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https://github.com/jrnl-org/jrnl.git
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dd74b14d76
* behavior outline * enforce positive initial linewrap Check column widths update gitignore throw error when linewrap too small simply check for large enough linewrap value * delete unused error message * PR feedback make exception more informative update check_linewrap signature in src and test make check_linewrap a free function * delete unused function * delete else..pass block * newline for make format
200 lines
6.5 KiB
Python
200 lines
6.5 KiB
Python
# Copyright (C) 2012-2021 jrnl contributors
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# License: https://www.gnu.org/licenses/gpl-3.0.html
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import json
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import os
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import shutil
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import random
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import string
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from xml.etree import ElementTree
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from behave import given
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from behave import then
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@then("the output should be {width:d} columns wide")
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def check_output_width(context, width):
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out = context.stdout_capture.getvalue()
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out_lines = out.splitlines()
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for line in out_lines:
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assert len(line) <= width
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@then("the output should be parsable as json")
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def check_output_json(context):
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out = context.stdout_capture.getvalue()
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assert json.loads(out), out
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@then('"{field}" in the json output should have {number:d} elements')
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@then('"{field}" in the json output should have 1 element')
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def check_output_field(context, field, number=1):
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out = context.stdout_capture.getvalue()
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out_json = json.loads(out)
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assert field in out_json, [field, out_json]
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assert len(out_json[field]) == number, len(out_json[field])
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@then('"{field}" in the json output should not contain "{key}"')
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def check_output_field_not_key(context, field, key):
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out = context.stdout_capture.getvalue()
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out_json = json.loads(out)
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assert field in out_json
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assert key not in out_json[field]
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@then('"{field}" in the json output should contain "{key}"')
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def check_output_field_key(context, field, key):
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out = context.stdout_capture.getvalue()
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struct = json.loads(out)
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for node in field.split("."):
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try:
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struct = struct[int(node)]
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except ValueError:
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assert node in struct
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struct = struct[node]
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assert key in struct
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@then("the json output should contain {path}")
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@then('the json output should contain {path} = "{value}"')
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def check_json_output_path(context, path, value=None):
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"""E.g.
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the json output should contain entries.0.title = "hello"
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"""
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out = context.stdout_capture.getvalue()
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struct = json.loads(out)
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for node in path.split("."):
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try:
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struct = struct[int(node)]
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except ValueError:
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struct = struct[node]
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if value is not None:
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assert struct == value, struct
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else:
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assert struct is not None
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@then(
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'entry {entry_number:d} should have an array "{name}" with {items_number:d} elements'
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)
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def entry_array_count(context, entry_number, name, items_number):
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# note that entry_number is 1-indexed.
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out = context.stdout_capture.getvalue()
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out_json = json.loads(out)
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assert len(out_json["entries"][entry_number - 1][name]) == items_number
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@then("the output should be a valid XML string")
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def assert_valid_xml_string(context):
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output = context.stdout_capture.getvalue()
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xml_tree = ElementTree.fromstring(output)
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assert xml_tree, output
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@then('"{item}" node in the xml output should have {number:d} elements')
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def assert_xml_output_entries_count(context, item, number):
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output = context.stdout_capture.getvalue()
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xml_tree = ElementTree.fromstring(output)
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xml_tags = (node.tag for node in xml_tree)
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assert item in xml_tags, str(list(xml_tags))
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actual_entry_count = len(xml_tree.find(item))
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assert actual_entry_count == number, actual_entry_count
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@then('there should be {number:d} "{item}" elements')
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def count_elements(context, number, item):
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output = context.stdout_capture.getvalue()
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xml_tree = ElementTree.fromstring(output)
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assert len(xml_tree.findall(".//" + item)) == number
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@then('"tags" in the xml output should contain {expected_tags_json_list}')
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def assert_xml_output_tags(context, expected_tags_json_list):
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output = context.stdout_capture.getvalue()
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xml_tree = ElementTree.fromstring(output)
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xml_tags = (node.tag for node in xml_tree)
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assert "tags" in xml_tags, str(list(xml_tags))
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expected_tags = json.loads(expected_tags_json_list)
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actual_tags = set(t.attrib["name"] for t in xml_tree.find("tags"))
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assert actual_tags == set(expected_tags), [actual_tags, set(expected_tags)]
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@given('we create cache directory "{dir_name}"')
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@given("we create a cache directory")
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def create_directory(context, dir_name=None):
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if not dir_name:
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dir_name = "cache_" + "".join(
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random.choices(string.ascii_uppercase + string.digits, k=20)
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)
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working_dir = os.path.join("features", "cache", dir_name)
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if os.path.exists(working_dir):
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shutil.rmtree(working_dir)
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os.makedirs(working_dir)
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context.cache_dir = dir_name
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@then('cache "{dir_name}" should contain the files')
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@then('cache "{dir_name}" should contain the files {expected_files_json_list}')
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@then("the cache should contain the files")
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def assert_dir_contains_files(context, dir_name=None, expected_files_json_list=""):
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if not dir_name:
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dir_name = context.cache_dir
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working_dir = os.path.join("features", "cache", dir_name)
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actual_files = os.listdir(working_dir)
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expected_files = context.text or expected_files_json_list
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expected_files = expected_files.split("\n")
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# sort to deal with inconsistent default file ordering on different OS's
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actual_files.sort()
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expected_files.sort()
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assert actual_files == expected_files, [actual_files, expected_files]
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@then('the content of file "{file_path}" in cache directory "{cache_dir}" should be')
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@then('the content of file "{file_path}" in the cache should be')
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def assert_exported_yaml_file_content(context, file_path, cache_dir=None):
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if not cache_dir:
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cache_dir = context.cache_dir
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expected_content = context.text.strip().splitlines()
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full_file_path = os.path.join("features", "cache", cache_dir, file_path)
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with open(full_file_path, "r") as f:
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actual_content = f.read().strip().splitlines()
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for actual_line, expected_line in zip(actual_content, expected_content):
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if actual_line.startswith("tags: ") and expected_line.startswith("tags: "):
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assert_equal_tags_ignoring_order(
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actual_line, expected_line, actual_content, expected_content
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)
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else:
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assert actual_line.strip() == expected_line.strip(), [
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[actual_line.strip(), expected_line.strip()],
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[actual_content, expected_content],
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]
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def assert_equal_tags_ignoring_order(
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actual_line, expected_line, actual_content, expected_content
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):
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actual_tags = set(tag.strip() for tag in actual_line[len("tags: ") :].split(","))
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expected_tags = set(
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tag.strip() for tag in expected_line[len("tags: ") :].split(",")
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)
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assert actual_tags == expected_tags, [
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[actual_tags, expected_tags],
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[expected_content, actual_content],
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]
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