from __future__ import annotations
import datetime
import json
from typing import Any, List
import plotly.graph_objects as go
import pytest
from reflex.components.tags.tag import Tag
from reflex.event import EventChain, EventHandler, EventSpec, JavascriptInputEvent
from reflex.style import Style
from reflex.utils import format
from reflex.utils.serializers import serialize_figure
from reflex.vars.base import LiteralVar, Var
from reflex.vars.object import ObjectVar
from tests.units.test_state import (
ChildState,
ChildState2,
ChildState3,
DateTimeState,
GrandchildState,
GrandchildState2,
GrandchildState3,
TestState,
)
def mock_event(arg):
pass
@pytest.mark.parametrize(
"input,output",
[
("{", "}"),
("(", ")"),
("[", "]"),
("<", ">"),
('"', '"'),
("'", "'"),
],
)
def test_get_close_char(input: str, output: str):
"""Test getting the close character for a given open character.
Args:
input: The open character.
output: The expected close character.
"""
assert format.get_close_char(input) == output
@pytest.mark.parametrize(
"text,open,expected",
[
("", "{", False),
("{wrap}", "{", True),
("{wrap", "{", False),
("{wrap}", "(", False),
("(wrap)", "(", True),
],
)
def test_is_wrapped(text: str, open: str, expected: bool):
"""Test checking if a string is wrapped in the given open and close characters.
Args:
text: The text to check.
open: The open character.
expected: Whether the text is wrapped.
"""
assert format.is_wrapped(text, open) == expected
@pytest.mark.parametrize(
"text,open,check_first,num,expected",
[
("", "{", True, 1, "{}"),
("wrap", "{", True, 1, "{wrap}"),
("wrap", "(", True, 1, "(wrap)"),
("wrap", "(", True, 2, "((wrap))"),
("(wrap)", "(", True, 1, "(wrap)"),
("{wrap}", "{", True, 2, "{wrap}"),
("(wrap)", "{", True, 1, "{(wrap)}"),
("(wrap)", "(", False, 1, "((wrap))"),
],
)
def test_wrap(text: str, open: str, expected: str, check_first: bool, num: int):
"""Test wrapping a string.
Args:
text: The text to wrap.
open: The open character.
expected: The expected output string.
check_first: Whether to check if the text is already wrapped.
num: The number of times to wrap the text.
"""
assert format.wrap(text, open, check_first=check_first, num=num) == expected
@pytest.mark.parametrize(
"string,expected_output",
[
("This is a random string", "This is a random string"),
(
"This is a random string with `backticks`",
"This is a random string with \\`backticks\\`",
),
(
"This is a random string with `backticks`",
"This is a random string with \\`backticks\\`",
),
(
"This is a string with ${someValue[`string interpolation`]} unescaped",
"This is a string with ${someValue[`string interpolation`]} unescaped",
),
(
"This is a string with `backticks` and ${someValue[`string interpolation`]} unescaped",
"This is a string with \\`backticks\\` and ${someValue[`string interpolation`]} unescaped",
),
(
"This is a string with `backticks`, ${someValue[`the first string interpolation`]} and ${someValue[`the second`]}",
"This is a string with \\`backticks\\`, ${someValue[`the first string interpolation`]} and ${someValue[`the second`]}",
),
],
)
def test_escape_js_string(string, expected_output):
assert format._escape_js_string(string) == expected_output
@pytest.mark.parametrize(
"text,indent_level,expected",
[
("", 2, ""),
("hello", 2, "hello"),
("hello\nworld", 2, " hello\n world\n"),
("hello\nworld", 4, " hello\n world\n"),
(" hello\n world", 2, " hello\n world\n"),
],
)
def test_indent(text: str, indent_level: int, expected: str, windows_platform: bool):
"""Test indenting a string.
Args:
text: The text to indent.
indent_level: The number of spaces to indent by.
expected: The expected output string.
windows_platform: Whether the system is windows.
"""
assert format.indent(text, indent_level) == (
expected.replace("\n", "\r\n") if windows_platform else expected
)
@pytest.mark.parametrize(
"input,output",
[
("", ""),
("hello", "hello"),
("Hello", "hello"),
("camelCase", "camel_case"),
("camelTwoHumps", "camel_two_humps"),
("_start_with_underscore", "_start_with_underscore"),
("__start_with_double_underscore", "__start_with_double_underscore"),
("kebab-case", "kebab_case"),
("double-kebab-case", "double_kebab_case"),
(":start-with-colon", ":start_with_colon"),
(":-start-with-colon-dash", ":_start_with_colon_dash"),
],
)
def test_to_snake_case(input: str, output: str):
"""Test converting strings to snake case.
Args:
input: The input string.
output: The expected output string.
"""
assert format.to_snake_case(input) == output
@pytest.mark.parametrize(
"input,output",
[
("", ""),
("hello", "hello"),
("Hello", "Hello"),
("snake_case", "snakeCase"),
("snake_case_two", "snakeCaseTwo"),
("kebab-case", "kebabCase"),
("kebab-case-two", "kebabCaseTwo"),
("snake_kebab-case", "snakeKebabCase"),
("_hover", "_hover"),
("-starts-with-hyphen", "-startsWithHyphen"),
("--starts-with-double-hyphen", "--startsWithDoubleHyphen"),
("_starts_with_underscore", "_startsWithUnderscore"),
("__starts_with_double_underscore", "__startsWithDoubleUnderscore"),
(":start-with-colon", ":startWithColon"),
(":-start-with-colon-dash", ":StartWithColonDash"),
],
)
def test_to_camel_case(input: str, output: str):
"""Test converting strings to camel case.
Args:
input: The input string.
output: The expected output string.
"""
assert format.to_camel_case(input) == output
@pytest.mark.parametrize(
"input,output",
[
("", ""),
("hello", "Hello"),
("Hello", "Hello"),
("snake_case", "SnakeCase"),
("snake_case_two", "SnakeCaseTwo"),
],
)
def test_to_title_case(input: str, output: str):
"""Test converting strings to title case.
Args:
input: The input string.
output: The expected output string.
"""
assert format.to_title_case(input) == output
@pytest.mark.parametrize(
"input,output",
[
("", ""),
("hello", "hello"),
("Hello", "hello"),
("snake_case", "snake-case"),
("snake_case_two", "snake-case-two"),
(":startWithColon", ":start-with-colon"),
(":StartWithColonDash", ":-start-with-colon-dash"),
(":start_with_colon", ":start-with-colon"),
(":_start_with_colon_dash", ":-start-with-colon-dash"),
],
)
def test_to_kebab_case(input: str, output: str):
"""Test converting strings to kebab case.
Args:
input: the input string.
output: the output string.
"""
assert format.to_kebab_case(input) == output
@pytest.mark.parametrize(
"input,output",
[
("", "{``}"),
("hello", "{`hello`}"),
("hello world", "{`hello world`}"),
("hello=`world`", "{`hello=\\`world\\``}"),
],
)
def test_format_string(input: str, output: str):
"""Test formating the input as JS string literal.
Args:
input: the input string.
output: the output string.
"""
assert format.format_string(input) == output
@pytest.mark.parametrize(
"input,output",
[
(LiteralVar.create(value="test"), '"test"'),
(Var(_js_expr="test"), "test"),
],
)
def test_format_var(input: Var, output: str):
assert str(input) == output
@pytest.mark.parametrize(
"route,format_case,expected",
[
("", True, "index"),
("/", True, "index"),
("custom-route", True, "custom-route"),
("custom-route", False, "custom-route"),
("custom-route/", True, "custom-route"),
("custom-route/", False, "custom-route"),
("/custom-route", True, "custom-route"),
("/custom-route", False, "custom-route"),
("/custom_route", True, "custom-route"),
("/custom_route", False, "custom_route"),
("/CUSTOM_route", True, "custom-route"),
("/CUSTOM_route", False, "CUSTOM_route"),
],
)
def test_format_route(route: str, format_case: bool, expected: bool):
"""Test formatting a route.
Args:
route: The route to format.
format_case: Whether to change casing to snake_case.
expected: The expected formatted route.
"""
assert format.format_route(route, format_case=format_case) == expected
@pytest.mark.parametrize(
"condition, match_cases, default,expected",
[
(
"state__state.value",
[
[LiteralVar.create(1), LiteralVar.create("red")],
[LiteralVar.create(2), LiteralVar.create(3), LiteralVar.create("blue")],
[TestState.mapping, TestState.num1],
[
LiteralVar.create(f"{TestState.map_key}-key"),
LiteralVar.create("return-key"),
],
],
LiteralVar.create("yellow"),
'(() => { switch (JSON.stringify(state__state.value)) {case JSON.stringify(1): return ("red"); break;case JSON.stringify(2): case JSON.stringify(3): '
f'return ("blue"); break;case JSON.stringify({TestState.get_full_name()}.mapping): return '
f'({TestState.get_full_name()}.num1); break;case JSON.stringify(({TestState.get_full_name()}.map_key+"-key")): return ("return-key");'
' break;default: return ("yellow"); break;};})()',
)
],
)
def test_format_match(
condition: str,
match_cases: List[List[Var]],
default: Var,
expected: str,
):
"""Test formatting a match statement.
Args:
condition: The condition to match.
match_cases: List of match cases to be matched.
default: Catchall case for the match statement.
expected: The expected string output.
"""
assert format.format_match(condition, match_cases, default) == expected
@pytest.mark.parametrize(
"prop,formatted",
[
("string", '"string"'),
("{wrapped_string}", '"{wrapped_string}"'),
(True, "true"),
(False, "false"),
(123, "123"),
(3.14, "3.14"),
([1, 2, 3], "[1, 2, 3]"),
(["a", "b", "c"], '["a", "b", "c"]'),
({"a": 1, "b": 2, "c": 3}, '({ ["a"] : 1, ["b"] : 2, ["c"] : 3 })'),
({"a": 'foo "bar" baz'}, r'({ ["a"] : "foo \"bar\" baz" })'),
(
{
"a": 'foo "{ "bar" }" baz',
"b": Var(_js_expr="val", _var_type=str).guess_type(),
},
r'({ ["a"] : "foo \"{ \"bar\" }\" baz", ["b"] : val })',
),
(
EventChain(
events=[EventSpec(handler=EventHandler(fn=mock_event))],
args_spec=lambda: [],
),
'((...args) => (addEvents([(Event("mock_event", ({ }), ({ })))], args, ({ }))))',
),
(
EventChain(
events=[
EventSpec(
handler=EventHandler(fn=mock_event),
args=(
(
Var(_js_expr="arg"),
Var(
_js_expr="_e",
)
.to(ObjectVar, JavascriptInputEvent)
.target.value,
),
),
)
],
args_spec=lambda e: [e.target.value],
),
'((_e) => (addEvents([(Event("mock_event", ({ ["arg"] : _e["target"]["value"] }), ({ })))], [_e], ({ }))))',
),
(
EventChain(
events=[EventSpec(handler=EventHandler(fn=mock_event))],
args_spec=lambda: [],
event_actions={"stopPropagation": True},
),
'((...args) => (addEvents([(Event("mock_event", ({ }), ({ })))], args, ({ ["stopPropagation"] : true }))))',
),
(
EventChain(
events=[
EventSpec(
handler=EventHandler(fn=mock_event),
event_actions={"stopPropagation": True},
)
],
args_spec=lambda: [],
),
'((...args) => (addEvents([(Event("mock_event", ({ }), ({ ["stopPropagation"] : true })))], args, ({ }))))',
),
(
EventChain(
events=[EventSpec(handler=EventHandler(fn=mock_event))],
args_spec=lambda: [],
event_actions={"preventDefault": True},
),
'((...args) => (addEvents([(Event("mock_event", ({ }), ({ })))], args, ({ ["preventDefault"] : true }))))',
),
({"a": "red", "b": "blue"}, '({ ["a"] : "red", ["b"] : "blue" })'),
(Var(_js_expr="var", _var_type=int).guess_type(), "var"),
(
Var(
_js_expr="_",
_var_type=Any,
),
"_",
),
(
Var(_js_expr='state.colors["a"]', _var_type=str).guess_type(),
'state.colors["a"]',
),
(
{"a": Var(_js_expr="val", _var_type=str).guess_type()},
'({ ["a"] : val })',
),
(
{"a": Var(_js_expr='"val"', _var_type=str).guess_type()},
'({ ["a"] : "val" })',
),
(
{"a": Var(_js_expr='state.colors["val"]', _var_type=str).guess_type()},
'({ ["a"] : state.colors["val"] })',
),
# tricky real-world case from markdown component
(
{
"h1": Var(
_js_expr=f"(({{node, ...props}}) => )"
),
},
'({ ["h1"] : (({node, ...props}) => ) })',
),
],
)
def test_format_prop(prop: Var, formatted: str):
"""Test that the formatted value of an prop is correct.
Args:
prop: The prop to test.
formatted: The expected formatted value.
"""
assert format.format_prop(LiteralVar.create(prop)) == formatted
@pytest.mark.parametrize(
"single_props,key_value_props,output",
[
(
[Var(_js_expr="{...props}")],
{"key": 42},
["key={42}", "{...props}"],
),
],
)
def test_format_props(single_props, key_value_props, output):
"""Test the result of formatting a set of props (both single and keyvalue).
Args:
single_props: the list of single props
key_value_props: the dict of key value props
output: the expected output
"""
assert format.format_props(*single_props, **key_value_props) == output
@pytest.mark.parametrize(
"input,output",
[
(EventHandler(fn=mock_event), ("", "mock_event")),
],
)
def test_get_handler_parts(input, output):
assert format.get_event_handler_parts(input) == output
@pytest.mark.parametrize(
"input,output",
[
(TestState.do_something, f"{TestState.get_full_name()}.do_something"),
(
ChildState.change_both,
f"{ChildState.get_full_name()}.change_both",
),
(
GrandchildState.do_nothing,
f"{GrandchildState.get_full_name()}.do_nothing",
),
],
)
def test_format_event_handler(input, output):
"""Test formatting an event handler.
Args:
input: The event handler input.
output: The expected output.
"""
assert format.format_event_handler(input) == output # type: ignore
@pytest.mark.parametrize(
"input,output",
[
(
EventSpec(handler=EventHandler(fn=mock_event)),
'(Event("mock_event", ({ }), ({ })))',
),
],
)
def test_format_event(input, output):
assert str(LiteralVar.create(input)) == output
@pytest.mark.parametrize(
"input,output",
[
({"query": {"k1": 1, "k2": 2}}, {"k1": 1, "k2": 2}),
({"query": {"k1": 1, "k-2": 2}}, {"k1": 1, "k_2": 2}),
],
)
def test_format_query_params(input, output):
assert format.format_query_params(input) == output
formatted_router = {
"session": {"client_token": "", "client_ip": "", "session_id": ""},
"headers": {
"host": "",
"origin": "",
"upgrade": "",
"connection": "",
"cookie": "",
"pragma": "",
"cache_control": "",
"user_agent": "",
"sec_websocket_version": "",
"sec_websocket_key": "",
"sec_websocket_extensions": "",
"accept_encoding": "",
"accept_language": "",
},
"page": {
"host": "",
"path": "",
"raw_path": "",
"full_path": "",
"full_raw_path": "",
"params": {},
},
}
@pytest.mark.parametrize(
"input, output",
[
(
TestState(_reflex_internal_init=True).dict(), # type: ignore
{
TestState.get_full_name(): {
"array": [1, 2, 3.14],
"complex": {
1: {"prop1": 42, "prop2": "hello"},
2: {"prop1": 42, "prop2": "hello"},
},
"dt": "1989-11-09 18:53:00+01:00",
"fig": serialize_figure(go.Figure()),
"key": "",
"map_key": "a",
"mapping": {"a": [1, 2, 3], "b": [4, 5, 6]},
"num1": 0,
"num2": 3.14,
"obj": {"prop1": 42, "prop2": "hello"},
"sum": 3.14,
"upper": "",
"router": formatted_router,
"asynctest": 0,
},
ChildState.get_full_name(): {
"count": 23,
"value": "",
},
ChildState2.get_full_name(): {"value": ""},
ChildState3.get_full_name(): {"value": ""},
GrandchildState.get_full_name(): {"value2": ""},
GrandchildState2.get_full_name(): {"cached": ""},
GrandchildState3.get_full_name(): {"computed": ""},
},
),
(
DateTimeState(_reflex_internal_init=True).dict(), # type: ignore
{
DateTimeState.get_full_name(): {
"d": "1989-11-09",
"dt": "1989-11-09 18:53:00+01:00",
"t": "18:53:00+01:00",
"td": "11 days, 0:11:00",
"router": formatted_router,
},
},
),
],
)
def test_format_state(input, output):
"""Test that the format state is correct.
Args:
input: The state to format.
output: The expected formatted state.
"""
assert json.loads(format.json_dumps(input)) == json.loads(format.json_dumps(output))
@pytest.mark.parametrize(
"input,output",
[
("input1", "ref_input1"),
("input 1", "ref_input_1"),
("input-1", "ref_input_1"),
("input_1", "ref_input_1"),
("a long test?1! name", "ref_a_long_test_1_name"),
],
)
def test_format_ref(input, output):
"""Test formatting a ref.
Args:
input: The name to format.
output: The expected formatted name.
"""
assert format.format_ref(input) == output
@pytest.mark.parametrize(
"input,output",
[
(("my_array", None), "refs_my_array"),
(("my_array", LiteralVar.create(0)), "refs_my_array[0]"),
(("my_array", LiteralVar.create(1)), "refs_my_array[1]"),
],
)
def test_format_array_ref(input, output):
assert format.format_array_ref(input[0], input[1]) == output
@pytest.mark.parametrize(
"input, output",
[
("library@^0.1.2", "library"),
("library", "library"),
("@library@^0.1.2", "@library"),
("@library", "@library"),
],
)
def test_format_library_name(input: str, output: str):
"""Test formating a library name to remove the @version part.
Args:
input: the input string.
output: the output string.
"""
assert format.format_library_name(input) == output
@pytest.mark.parametrize(
"input,output",
[
(None, "null"),
(True, "true"),
(1, "1"),
(1.0, "1.0"),
([], "[]"),
([1, 2, 3], "[1, 2, 3]"),
({}, "{}"),
({"k1": False, "k2": True}, '{"k1": false, "k2": true}'),
(
[datetime.timedelta(1, 1, 1), datetime.timedelta(1, 1, 2)],
'["1 day, 0:00:01.000001", "1 day, 0:00:01.000002"]',
),
(
{"key1": datetime.timedelta(1, 1, 1), "key2": datetime.timedelta(1, 1, 2)},
'{"key1": "1 day, 0:00:01.000001", "key2": "1 day, 0:00:01.000002"}',
),
],
)
def test_json_dumps(input, output):
assert format.json_dumps(input) == output