""" Tests the TextReader class in parsers.pyx, which is integral to the C engine in parsers.py """ from io import BytesIO, StringIO import os import numpy as np import pytest import pandas._libs.parsers as parser from pandas._libs.parsers import TextReader from pandas import DataFrame import pandas._testing as tm from pandas.io.parsers import TextFileReader, read_csv class TestTextReader: @pytest.fixture(autouse=True) def setup_method(self, datapath): self.dirpath = datapath("io", "parser", "data") csv1_dirpath = datapath("io", "data", "csv") self.csv1 = os.path.join(csv1_dirpath, "test1.csv") self.csv2 = os.path.join(self.dirpath, "test2.csv") self.xls1 = os.path.join(self.dirpath, "test.xls") def test_file_handle(self): with open(self.csv1, "rb") as f: reader = TextReader(f) reader.read() def test_file_handle_mmap(self): # this was never using memory_map=True with open(self.csv1, "rb") as f: reader = TextReader(f, header=None) reader.read() def test_StringIO(self): with open(self.csv1, "rb") as f: text = f.read() src = BytesIO(text) reader = TextReader(src, header=None) reader.read() def test_string_factorize(self): # should this be optional? data = "a\nb\na\nb\na" reader = TextReader(StringIO(data), header=None) result = reader.read() assert len(set(map(id, result[0]))) == 2 def test_skipinitialspace(self): data = "a, b\na, b\na, b\na, b" reader = TextReader(StringIO(data), skipinitialspace=True, header=None) result = reader.read() tm.assert_numpy_array_equal( result[0], np.array(["a", "a", "a", "a"], dtype=np.object_) ) tm.assert_numpy_array_equal( result[1], np.array(["b", "b", "b", "b"], dtype=np.object_) ) def test_parse_booleans(self): data = "True\nFalse\nTrue\nTrue" reader = TextReader(StringIO(data), header=None) result = reader.read() assert result[0].dtype == np.bool_ def test_delimit_whitespace(self): data = 'a b\na\t\t "b"\n"a"\t \t b' reader = TextReader(StringIO(data), delim_whitespace=True, header=None) result = reader.read() tm.assert_numpy_array_equal( result[0], np.array(["a", "a", "a"], dtype=np.object_) ) tm.assert_numpy_array_equal( result[1], np.array(["b", "b", "b"], dtype=np.object_) ) def test_embedded_newline(self): data = 'a\n"hello\nthere"\nthis' reader = TextReader(StringIO(data), header=None) result = reader.read() expected = np.array(["a", "hello\nthere", "this"], dtype=np.object_) tm.assert_numpy_array_equal(result[0], expected) def test_euro_decimal(self): data = "12345,67\n345,678" reader = TextReader(StringIO(data), delimiter=":", decimal=",", header=None) result = reader.read() expected = np.array([12345.67, 345.678]) tm.assert_almost_equal(result[0], expected) def test_integer_thousands(self): data = "123,456\n12,500" reader = TextReader(StringIO(data), delimiter=":", thousands=",", header=None) result = reader.read() expected = np.array([123456, 12500], dtype=np.int64) tm.assert_almost_equal(result[0], expected) def test_integer_thousands_alt(self): data = "123.456\n12.500" reader = TextFileReader( StringIO(data), delimiter=":", thousands=".", header=None ) result = reader.read() expected = DataFrame([123456, 12500]) tm.assert_frame_equal(result, expected) def test_skip_bad_lines(self, capsys): # too many lines, see #2430 for why data = "a:b:c\nd:e:f\ng:h:i\nj:k:l:m\nl:m:n\no:p:q:r" reader = TextReader(StringIO(data), delimiter=":", header=None) msg = r"Error tokenizing data\. C error: Expected 3 fields in line 4, saw 4" with pytest.raises(parser.ParserError, match=msg): reader.read() reader = TextReader( StringIO(data), delimiter=":", header=None, error_bad_lines=False, warn_bad_lines=False, ) result = reader.read() expected = { 0: np.array(["a", "d", "g", "l"], dtype=object), 1: np.array(["b", "e", "h", "m"], dtype=object), 2: np.array(["c", "f", "i", "n"], dtype=object), } assert_array_dicts_equal(result, expected) reader = TextReader( StringIO(data), delimiter=":", header=None, error_bad_lines=False, warn_bad_lines=True, ) reader.read() captured = capsys.readouterr() assert "Skipping line 4" in captured.err assert "Skipping line 6" in captured.err def test_header_not_enough_lines(self): data = "skip this\nskip this\na,b,c\n1,2,3\n4,5,6" reader = TextReader(StringIO(data), delimiter=",", header=2) header = reader.header expected = [["a", "b", "c"]] assert header == expected recs = reader.read() expected = { 0: np.array([1, 4], dtype=np.int64), 1: np.array([2, 5], dtype=np.int64), 2: np.array([3, 6], dtype=np.int64), } assert_array_dicts_equal(recs, expected) def test_escapechar(self): data = '\\"hello world"\n\\"hello world"\n\\"hello world"' reader = TextReader(StringIO(data), delimiter=",", header=None, escapechar="\\") result = reader.read() expected = {0: np.array(['"hello world"'] * 3, dtype=object)} assert_array_dicts_equal(result, expected) def test_eof_has_eol(self): # handling of new line at EOF pass def test_na_substitution(self): pass def test_numpy_string_dtype(self): data = """\ a,1 aa,2 aaa,3 aaaa,4 aaaaa,5""" def _make_reader(**kwds): return TextReader(StringIO(data), delimiter=",", header=None, **kwds) reader = _make_reader(dtype="S5,i4") result = reader.read() assert result[0].dtype == "S5" ex_values = np.array(["a", "aa", "aaa", "aaaa", "aaaaa"], dtype="S5") assert (result[0] == ex_values).all() assert result[1].dtype == "i4" reader = _make_reader(dtype="S4") result = reader.read() assert result[0].dtype == "S4" ex_values = np.array(["a", "aa", "aaa", "aaaa", "aaaa"], dtype="S4") assert (result[0] == ex_values).all() assert result[1].dtype == "S4" def test_pass_dtype(self): data = """\ one,two 1,a 2,b 3,c 4,d""" def _make_reader(**kwds): return TextReader(StringIO(data), delimiter=",", **kwds) reader = _make_reader(dtype={"one": "u1", 1: "S1"}) result = reader.read() assert result[0].dtype == "u1" assert result[1].dtype == "S1" reader = _make_reader(dtype={"one": np.uint8, 1: object}) result = reader.read() assert result[0].dtype == "u1" assert result[1].dtype == "O" reader = _make_reader(dtype={"one": np.dtype("u1"), 1: np.dtype("O")}) result = reader.read() assert result[0].dtype == "u1" assert result[1].dtype == "O" def test_usecols(self): data = """\ a,b,c 1,2,3 4,5,6 7,8,9 10,11,12""" def _make_reader(**kwds): return TextReader(StringIO(data), delimiter=",", **kwds) reader = _make_reader(usecols=(1, 2)) result = reader.read() exp = _make_reader().read() assert len(result) == 2 assert (result[1] == exp[1]).all() assert (result[2] == exp[2]).all() def test_cr_delimited(self): def _test(text, **kwargs): nice_text = text.replace("\r", "\r\n") result = TextReader(StringIO(text), **kwargs).read() expected = TextReader(StringIO(nice_text), **kwargs).read() assert_array_dicts_equal(result, expected) data = "a,b,c\r1,2,3\r4,5,6\r7,8,9\r10,11,12" _test(data, delimiter=",") data = "a b c\r1 2 3\r4 5 6\r7 8 9\r10 11 12" _test(data, delim_whitespace=True) data = "a,b,c\r1,2,3\r4,5,6\r,88,9\r10,11,12" _test(data, delimiter=",") sample = ( "A,B,C,D,E,F,G,H,I,J,K,L,M,N,O\r" "AAAAA,BBBBB,0,0,0,0,0,0,0,0,0,0,0,0,0\r" ",BBBBB,0,0,0,0,0,0,0,0,0,0,0,0,0" ) _test(sample, delimiter=",") data = "A B C\r 2 3\r4 5 6" _test(data, delim_whitespace=True) data = "A B C\r2 3\r4 5 6" _test(data, delim_whitespace=True) def test_empty_field_eof(self): data = "a,b,c\n1,2,3\n4,," result = TextReader(StringIO(data), delimiter=",").read() expected = { 0: np.array([1, 4], dtype=np.int64), 1: np.array(["2", ""], dtype=object), 2: np.array(["3", ""], dtype=object), } assert_array_dicts_equal(result, expected) # GH5664 a = DataFrame([["b"], [np.nan]], columns=["a"], index=["a", "c"]) b = DataFrame([[1, 1, 1, 0], [1, 1, 1, 0]], columns=list("abcd"), index=[1, 1]) c = DataFrame( [ [1, 2, 3, 4], [6, np.nan, np.nan, np.nan], [8, 9, 10, 11], [13, 14, np.nan, np.nan], ], columns=list("abcd"), index=[0, 5, 7, 12], ) for _ in range(100): df = read_csv(StringIO("a,b\nc\n"), skiprows=0, names=["a"], engine="c") tm.assert_frame_equal(df, a) df = read_csv( StringIO("1,1,1,1,0\n" * 2 + "\n" * 2), names=list("abcd"), engine="c" ) tm.assert_frame_equal(df, b) df = read_csv( StringIO("0,1,2,3,4\n5,6\n7,8,9,10,11\n12,13,14"), names=list("abcd"), engine="c", ) tm.assert_frame_equal(df, c) def test_empty_csv_input(self): # GH14867 with read_csv( StringIO(), chunksize=20, header=None, names=["a", "b", "c"] ) as df: assert isinstance(df, TextFileReader) def assert_array_dicts_equal(left, right): for k, v in left.items(): tm.assert_numpy_array_equal(np.asarray(v), np.asarray(right[k]))