from datetime import (
datetime,
timedelta,
)
from io import StringIO
import re
import sys
from textwrap import dedent
import numpy as np
import pytest
from pandas._config import using_string_dtype
from pandas import (
CategoricalIndex,
DataFrame,
Index,
NaT,
Series,
Timestamp,
concat,
date_range,
get_option,
option_context,
read_csv,
timedelta_range,
to_datetime,
)
import pandas._testing as tm
def _three_digit_exp():
return f"{1.7e8:.4g}" == "1.7e+008"
class TestDataFrameToStringFormatters:
def test_to_string_masked_ea_with_formatter(self):
# GH#39336
df = DataFrame(
{
"a": Series([0.123456789, 1.123456789], dtype="Float64"),
"b": Series([1, 2], dtype="Int64"),
}
)
result = df.to_string(formatters=["{:.2f}".format, "{:.2f}".format])
expected = dedent(
"""\
a b
0 0.12 1.00
1 1.12 2.00"""
)
assert result == expected
def test_to_string_with_formatters(self):
df = DataFrame(
{
"int": [1, 2, 3],
"float": [1.0, 2.0, 3.0],
"object": [(1, 2), True, False],
},
columns=["int", "float", "object"],
)
formatters = [
("int", lambda x: f"0x{x:x}"),
("float", lambda x: f"[{x: 4.1f}]"),
("object", lambda x: f"-{x!s}-"),
]
result = df.to_string(formatters=dict(formatters))
result2 = df.to_string(formatters=list(zip(*formatters))[1])
assert result == (
" int float object\n"
"0 0x1 [ 1.0] -(1, 2)-\n"
"1 0x2 [ 2.0] -True-\n"
"2 0x3 [ 3.0] -False-"
)
assert result == result2
def test_to_string_with_datetime64_monthformatter(self):
months = [datetime(2016, 1, 1), datetime(2016, 2, 2)]
x = DataFrame({"months": months})
def format_func(x):
return x.strftime("%Y-%m")
result = x.to_string(formatters={"months": format_func})
expected = dedent(
"""\
months
0 2016-01
1 2016-02"""
)
assert result.strip() == expected
def test_to_string_with_datetime64_hourformatter(self):
x = DataFrame(
{"hod": to_datetime(["10:10:10.100", "12:12:12.120"], format="%H:%M:%S.%f")}
)
def format_func(x):
return x.strftime("%H:%M")
result = x.to_string(formatters={"hod": format_func})
expected = dedent(
"""\
hod
0 10:10
1 12:12"""
)
assert result.strip() == expected
def test_to_string_with_formatters_unicode(self):
df = DataFrame({"c/\u03c3": [1, 2, 3]})
result = df.to_string(formatters={"c/\u03c3": str})
expected = dedent(
"""\
c/\u03c3
0 1
1 2
2 3"""
)
assert result == expected
def test_to_string_index_formatter(self):
df = DataFrame([range(5), range(5, 10), range(10, 15)])
rs = df.to_string(formatters={"__index__": lambda x: "abc"[x]})
xp = dedent(
"""\
0 1 2 3 4
a 0 1 2 3 4
b 5 6 7 8 9
c 10 11 12 13 14\
"""
)
assert rs == xp
def test_no_extra_space(self):
# GH#52690: Check that no extra space is given
col1 = "TEST"
col2 = "PANDAS"
col3 = "to_string"
expected = f"{col1:<6s} {col2:<7s} {col3:<10s}"
df = DataFrame([{"col1": "TEST", "col2": "PANDAS", "col3": "to_string"}])
d = {"col1": "{:<6s}".format, "col2": "{:<7s}".format, "col3": "{:<10s}".format}
result = df.to_string(index=False, header=False, formatters=d)
assert result == expected
class TestDataFrameToStringColSpace:
def test_to_string_with_column_specific_col_space_raises(self):
df = DataFrame(
np.random.default_rng(2).random(size=(3, 3)), columns=["a", "b", "c"]
)
msg = (
"Col_space length\\(\\d+\\) should match "
"DataFrame number of columns\\(\\d+\\)"
)
with pytest.raises(ValueError, match=msg):
df.to_string(col_space=[30, 40])
with pytest.raises(ValueError, match=msg):
df.to_string(col_space=[30, 40, 50, 60])
msg = "unknown column"
with pytest.raises(ValueError, match=msg):
df.to_string(col_space={"a": "foo", "b": 23, "d": 34})
def test_to_string_with_column_specific_col_space(self):
df = DataFrame(
np.random.default_rng(2).random(size=(3, 3)), columns=["a", "b", "c"]
)
result = df.to_string(col_space={"a": 10, "b": 11, "c": 12})
# 3 separating space + each col_space for (id, a, b, c)
assert len(result.split("\n")[1]) == (3 + 1 + 10 + 11 + 12)
result = df.to_string(col_space=[10, 11, 12])
assert len(result.split("\n")[1]) == (3 + 1 + 10 + 11 + 12)
def test_to_string_with_col_space(self):
df = DataFrame(np.random.default_rng(2).random(size=(1, 3)))
c10 = len(df.to_string(col_space=10).split("\n")[1])
c20 = len(df.to_string(col_space=20).split("\n")[1])
c30 = len(df.to_string(col_space=30).split("\n")[1])
assert c10 < c20 < c30
# GH#8230
# col_space wasn't being applied with header=False
with_header = df.to_string(col_space=20)
with_header_row1 = with_header.splitlines()[1]
no_header = df.to_string(col_space=20, header=False)
assert len(with_header_row1) == len(no_header)
def test_to_string_repr_tuples(self):
buf = StringIO()
df = DataFrame({"tups": list(zip(range(10), range(10)))})
repr(df)
df.to_string(col_space=10, buf=buf)
class TestDataFrameToStringHeader:
def test_to_string_header_false(self):
# GH#49230
df = DataFrame([1, 2])
df.index.name = "a"
s = df.to_string(header=False)
expected = "a \n0 1\n1 2"
assert s == expected
df = DataFrame([[1, 2], [3, 4]])
df.index.name = "a"
s = df.to_string(header=False)
expected = "a \n0 1 2\n1 3 4"
assert s == expected
def test_to_string_multindex_header(self):
# GH#16718
df = DataFrame({"a": [0], "b": [1], "c": [2], "d": [3]}).set_index(["a", "b"])
res = df.to_string(header=["r1", "r2"])
exp = " r1 r2\na b \n0 1 2 3"
assert res == exp
def test_to_string_no_header(self):
df = DataFrame({"x": [1, 2, 3], "y": [4, 5, 6]})
df_s = df.to_string(header=False)
expected = "0 1 4\n1 2 5\n2 3 6"
assert df_s == expected
def test_to_string_specified_header(self):
df = DataFrame({"x": [1, 2, 3], "y": [4, 5, 6]})
df_s = df.to_string(header=["X", "Y"])
expected = " X Y\n0 1 4\n1 2 5\n2 3 6"
assert df_s == expected
msg = "Writing 2 cols but got 1 aliases"
with pytest.raises(ValueError, match=msg):
df.to_string(header=["X"])
class TestDataFrameToStringLineWidth:
def test_to_string_line_width(self):
df = DataFrame(123, index=range(10, 15), columns=range(30))
lines = df.to_string(line_width=80)
assert max(len(line) for line in lines.split("\n")) == 80
def test_to_string_line_width_no_index(self):
# GH#13998, GH#22505
df = DataFrame({"x": [1, 2, 3], "y": [4, 5, 6]})
df_s = df.to_string(line_width=1, index=False)
expected = " x \\\n 1 \n 2 \n 3 \n\n y \n 4 \n 5 \n 6 "
assert df_s == expected
df = DataFrame({"x": [11, 22, 33], "y": [4, 5, 6]})
df_s = df.to_string(line_width=1, index=False)
expected = " x \\\n11 \n22 \n33 \n\n y \n 4 \n 5 \n 6 "
assert df_s == expected
df = DataFrame({"x": [11, 22, -33], "y": [4, 5, -6]})
df_s = df.to_string(line_width=1, index=False)
expected = " x \\\n 11 \n 22 \n-33 \n\n y \n 4 \n 5 \n-6 "
assert df_s == expected
def test_to_string_line_width_no_header(self):
# GH#53054
df = DataFrame({"x": [1, 2, 3], "y": [4, 5, 6]})
df_s = df.to_string(line_width=1, header=False)
expected = "0 1 \\\n1 2 \n2 3 \n\n0 4 \n1 5 \n2 6 "
assert df_s == expected
df = DataFrame({"x": [11, 22, 33], "y": [4, 5, 6]})
df_s = df.to_string(line_width=1, header=False)
expected = "0 11 \\\n1 22 \n2 33 \n\n0 4 \n1 5 \n2 6 "
assert df_s == expected
df = DataFrame({"x": [11, 22, -33], "y": [4, 5, -6]})
df_s = df.to_string(line_width=1, header=False)
expected = "0 11 \\\n1 22 \n2 -33 \n\n0 4 \n1 5 \n2 -6 "
assert df_s == expected
def test_to_string_line_width_with_both_index_and_header(self):
# GH#53054
df = DataFrame({"x": [1, 2, 3], "y": [4, 5, 6]})
df_s = df.to_string(line_width=1)
expected = (
" x \\\n0 1 \n1 2 \n2 3 \n\n y \n0 4 \n1 5 \n2 6 "
)
assert df_s == expected
df = DataFrame({"x": [11, 22, 33], "y": [4, 5, 6]})
df_s = df.to_string(line_width=1)
expected = (
" x \\\n0 11 \n1 22 \n2 33 \n\n y \n0 4 \n1 5 \n2 6 "
)
assert df_s == expected
df = DataFrame({"x": [11, 22, -33], "y": [4, 5, -6]})
df_s = df.to_string(line_width=1)
expected = (
" x \\\n0 11 \n1 22 \n2 -33 \n\n y \n0 4 \n1 5 \n2 -6 "
)
assert df_s == expected
def test_to_string_line_width_no_index_no_header(self):
# GH#53054
df = DataFrame({"x": [1, 2, 3], "y": [4, 5, 6]})
df_s = df.to_string(line_width=1, index=False, header=False)
expected = "1 \\\n2 \n3 \n\n4 \n5 \n6 "
assert df_s == expected
df = DataFrame({"x": [11, 22, 33], "y": [4, 5, 6]})
df_s = df.to_string(line_width=1, index=False, header=False)
expected = "11 \\\n22 \n33 \n\n4 \n5 \n6 "
assert df_s == expected
df = DataFrame({"x": [11, 22, -33], "y": [4, 5, -6]})
df_s = df.to_string(line_width=1, index=False, header=False)
expected = " 11 \\\n 22 \n-33 \n\n 4 \n 5 \n-6 "
assert df_s == expected
class TestToStringNumericFormatting:
def test_to_string_float_format_no_fixed_width(self):
# GH#21625
df = DataFrame({"x": [0.19999]})
expected = " x\n0 0.200"
assert df.to_string(float_format="%.3f") == expected
# GH#22270
df = DataFrame({"x": [100.0]})
expected = " x\n0 100"
assert df.to_string(float_format="%.0f") == expected
def test_to_string_small_float_values(self):
df = DataFrame({"a": [1.5, 1e-17, -5.5e-7]})
result = df.to_string()
# sadness per above
if _three_digit_exp():
expected = (
" a\n"
"0 1.500000e+000\n"
"1 1.000000e-017\n"
"2 -5.500000e-007"
)
else:
expected = (
" a\n"
"0 1.500000e+00\n"
"1 1.000000e-17\n"
"2 -5.500000e-07"
)
assert result == expected
# but not all exactly zero
df = df * 0
result = df.to_string()
expected = " 0\n0 0\n1 0\n2 -0"
# TODO: assert that these match??
def test_to_string_complex_float_formatting(self):
# GH #25514, 25745
with option_context("display.precision", 5):
df = DataFrame(
{
"x": [
(0.4467846931321966 + 0.0715185102060818j),
(0.2739442392974528 + 0.23515228785438969j),
(0.26974928742135185 + 0.3250604054898979j),
(-1j),
]
}
)
result = df.to_string()
expected = (
" x\n0 0.44678+0.07152j\n"
"1 0.27394+0.23515j\n"
"2 0.26975+0.32506j\n"
"3 -0.00000-1.00000j"
)
assert result == expected
def test_to_string_format_inf(self):
# GH#24861
df = DataFrame(
{
"A": [-np.inf, np.inf, -1, -2.1234, 3, 4],
"B": [-np.inf, np.inf, "foo", "foooo", "fooooo", "bar"],
}
)
result = df.to_string()
expected = (
" A B\n"
"0 -inf -inf\n"
"1 inf inf\n"
"2 -1.0000 foo\n"
"3 -2.1234 foooo\n"
"4 3.0000 fooooo\n"
"5 4.0000 bar"
)
assert result == expected
df = DataFrame(
{
"A": [-np.inf, np.inf, -1.0, -2.0, 3.0, 4.0],
"B": [-np.inf, np.inf, "foo", "foooo", "fooooo", "bar"],
}
)
result = df.to_string()
expected = (
" A B\n"
"0 -inf -inf\n"
"1 inf inf\n"
"2 -1.0 foo\n"
"3 -2.0 foooo\n"
"4 3.0 fooooo\n"
"5 4.0 bar"
)
assert result == expected
def test_to_string_int_formatting(self):
df = DataFrame({"x": [-15, 20, 25, -35]})
assert issubclass(df["x"].dtype.type, np.integer)
output = df.to_string()
expected = " x\n0 -15\n1 20\n2 25\n3 -35"
assert output == expected
def test_to_string_float_formatting(self):
with option_context(
"display.precision",
5,
"display.notebook_repr_html",
False,
):
df = DataFrame(
{"x": [0, 0.25, 3456.000, 12e45, 1.64e6, 1.7e8, 1.253456, np.pi, -1e6]}
)
df_s = df.to_string()
if _three_digit_exp():
expected = (
" x\n0 0.00000e+000\n1 2.50000e-001\n"
"2 3.45600e+003\n3 1.20000e+046\n4 1.64000e+006\n"
"5 1.70000e+008\n6 1.25346e+000\n7 3.14159e+000\n"
"8 -1.00000e+006"
)
else:
expected = (
" x\n0 0.00000e+00\n1 2.50000e-01\n"
"2 3.45600e+03\n3 1.20000e+46\n4 1.64000e+06\n"
"5 1.70000e+08\n6 1.25346e+00\n7 3.14159e+00\n"
"8 -1.00000e+06"
)
assert df_s == expected
df = DataFrame({"x": [3234, 0.253]})
df_s = df.to_string()
expected = " x\n0 3234.000\n1 0.253"
assert df_s == expected
assert get_option("display.precision") == 6
df = DataFrame({"x": [1e9, 0.2512]})
df_s = df.to_string()
if _three_digit_exp():
expected = " x\n0 1.000000e+009\n1 2.512000e-001"
else:
expected = " x\n0 1.000000e+09\n1 2.512000e-01"
assert df_s == expected
class TestDataFrameToString:
def test_to_string_decimal(self):
# GH#23614
df = DataFrame({"A": [6.0, 3.1, 2.2]})
expected = " A\n0 6,0\n1 3,1\n2 2,2"
assert df.to_string(decimal=",") == expected
def test_to_string_left_justify_cols(self):
df = DataFrame({"x": [3234, 0.253]})
df_s = df.to_string(justify="left")
expected = " x \n0 3234.000\n1 0.253"
assert df_s == expected
def test_to_string_format_na(self):
df = DataFrame(
{
"A": [np.nan, -1, -2.1234, 3, 4],
"B": [np.nan, "foo", "foooo", "fooooo", "bar"],
}
)
result = df.to_string()
expected = (
" A B\n"
"0 NaN NaN\n"
"1 -1.0000 foo\n"
"2 -2.1234 foooo\n"
"3 3.0000 fooooo\n"
"4 4.0000 bar"
)
assert result == expected
df = DataFrame(
{
"A": [np.nan, -1.0, -2.0, 3.0, 4.0],
"B": [np.nan, "foo", "foooo", "fooooo", "bar"],
}
)
result = df.to_string()
expected = (
" A B\n"
"0 NaN NaN\n"
"1 -1.0 foo\n"
"2 -2.0 foooo\n"
"3 3.0 fooooo\n"
"4 4.0 bar"
)
assert result == expected
def test_to_string_with_dict_entries(self):
df = DataFrame({"A": [{"a": 1, "b": 2}]})
val = df.to_string()
assert "'a': 1" in val
assert "'b': 2" in val
def test_to_string_with_categorical_columns(self):
# GH#35439
data = [[4, 2], [3, 2], [4, 3]]
cols = ["aaaaaaaaa", "b"]
df = DataFrame(data, columns=cols)
df_cat_cols = DataFrame(data, columns=CategoricalIndex(cols))
assert df.to_string() == df_cat_cols.to_string()
def test_repr_embedded_ndarray(self):
arr = np.empty(10, dtype=[("err", object)])
for i in range(len(arr)):
arr["err"][i] = np.random.default_rng(2).standard_normal(i)
df = DataFrame(arr)
repr(df["err"])
repr(df)
df.to_string()
def test_to_string_truncate(self):
# GH 9784 - dont truncate when calling DataFrame.to_string
df = DataFrame(
[
{
"a": "foo",
"b": "bar",
"c": "let's make this a very VERY long line that is longer "
"than the default 50 character limit",
"d": 1,
},
{"a": "foo", "b": "bar", "c": "stuff", "d": 1},
]
)
df.set_index(["a", "b", "c"])
assert df.to_string() == (
" a b "
" c d\n"
"0 foo bar let's make this a very VERY long line t"
"hat is longer than the default 50 character limit 1\n"
"1 foo bar "
" stuff 1"
)
with option_context("max_colwidth", 20):
# the display option has no effect on the to_string method
assert df.to_string() == (
" a b "
" c d\n"
"0 foo bar let's make this a very VERY long line t"
"hat is longer than the default 50 character limit 1\n"
"1 foo bar "
" stuff 1"
)
assert df.to_string(max_colwidth=20) == (
" a b c d\n"
"0 foo bar let's make this ... 1\n"
"1 foo bar stuff 1"
)
@pytest.mark.parametrize(
"input_array, expected",
[
({"A": ["a"]}, "A\na"),
({"A": ["a", "b"], "B": ["c", "dd"]}, "A B\na c\nb dd"),
({"A": ["a", 1], "B": ["aa", 1]}, "A B\na aa\n1 1"),
],
)
def test_format_remove_leading_space_dataframe(self, input_array, expected):
# GH#24980
df = DataFrame(input_array).to_string(index=False)
assert df == expected
@pytest.mark.parametrize(
"data,expected",
[
(
{"col1": [1, 2], "col2": [3, 4]},
" col1 col2\n0 1 3\n1 2 4",
),
(
{"col1": ["Abc", 0.756], "col2": [np.nan, 4.5435]},
" col1 col2\n0 Abc NaN\n1 0.756 4.5435",
),
(
{"col1": [np.nan, "a"], "col2": [0.009, 3.543], "col3": ["Abc", 23]},
" col1 col2 col3\n0 NaN 0.009 Abc\n1 a 3.543 23",
),
],
)
def test_to_string_max_rows_zero(self, data, expected):
# GH#35394
result = DataFrame(data=data).to_string(max_rows=0)
assert result == expected
@pytest.mark.parametrize(
"max_cols, max_rows, expected",
[
(
10,
None,
" 0 1 2 3 4 ... 6 7 8 9 10\n"
" 0 0 0 0 0 ... 0 0 0 0 0\n"
" 0 0 0 0 0 ... 0 0 0 0 0\n"
" 0 0 0 0 0 ... 0 0 0 0 0\n"
" 0 0 0 0 0 ... 0 0 0 0 0",
),
(
None,
2,
" 0 1 2 3 4 5 6 7 8 9 10\n"
" 0 0 0 0 0 0 0 0 0 0 0\n"
" .. .. .. .. .. .. .. .. .. .. ..\n"
" 0 0 0 0 0 0 0 0 0 0 0",
),
(
10,
2,
" 0 1 2 3 4 ... 6 7 8 9 10\n"
" 0 0 0 0 0 ... 0 0 0 0 0\n"
" .. .. .. .. .. ... .. .. .. .. ..\n"
" 0 0 0 0 0 ... 0 0 0 0 0",
),
(
9,
2,
" 0 1 2 3 ... 7 8 9 10\n"
" 0 0 0 0 ... 0 0 0 0\n"
" .. .. .. .. ... .. .. .. ..\n"
" 0 0 0 0 ... 0 0 0 0",
),
(
1,
1,
" 0 ...\n 0 ...\n.. ...",
),
],
)
def test_truncation_no_index(self, max_cols, max_rows, expected):
df = DataFrame([[0] * 11] * 4)
assert (
df.to_string(index=False, max_cols=max_cols, max_rows=max_rows) == expected
)
def test_to_string_no_index(self):
# GH#16839, GH#13032
df = DataFrame({"x": [11, 22], "y": [33, -44], "z": ["AAA", " "]})
df_s = df.to_string(index=False)
# Leading space is expected for positive numbers.
expected = " x y z\n11 33 AAA\n22 -44 "
assert df_s == expected
df_s = df[["y", "x", "z"]].to_string(index=False)
expected = " y x z\n 33 11 AAA\n-44 22 "
assert df_s == expected
def test_to_string_unicode_columns(self, float_frame):
df = DataFrame({"\u03c3": np.arange(10.0)})
buf = StringIO()
df.to_string(buf=buf)
buf.getvalue()
buf = StringIO()
df.info(buf=buf)
buf.getvalue()
result = float_frame.to_string()
assert isinstance(result, str)
@pytest.mark.parametrize("na_rep", ["NaN", "Ted"])
def test_to_string_na_rep_and_float_format(self, na_rep):
# GH#13828
df = DataFrame([["A", 1.2225], ["A", None]], columns=["Group", "Data"])
result = df.to_string(na_rep=na_rep, float_format="{:.2f}".format)
expected = dedent(
f"""\
Group Data
0 A 1.22
1 A {na_rep}"""
)
assert result == expected
def test_to_string_string_dtype(self):
# GH#50099
pytest.importorskip("pyarrow")
df = DataFrame(
{"x": ["foo", "bar", "baz"], "y": ["a", "b", "c"], "z": [1, 2, 3]}
)
df = df.astype(
{"x": "string[pyarrow]", "y": "string[python]", "z": "int64[pyarrow]"}
)
result = df.dtypes.to_string()
expected = dedent(
"""\
x string[pyarrow]
y string[python]
z int64[pyarrow]"""
)
assert result == expected
def test_to_string_pos_args_deprecation(self):
# GH#54229
df = DataFrame({"a": [1, 2, 3]})
msg = (
"Starting with pandas version 3.0 all arguments of to_string "
"except for the "
"argument 'buf' will be keyword-only."
)
with tm.assert_produces_warning(FutureWarning, match=msg):
buf = StringIO()
df.to_string(buf, None, None, True, True)
def test_to_string_utf8_columns(self):
n = "\u05d0".encode()
df = DataFrame([1, 2], columns=[n])
with option_context("display.max_rows", 1):
repr(df)
def test_to_string_unicode_two(self):
dm = DataFrame({"c/\u03c3": []})
buf = StringIO()
dm.to_string(buf)
def test_to_string_unicode_three(self):
dm = DataFrame(["\xc2"])
buf = StringIO()
dm.to_string(buf)
def test_to_string_with_float_index(self):
index = Index([1.5, 2, 3, 4, 5])
df = DataFrame(np.arange(5), index=index)
result = df.to_string()
expected = " 0\n1.5 0\n2.0 1\n3.0 2\n4.0 3\n5.0 4"
assert result == expected
def test_to_string(self):
# big mixed
biggie = DataFrame(
{
"A": np.random.default_rng(2).standard_normal(200),
"B": Index([f"{i}?!" for i in range(200)]),
},
)
biggie.loc[:20, "A"] = np.nan
biggie.loc[:20, "B"] = np.nan
s = biggie.to_string()
buf = StringIO()
retval = biggie.to_string(buf=buf)
assert retval is None
assert buf.getvalue() == s
assert isinstance(s, str)
# print in right order
result = biggie.to_string(
columns=["B", "A"], col_space=17, float_format="%.5f".__mod__
)
lines = result.split("\n")
header = lines[0].strip().split()
joined = "\n".join([re.sub(r"\s+", " ", x).strip() for x in lines[1:]])
recons = read_csv(StringIO(joined), names=header, header=None, sep=" ")
tm.assert_series_equal(recons["B"], biggie["B"])
assert recons["A"].count() == biggie["A"].count()
assert (np.abs(recons["A"].dropna() - biggie["A"].dropna()) < 0.1).all()
# FIXME: don't leave commented-out
# expected = ['B', 'A']
# assert header == expected
result = biggie.to_string(columns=["A"], col_space=17)
header = result.split("\n")[0].strip().split()
expected = ["A"]
assert header == expected
biggie.to_string(columns=["B", "A"], formatters={"A": lambda x: f"{x:.1f}"})
biggie.to_string(columns=["B", "A"], float_format=str)
biggie.to_string(columns=["B", "A"], col_space=12, float_format=str)
frame = DataFrame(index=np.arange(200))
frame.to_string()
# TODO: split or simplify this test?
@pytest.mark.xfail(using_string_dtype(), reason="fix when arrow is default")
def test_to_string_index_with_nan(self):
# GH#2850
df = DataFrame(
{
"id1": {0: "1a3", 1: "9h4"},
"id2": {0: np.nan, 1: "d67"},
"id3": {0: "78d", 1: "79d"},
"value": {0: 123, 1: 64},
}
)
# multi-index
y = df.set_index(["id1", "id2", "id3"])
result = y.to_string()
expected = (
" value\nid1 id2 id3 \n"
"1a3 NaN 78d 123\n9h4 d67 79d 64"
)
assert result == expected
# index
y = df.set_index("id2")
result = y.to_string()
expected = (
" id1 id3 value\nid2 \n"
"NaN 1a3 78d 123\nd67 9h4 79d 64"
)
assert result == expected
# with append (this failed in 0.12)
y = df.set_index(["id1", "id2"]).set_index("id3", append=True)
result = y.to_string()
expected = (
" value\nid1 id2 id3 \n"
"1a3 NaN 78d 123\n9h4 d67 79d 64"
)
assert result == expected
# all-nan in mi
df2 = df.copy()
df2.loc[:, "id2"] = np.nan
y = df2.set_index("id2")
result = y.to_string()
expected = (
" id1 id3 value\nid2 \n"
"NaN 1a3 78d 123\nNaN 9h4 79d 64"
)
assert result == expected
# partial nan in mi
df2 = df.copy()
df2.loc[:, "id2"] = np.nan
y = df2.set_index(["id2", "id3"])
result = y.to_string()
expected = (
" id1 value\nid2 id3 \n"
"NaN 78d 1a3 123\n 79d 9h4 64"
)
assert result == expected
df = DataFrame(
{
"id1": {0: np.nan, 1: "9h4"},
"id2": {0: np.nan, 1: "d67"},
"id3": {0: np.nan, 1: "79d"},
"value": {0: 123, 1: 64},
}
)
y = df.set_index(["id1", "id2", "id3"])
result = y.to_string()
expected = (
" value\nid1 id2 id3 \n"
"NaN NaN NaN 123\n9h4 d67 79d 64"
)
assert result == expected
def test_to_string_nonunicode_nonascii_alignment(self):
df = DataFrame([["aa\xc3\xa4\xc3\xa4", 1], ["bbbb", 2]])
rep_str = df.to_string()
lines = rep_str.split("\n")
assert len(lines[1]) == len(lines[2])
def test_unicode_problem_decoding_as_ascii(self):
df = DataFrame({"c/\u03c3": Series({"test": np.nan})})
str(df.to_string())
def test_to_string_repr_unicode(self):
buf = StringIO()
unicode_values = ["\u03c3"] * 10
unicode_values = np.array(unicode_values, dtype=object)
df = DataFrame({"unicode": unicode_values})
df.to_string(col_space=10, buf=buf)
# it works!
repr(df)
# it works even if sys.stdin in None
_stdin = sys.stdin
try:
sys.stdin = None
repr(df)
finally:
sys.stdin = _stdin
class TestSeriesToString:
def test_to_string_without_index(self):
# GH#11729 Test index=False option
ser = Series([1, 2, 3, 4])
result = ser.to_string(index=False)
expected = "\n".join(["1", "2", "3", "4"])
assert result == expected
def test_to_string_name(self):
ser = Series(range(100), dtype="int64")
ser.name = "myser"
res = ser.to_string(max_rows=2, name=True)
exp = "0 0\n ..\n99 99\nName: myser"
assert res == exp
res = ser.to_string(max_rows=2, name=False)
exp = "0 0\n ..\n99 99"
assert res == exp
def test_to_string_dtype(self):
ser = Series(range(100), dtype="int64")
res = ser.to_string(max_rows=2, dtype=True)
exp = "0 0\n ..\n99 99\ndtype: int64"
assert res == exp
res = ser.to_string(max_rows=2, dtype=False)
exp = "0 0\n ..\n99 99"
assert res == exp
def test_to_string_length(self):
ser = Series(range(100), dtype="int64")
res = ser.to_string(max_rows=2, length=True)
exp = "0 0\n ..\n99 99\nLength: 100"
assert res == exp
def test_to_string_na_rep(self):
ser = Series(index=range(100), dtype=np.float64)
res = ser.to_string(na_rep="foo", max_rows=2)
exp = "0 foo\n ..\n99 foo"
assert res == exp
def test_to_string_float_format(self):
ser = Series(range(10), dtype="float64")
res = ser.to_string(float_format=lambda x: f"{x:2.1f}", max_rows=2)
exp = "0 0.0\n ..\n9 9.0"
assert res == exp
def test_to_string_header(self):
ser = Series(range(10), dtype="int64")
ser.index.name = "foo"
res = ser.to_string(header=True, max_rows=2)
exp = "foo\n0 0\n ..\n9 9"
assert res == exp
res = ser.to_string(header=False, max_rows=2)
exp = "0 0\n ..\n9 9"
assert res == exp
def test_to_string_empty_col(self):
# GH#13653
ser = Series(["", "Hello", "World", "", "", "Mooooo", "", ""])
res = ser.to_string(index=False)
exp = " \n Hello\n World\n \n \nMooooo\n \n "
assert re.match(exp, res)
def test_to_string_timedelta64(self):
Series(np.array([1100, 20], dtype="timedelta64[ns]")).to_string()
ser = Series(date_range("2012-1-1", periods=3, freq="D"))
# GH#2146
# adding NaTs
y = ser - ser.shift(1)
result = y.to_string()
assert "1 days" in result
assert "00:00:00" not in result
assert "NaT" in result
# with frac seconds
o = Series([datetime(2012, 1, 1, microsecond=150)] * 3)
y = ser - o
result = y.to_string()
assert "-1 days +23:59:59.999850" in result
# rounding?
o = Series([datetime(2012, 1, 1, 1)] * 3)
y = ser - o
result = y.to_string()
assert "-1 days +23:00:00" in result
assert "1 days 23:00:00" in result
o = Series([datetime(2012, 1, 1, 1, 1)] * 3)
y = ser - o
result = y.to_string()
assert "-1 days +22:59:00" in result
assert "1 days 22:59:00" in result
o = Series([datetime(2012, 1, 1, 1, 1, microsecond=150)] * 3)
y = ser - o
result = y.to_string()
assert "-1 days +22:58:59.999850" in result
assert "0 days 22:58:59.999850" in result
# neg time
td = timedelta(minutes=5, seconds=3)
s2 = Series(date_range("2012-1-1", periods=3, freq="D")) + td
y = ser - s2
result = y.to_string()
assert "-1 days +23:54:57" in result
td = timedelta(microseconds=550)
s2 = Series(date_range("2012-1-1", periods=3, freq="D")) + td
y = ser - td
result = y.to_string()
assert "2012-01-01 23:59:59.999450" in result
# no boxing of the actual elements
td = Series(timedelta_range("1 days", periods=3))
result = td.to_string()
assert result == "0 1 days\n1 2 days\n2 3 days"
def test_to_string(self):
ts = Series(
np.arange(10, dtype=np.float64),
index=date_range("2020-01-01", periods=10, freq="B"),
)
buf = StringIO()
s = ts.to_string()
retval = ts.to_string(buf=buf)
assert retval is None
assert buf.getvalue().strip() == s
# pass float_format
format = "%.4f".__mod__
result = ts.to_string(float_format=format)
result = [x.split()[1] for x in result.split("\n")[:-1]]
expected = [format(x) for x in ts]
assert result == expected
# empty string
result = ts[:0].to_string()
assert result == "Series([], Freq: B)"
result = ts[:0].to_string(length=0)
assert result == "Series([], Freq: B)"
# name and length
cp = ts.copy()
cp.name = "foo"
result = cp.to_string(length=True, name=True, dtype=True)
last_line = result.split("\n")[-1].strip()
assert last_line == (f"Freq: B, Name: foo, Length: {len(cp)}, dtype: float64")
@pytest.mark.parametrize(
"input_array, expected",
[
("a", "a"),
(["a", "b"], "a\nb"),
([1, "a"], "1\na"),
(1, "1"),
([0, -1], " 0\n-1"),
(1.0, "1.0"),
([" a", " b"], " a\n b"),
([".1", "1"], ".1\n 1"),
(["10", "-10"], " 10\n-10"),
],
)
def test_format_remove_leading_space_series(self, input_array, expected):
# GH: 24980
ser = Series(input_array)
result = ser.to_string(index=False)
assert result == expected
def test_to_string_complex_number_trims_zeros(self):
ser = Series([1.000000 + 1.000000j, 1.0 + 1.0j, 1.05 + 1.0j])
result = ser.to_string()
expected = dedent(
"""\
0 1.00+1.00j
1 1.00+1.00j
2 1.05+1.00j"""
)
assert result == expected
def test_nullable_float_to_string(self, float_ea_dtype):
# https://github.com/pandas-dev/pandas/issues/36775
dtype = float_ea_dtype
ser = Series([0.0, 1.0, None], dtype=dtype)
result = ser.to_string()
expected = dedent(
"""\
0 0.0
1 1.0
2 <NA>"""
)
assert result == expected
def test_nullable_int_to_string(self, any_int_ea_dtype):
# https://github.com/pandas-dev/pandas/issues/36775
dtype = any_int_ea_dtype
ser = Series([0, 1, None], dtype=dtype)
result = ser.to_string()
expected = dedent(
"""\
0 0
1 1
2 <NA>"""
)
assert result == expected
def test_to_string_mixed(self):
ser = Series(["foo", np.nan, -1.23, 4.56])
result = ser.to_string()
expected = "".join(["0 foo\n", "1 NaN\n", "2 -1.23\n", "3 4.56"])
assert result == expected
# but don't count NAs as floats
ser = Series(["foo", np.nan, "bar", "baz"])
result = ser.to_string()
expected = "".join(["0 foo\n", "1 NaN\n", "2 bar\n", "3 baz"])
assert result == expected
ser = Series(["foo", 5, "bar", "baz"])
result = ser.to_string()
expected = "".join(["0 foo\n", "1 5\n", "2 bar\n", "3 baz"])
assert result == expected
def test_to_string_float_na_spacing(self):
ser = Series([0.0, 1.5678, 2.0, -3.0, 4.0])
ser[::2] = np.nan
result = ser.to_string()
expected = (
"0 NaN\n"
"1 1.5678\n"
"2 NaN\n"
"3 -3.0000\n"
"4 NaN"
)
assert result == expected
def test_to_string_with_datetimeindex(self):
index = date_range("20130102", periods=6)
ser = Series(1, index=index)
result = ser.to_string()
assert "2013-01-02" in result
# nat in index
s2 = Series(2, index=[Timestamp("20130111"), NaT])
ser = concat([s2, ser])
result = ser.to_string()
assert "NaT" in result
# nat in summary
result = str(s2.index)
assert "NaT" in result
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