random$rand(3L, 5L, 4L) y <- x$astype("str") y <- np$asfortranarray(y) expect_true(py_to_r(y$flags$f_contiguous)) a <- py_to_r(x) b <- py_to_r(y) storage.mode(b) <- "numeric" expect_equal(a, b) # test for strided views x <- np$random$rand(3L, 5L, 4L) y <- x$astype("str") x <- np$reshape(x, c(5L, 3L, 4L)) y <- np$reshape(y, c(5L, 3L, 4L)) a <- py_to_r(x) b <- py_to_r(y) storage.mode(b) <- "numeric" expect_equal(a, b) x <- np$array(as.character(1:18))$reshape(c(-1L, 2L)) fn <- py_eval("lambda x: x[::2]") # another strided view expect_equal(fn(x), matrix(c("1", "2", "5", "6", "9", "10", "13", "14", "17", "18"), byrow = TRUE, ncol = 2)) x <- np$asfortranarray(x) expect_equal(fn(x), matrix(c("1", "2", "5", "6", "9", "10", "13", "14", "17", "18"), byrow = TRUE, ncol = 2)) }) test_that("numpy non-simple arrays work", { # https://github.com/rstudio/reticulate/issues/1613 py_run_string("import numpy as np", convert = FALSE) py_run_string( "array = np.array([(1.0, 2), (3.0, 4)], dtype=[('x', float), ('y', int)])", convert = FALSE ) result <- py_run_string("rec_array = array.view(np.recarray)", convert = FALSE) # Test that attempting to convert a non-simple array fails gracefully, # returns a PyObjectRef. rec_array <- py_to_r(result$rec_array) # numpy 1.0 vs 2.0 expect_s3_class(rec_array, c("numpy.recarray", "numpy.rec.recarray")) expect_s3_class(rec_array, "numpy.ndarray") expect_s3_class(rec_array, "python.builtin.object") skip_if_no_pandas() # Test that a registered S3 method for the non-simple numpy array will be # called. (Note, some packages, like {zellkonverter}, will register this # directly for numpy.ndarray) py_to_r.numpy.recarray <- function(x) { tryCatch({ pandas <- import("pandas", convert = FALSE) x <- pandas$DataFrame(x)$to_numpy() x <- py_to_r(x) return(x) }, error = identity) NextMethod() } registerS3method("py_to_r", "numpy.recarray", py_to_r.numpy.recarray) registerS3method("py_to_r", "numpy.rec.recarray", py_to_r.numpy.recarray) on.exit({ rm(list = c("py_to_r.numpy.recarray", "py_to_r.numpy.rec.recarray"), envir = environment(py_to_r)$.__S3MethodsTable__.) }) arr <- py_to_r(result$rec_array) expect_identical(arr, rbind(c(1, 2), c(3, 4))) })