from array import array from collections import defaultdict, UserDict, UserList from dataclasses import dataclass, field import io import sys from typing import List import attr import pytest from rich.console import Console from rich.pretty import install, Pretty, pprint, pretty_repr, Node skip_py36 = pytest.mark.skipif( sys.version_info.minor == 6 and sys.version_info.major == 3, reason="rendered differently on py3.6", ) skip_py37 = pytest.mark.skipif( sys.version_info.minor == 7 and sys.version_info.major == 3, reason="rendered differently on py3.7", ) skip_py38 = pytest.mark.skipif( sys.version_info.minor == 8 and sys.version_info.major == 3, reason="rendered differently on py3.8", ) skip_py39 = pytest.mark.skipif( sys.version_info.minor == 9 and sys.version_info.major == 3, reason="rendered differently on py3.9", ) skip_py310 = pytest.mark.skipif( sys.version_info.minor == 10 and sys.version_info.major == 3, reason="rendered differently on py3.10", ) def test_install(): console = Console(file=io.StringIO()) dh = sys.displayhook install(console) sys.displayhook("foo") assert console.file.getvalue() == "'foo'\n" assert sys.displayhook is not dh def test_pretty(): test = { "foo": [1, 2, 3, (4, 5, {6}, 7, 8, {9}), {}], "bar": {"egg": "baz", "words": ["Hello World"] * 10}, False: "foo", True: "", "text": ("Hello World", "foo bar baz egg"), } result = pretty_repr(test, max_width=80) print(result) # print(repr(result)) expected = "{\n 'foo': [1, 2, 3, (4, 5, {6}, 7, 8, {9}), {}],\n 'bar': {\n 'egg': 'baz',\n 'words': [\n 'Hello World',\n 'Hello World',\n 'Hello World',\n 'Hello World',\n 'Hello World',\n 'Hello World',\n 'Hello World',\n 'Hello World',\n 'Hello World',\n 'Hello World'\n ]\n },\n False: 'foo',\n True: '',\n 'text': ('Hello World', 'foo bar baz egg')\n}" print(expected) assert result == expected @dataclass class ExampleDataclass: foo: int bar: str ignore: int = field(repr=False) baz: List[str] = field(default_factory=list) def test_pretty_dataclass(): dc = ExampleDataclass(1000, "Hello, World", 999, ["foo", "bar", "baz"]) result = pretty_repr(dc, max_width=80) print(repr(result)) assert ( result == "ExampleDataclass(foo=1000, bar='Hello, World', baz=['foo', 'bar', 'baz'])" ) result = pretty_repr(dc, max_width=16) print(repr(result)) assert ( result == "ExampleDataclass(\n foo=1000,\n bar='Hello, World',\n baz=[\n 'foo',\n 'bar',\n 'baz'\n ]\n)" ) dc.bar = dc result = pretty_repr(dc, max_width=80) print(repr(result)) assert result == "ExampleDataclass(foo=1000, bar=..., baz=['foo', 'bar', 'baz'])" def test_small_width(): test = ["Hello world! 12345"] result = pretty_repr(test, max_width=10) expected = "[\n 'Hello world! 12345'\n]" assert result == expected def test_broken_repr(): class BrokenRepr: def __repr__(self): 1 / 0 test = [BrokenRepr()] result = pretty_repr(test) expected = "[]" assert result == expected def test_recursive(): test = [] test.append(test) result = pretty_repr(test) expected = "[...]" assert result == expected def test_defaultdict(): test_dict = defaultdict(int, {"foo": 2}) result = pretty_repr(test_dict) assert result == "defaultdict(, {'foo': 2})" def test_array(): test_array = array("I", [1, 2, 3]) result = pretty_repr(test_array) assert result == "array('I', [1, 2, 3])" def test_tuple_of_one(): assert pretty_repr((1,)) == "(1,)" def test_node(): node = Node("abc") assert pretty_repr(node) == "abc: " def test_indent_lines(): console = Console(width=100, color_system=None) console.begin_capture() console.print(Pretty([100, 200], indent_guides=True), width=8) expected = """\ [ │ 100, │ 200 ] """ result = console.end_capture() print(repr(result)) print(result) assert result == expected def test_pprint(): console = Console(color_system=None) console.begin_capture() pprint(1, console=console) assert console.end_capture() == "1\n" def test_pprint_max_values(): console = Console(color_system=None) console.begin_capture() pprint([1, 2, 3, 4, 5, 6, 7, 8, 9, 0], console=console, max_length=2) assert console.end_capture() == "[1, 2, ... +8]\n" def test_pprint_max_items(): console = Console(color_system=None) console.begin_capture() pprint({"foo": 1, "bar": 2, "egg": 3}, console=console, max_length=2) assert console.end_capture() == """{'foo': 1, 'bar': 2, ... +1}\n""" def test_pprint_max_string(): console = Console(color_system=None) console.begin_capture() pprint(["Hello" * 20], console=console, max_string=8) assert console.end_capture() == """['HelloHel'+92]\n""" def test_tuples(): console = Console(color_system=None) console.begin_capture() pprint((1,), console=console) pprint((1,), expand_all=True, console=console) pprint(((1,),), expand_all=True, console=console) result = console.end_capture() print(repr(result)) expected = "(1,)\n(\n│ 1,\n)\n(\n│ (\n│ │ 1,\n│ ),\n)\n" print(result) print("--") print(expected) assert result == expected def test_newline(): console = Console(color_system=None) console.begin_capture() console.print(Pretty((1,), insert_line=True, expand_all=True)) result = console.end_capture() expected = "\n(\n 1,\n)\n" assert result == expected def test_empty_repr(): class Foo: def __repr__(self): return "" assert pretty_repr(Foo()) == "" def test_attrs(): @attr.define class Point: x: int y: int foo: str = attr.field(repr=str.upper) z: int = 0 result = pretty_repr(Point(1, 2, foo="bar")) print(repr(result)) expected = "Point(x=1, y=2, foo=BAR, z=0)" assert result == expected def test_attrs_empty(): @attr.define class Nada: pass result = pretty_repr(Nada()) print(repr(result)) expected = "Nada()" assert result == expected @skip_py36 @skip_py310 def test_attrs_broken(): @attr.define class Foo: bar: int foo = Foo(1) del foo.bar result = pretty_repr(foo) print(repr(result)) expected = "Foo(bar=AttributeError('bar'))" assert result == expected @skip_py36 @skip_py37 @skip_py38 @skip_py39 def test_attrs_broken_310(): @attr.define class Foo: bar: int foo = Foo(1) del foo.bar result = pretty_repr(foo) print(repr(result)) expected = "'Foo' object has no attribute 'bar'" assert result == expected def test_user_dict(): class D1(UserDict): pass class D2(UserDict): def __repr__(self): return "FOO" d1 = D1({"foo": "bar"}) d2 = D2({"foo": "bar"}) result = pretty_repr(d1, expand_all=True) print(repr(result)) assert result == "{\n 'foo': 'bar'\n}" result = pretty_repr(d2, expand_all=True) print(repr(result)) assert result == "FOO" def test_lying_attribute(): """Test getattr doesn't break rich repr protocol""" class Foo: def __getattr__(self, attr): return "foo" foo = Foo() result = pretty_repr(foo) assert "Foo" in result