def test_rich_comparison_and_len(self):
# dicts for testing
dict_0 = {} # Empty dictionary
dict_1 = {1: 'Elephant'} # Single numeric key
dict_2 = {1: 'Elephant', 2: 'Mouse'} # Multiple numeric keys
# Construct NumDicts from dicts
num_dict = NumDict()
num_dict_0 = NumDict(dict_0)
num_dict_1 = NumDict(dict_1)
num_dict_2 = NumDict(dict_2)
# Construct NumDicts from NumDicts
num_dict_from_num_dict = NumDict(num_dict)
num_dict_from_num_dict_0 = NumDict(num_dict_0)
num_dict_from_num_dict_1 = NumDict(num_dict_1)
num_dict_from_num_dict_2 = NumDict(num_dict_2)
all_dicts = [
dict_0, dict_1, dict_2, num_dict, num_dict_0, num_dict_1,
num_dict_2, num_dict_from_num_dict, num_dict_from_num_dict_0,
num_dict_from_num_dict_1, num_dict_from_num_dict_2
]
for val_a in all_dicts:
for val_b in all_dicts:
self.assertEqual(val_a == val_b, len(val_a) == len(val_b))
class Overview(object):
UNAIRED = UNAIRED # 1
SNATCHED = SNATCHED # 2
WANTED = WANTED # 3
GOOD = DOWNLOADED # 4
SKIPPED = SKIPPED # 5
SNATCHED_PROPER = SNATCHED_PROPER # 9
SNATCHED_BEST = SNATCHED_BEST # 12
# Should suffice!
QUAL = 50
overviewStrings = NumDict({
SKIPPED: "skipped",
WANTED: "wanted",
QUAL: "qual",
GOOD: "good",
UNAIRED: "unaired",
SNATCHED: "snatched",
# we can give these a different class later, otherwise
# breaks checkboxes in displayShow for showing different statuses
SNATCHED_BEST: "snatched",
SNATCHED_PROPER: "snatched"
})
class Quality(object):
"""Determine quality and set status codes."""
NONE = 0 # 0
SDTV = 1 # 1
SDDVD = 1 << 1 # 2
HDTV = 1 << 2 # 4
RAWHDTV = 1 << 3 # 8 -- 720p/1080i mpeg2 (trollhd releases)
FULLHDTV = 1 << 4 # 16 -- 1080p HDTV (QCF releases)
HDWEBDL = 1 << 5 # 32
FULLHDWEBDL = 1 << 6 # 64 -- 1080p web-dl
HDBLURAY = 1 << 7 # 128
FULLHDBLURAY = 1 << 8 # 256
UHD_4K_TV = 1 << 9 # 512 -- 2160p aka 4K UHD aka UHD-1
UHD_4K_WEBDL = 1 << 10 # 1024
UHD_4K_BLURAY = 1 << 11 # 2048
UHD_8K_TV = 1 << 12 # 4096 -- 4320p aka 8K UHD aka UHD-2
UHD_8K_WEBDL = 1 << 13 # 8192
UHD_8K_BLURAY = 1 << 14 # 16384
ANYHDTV = HDTV | FULLHDTV # 20
ANYWEBDL = HDWEBDL | FULLHDWEBDL # 96
ANYBLURAY = HDBLURAY | FULLHDBLURAY # 384
# put these bits at the other end of the spectrum,
# far enough out that they shouldn't interfere
UNKNOWN = 1 << 15 # 32768
qualityStrings = NumDict({
None: "None",
NONE: "N/A",
UNKNOWN: "Unknown",
SDTV: "SDTV",
SDDVD: "SD DVD",
HDTV: "720p HDTV",
RAWHDTV: "RawHD",
FULLHDTV: "1080p HDTV",
HDWEBDL: "720p WEB-DL",
FULLHDWEBDL: "1080p WEB-DL",
HDBLURAY: "720p BluRay",
FULLHDBLURAY: "1080p BluRay",
UHD_4K_TV: "4K UHD TV",
UHD_8K_TV: "8K UHD TV",
UHD_4K_WEBDL: "4K UHD WEB-DL",
UHD_8K_WEBDL: "8K UHD WEB-DL",
UHD_4K_BLURAY: "4K UHD BluRay",
UHD_8K_BLURAY: "8K UHD BluRay",
})
sceneQualityStrings = NumDict({
None: "None",
NONE: "N/A",
UNKNOWN: "Unknown",
SDTV: "",
SDDVD: "",
HDTV: "720p",
RAWHDTV: "1080i",
FULLHDTV: "1080p",
HDWEBDL: "720p",
FULLHDWEBDL: "1080p",
HDBLURAY: "720p BluRay",
FULLHDBLURAY: "1080p BluRay",
UHD_4K_TV: "2160p",
UHD_8K_TV: "4320p",
UHD_4K_WEBDL: "2160p",
UHD_8K_WEBDL: "4320p",
UHD_4K_BLURAY: "2160p BluRay",
UHD_8K_BLURAY: "4320p BluRay",
})
combinedQualityStrings = NumDict({
ANYHDTV: "HDTV",
ANYWEBDL: "WEB-DL",
ANYBLURAY: "BluRay"
})
cssClassStrings = NumDict({
None: "None",
NONE: "N/A",
UNKNOWN: "Unknown",
SDTV: "SDTV",
SDDVD: "SDDVD",
HDTV: "HD720p",
RAWHDTV: "RawHD",
FULLHDTV: "HD1080p",
HDWEBDL: "HD720p",
FULLHDWEBDL: "HD1080p",
HDBLURAY: "HD720p",
FULLHDBLURAY: "HD1080p",
UHD_4K_TV: "UHD-4K",
UHD_8K_TV: "UHD-8K",
UHD_4K_WEBDL: "UHD-4K",
UHD_8K_WEBDL: "UHD-8K",
UHD_4K_BLURAY: "UHD-4K",
UHD_8K_BLURAY: "UHD-8K",
ANYHDTV: "any-hd",
ANYWEBDL: "any-hd",
ANYBLURAY: "any-hd"
})
statusPrefixes = NumDict({
DOWNLOADED: "Downloaded",
SNATCHED: "Snatched",
SNATCHED_PROPER: "Snatched (Proper)",
FAILED: "Failed",
SNATCHED_BEST: "Snatched (Best)",
ARCHIVED: "Archived"
})
@staticmethod
def _get_status_strings(status):
"""
Return string values associated with Status prefix.
:param status: Status prefix to resolve
:return: Human readable status value
"""
to_return = {}
for quality in Quality.qualityStrings:
if quality is not None:
stat = Quality.statusPrefixes[status]
qual = Quality.qualityStrings[quality]
comp = Quality.composite_status(status, quality)
to_return[comp] = '%s (%s)' % (stat, qual)
return to_return
@staticmethod
def combine_qualities(allowed_qualities, preferred_qualities):
any_quality = 0
best_quality = 0
if allowed_qualities:
any_quality = reduce(operator.or_, allowed_qualities)
if preferred_qualities:
best_quality = reduce(operator.or_, preferred_qualities)
return any_quality | (best_quality << 16)
@staticmethod
def split_quality(quality):
if quality is None:
quality = Quality.NONE
allowed_qualities = []
preferred_qualities = []
for cur_qual in Quality.qualityStrings:
if cur_qual is None:
cur_qual = Quality.NONE
if cur_qual & quality:
allowed_qualities.append(cur_qual)
if cur_qual << 16 & quality:
preferred_qualities.append(cur_qual)
return sorted(allowed_qualities), sorted(preferred_qualities)
@staticmethod
def name_quality(name, anime=False, extend=True):
"""
Return The quality from an episode File renamed by the application.
If no quality is achieved it will try scene_quality regex
:param name: to parse
:param anime: Boolean to indicate if the show we're resolving is Anime
:param extend: boolean to extend methods to try
:return: Quality prefix
"""
# Try Scene names first
quality = Quality.scene_quality(name, anime)
if quality != Quality.UNKNOWN:
return quality
# Additional methods to get quality should be added here
if extend:
return Quality._extend_quality(name)
return Quality.UNKNOWN
@staticmethod
def scene_quality(name, anime=False):
"""
Return The quality from the Scene episode File.
:param name: Episode filename to analyse
:param anime: Boolean to indicate if the show we're resolving is Anime
:return: Quality
"""
from .tagger.episode import EpisodeTags
if not name:
return Quality.UNKNOWN
else:
name = path.basename(name)
result = None
ep = EpisodeTags(name)
if anime:
sd_options = tags.anime_sd.search(name)
hd_options = tags.anime_hd.search(name)
full_hd = tags.anime_fullhd.search(name)
ep.rex[u'bluray'] = tags.anime_bluray
# BluRay
if ep.bluray and (full_hd or hd_options):
result = Quality.FULLHDBLURAY if full_hd else Quality.HDBLURAY
# HD TV
elif not ep.bluray and (full_hd or hd_options):
result = Quality.FULLHDTV if full_hd else Quality.HDTV
# SD DVD
elif ep.dvd:
result = Quality.SDDVD
# SD TV
elif sd_options:
result = Quality.SDTV
return Quality.UNKNOWN if result is None else result
# Is it UHD?
if ep.vres in [2160, 4320] and ep.scan == u'p':
# BluRay
full_res = (ep.vres == 4320)
if ep.avc and ep.bluray:
result = Quality.UHD_4K_BLURAY if not full_res else Quality.UHD_8K_BLURAY
# WEB-DL
elif (ep.avc and ep.itunes) or ep.web:
result = Quality.UHD_4K_WEBDL if not full_res else Quality.UHD_8K_WEBDL
# HDTV
elif ep.avc and ep.tv == u'hd':
result = Quality.UHD_4K_TV if not full_res else Quality.UHD_8K_TV
# Is it HD?
elif ep.vres in [1080, 720]:
if ep.scan == u'p':
# BluRay
full_res = (ep.vres == 1080)
if ep.avc and (ep.bluray or ep.hddvd):
result = Quality.FULLHDBLURAY if full_res else Quality.HDBLURAY
# WEB-DL
elif (ep.avc and ep.itunes) or ep.web:
result = Quality.FULLHDWEBDL if full_res else Quality.HDWEBDL
# HDTV
elif ep.avc and ep.tv == u'hd':
result = Quality.FULLHDTV if full_res else Quality.HDTV
elif all([ep.vres == 720, ep.tv == u'hd', ep.mpeg]):
result = Quality.RAWHDTV
elif (ep.res == u'1080i') and ep.tv == u'hd':
if ep.mpeg or (ep.raw and ep.avc_non_free):
result = Quality.RAWHDTV
elif ep.hrws:
result = Quality.HDTV
# Is it SD?
elif ep.xvid or ep.avc:
# Is it aussie p2p? If so its 720p
if all([ep.tv == u'hd', ep.widescreen, ep.aussie]):
result = Quality.HDTV
# SD DVD
elif ep.dvd or ep.bluray:
result = Quality.SDDVD
# SDTV
elif ep.res == u'480p' or any([ep.tv, ep.sat, ep.web]):
result = Quality.SDTV
return Quality.UNKNOWN if result is None else result
@staticmethod
def _extend_quality(file_path):
"""
Try other methods to get the file quality.
:param file_path: File path of episode to analyse
:return: Quality prefix
"""
quality = Quality.quality_from_file_meta(file_path)
if quality != Quality.UNKNOWN:
return quality
# This assumes that any .ts file is RAWHDTV (probably wrong)
if file_path.lower().endswith('.ts'):
return Quality.RAWHDTV
return Quality.UNKNOWN
@staticmethod
def quality_from_file_meta(file_path):
"""
Get quality file file metadata.
:param file_path: File path to analyse
:return: Quality prefix
"""
if not os.path.isfile(file_path):
return Quality.UNKNOWN
knowledge = knowit.know(file_path)
if not knowledge:
return Quality.UNKNOWN
height = None
for track in knowledge.get('video') or []:
height = track.get('height')
if height:
break
if not height:
return Quality.UNKNOWN
height = int(height.magnitude)
# TODO: Use knowledge information like 'resolution'
base_filename = path.basename(file_path)
bluray = re.search(r"blue?-?ray|hddvd|b[rd](rip|mux)", base_filename,
re.I) is not None
webdl = re.search(r"web.?dl|web(rip|mux|hd)", base_filename,
re.I) is not None
ret = Quality.UNKNOWN
if 3240 < height:
ret = ((Quality.UHD_8K_TV, Quality.UHD_8K_BLURAY)[bluray],
Quality.UHD_8K_WEBDL)[webdl]
if 1620 < height <= 3240:
ret = ((Quality.UHD_4K_TV, Quality.UHD_4K_BLURAY)[bluray],
Quality.UHD_4K_WEBDL)[webdl]
elif 800 < height <= 1620:
ret = ((Quality.FULLHDTV, Quality.FULLHDBLURAY)[bluray],
Quality.FULLHDWEBDL)[webdl]
elif 680 < height <= 800:
ret = ((Quality.HDTV, Quality.HDBLURAY)[bluray],
Quality.HDWEBDL)[webdl]
elif height <= 680:
ret = (Quality.SDTV, Quality.SDDVD)[re.search(
r'dvd|b[rd]rip|blue?-?ray', base_filename, re.I) is not None]
return ret
composite_status_quality = namedtuple('composite_status',
['status', 'quality'])
@staticmethod
def composite_status(status, quality):
if quality is None:
quality = Quality.NONE
return status + 100 * quality
@staticmethod
def quality_downloaded(status):
return (status - DOWNLOADED) / 100
@staticmethod
def split_composite_status(status):
"""
Split a composite status code into a status and quality.
:param status: to split
:returns: a namedtuple containing (status, quality)
"""
status = long(status)
if status == UNKNOWN:
return Quality.composite_status_quality(UNKNOWN, Quality.UNKNOWN)
for q in sorted(Quality.qualityStrings.keys(), reverse=True):
if status > q * 100:
return Quality.composite_status_quality(status - q * 100, q)
return Quality.composite_status_quality(status, Quality.NONE)
@staticmethod
def scene_quality_from_name(name, quality):
"""
Get Scene naming parameters from filename and quality.
:param name: filename to check
:type name: text_type
:param quality: int of quality to make sure we get the right release type
:type quality: int
:return: release type and/or encoder type for scene quality naming
:rtype: text_type
"""
rel_type = ''
name = name.lower()
codec = re.search(r'[xh].?26[45]', name) or ''
if codec and codec.group(0).endswith('4') or 'avc' in name:
if codec and codec.group(0).startswith('h'):
codec = ' h264'
else:
codec = ' x264'
elif codec and codec.group(0).endswith('5') or 'hevc' in name:
if codec and codec.group(0).startswith('h'):
codec = ' h265'
else:
codec = ' x265'
elif 'xvid' in name:
codec = ' XviD'
elif 'divx' in name:
codec = ' DivX'
# If any HDTV type or SDTV
if quality in (1, 4, 8, 16, 512, 4096):
rel_type = ' HDTV'
if 'ahdtv' in name:
rel_type = ' AHDTV'
elif 'hr.pdtv' in name:
rel_type = ' HR.PDTV'
elif 'pdtv' in name:
rel_type = ' PDTV'
elif 'satrip' in name:
rel_type = ' SATRip'
elif 'dsr' in name:
rel_type = ' DSR'
elif 'uhdtv' in name:
rel_type = ' UHDTV'
# If SDDVD
if quality == 2:
rel_type = ' BDRip'
if re.search(r'br(-| |\.)?(rip|mux)', name):
rel_type = ' BRRip'
elif re.search(r'dvd(-| |\.)?(rip|mux)', name):
rel_type = ' DVDRip'
# If any WEB type
if quality in (32, 64, 1024, 8192):
rel_type = ' WEB'
if re.search(r'web(-| |\.)?dl', name):
rel_type = ' WEB-DL'
elif re.search(r'web(-| |\.)?(rip|mux)', name):
rel_type = ' WEBRip'
return rel_type + codec
@staticmethod
def status_from_name(name, anime=False):
"""
Get a status object from filename.
:param name: Filename to check
:param anime: boolean to enable anime parsing
:return: Composite status/quality object
"""
quality = Quality.name_quality(name, anime)
return Quality.composite_status(DOWNLOADED, quality)
guessit_map = {
'720p': {
'HDTV': HDTV,
'WEB-DL': HDWEBDL,
'WEBRip': HDWEBDL,
'BluRay': HDBLURAY,
},
'1080i': RAWHDTV,
'1080p': {
'HDTV': FULLHDTV,
'WEB-DL': FULLHDWEBDL,
'WEBRip': FULLHDWEBDL,
'BluRay': FULLHDBLURAY
},
'4K': {
'HDTV': UHD_4K_TV,
'WEB-DL': UHD_4K_WEBDL,
'WEBRip': UHD_4K_WEBDL,
'BluRay': UHD_4K_BLURAY
}
}
to_guessit_format_list = [
ANYHDTV, ANYWEBDL, ANYBLURAY, ANYHDTV | UHD_4K_TV,
ANYWEBDL | UHD_4K_WEBDL, ANYBLURAY | UHD_4K_BLURAY
]
to_guessit_screen_size_map = {
HDTV | HDWEBDL | HDBLURAY: '720p',
RAWHDTV: '1080i',
FULLHDTV | FULLHDWEBDL | FULLHDBLURAY: '1080p',
UHD_4K_TV | UHD_4K_WEBDL | UHD_4K_BLURAY: '4K',
}
@staticmethod
def should_search(status, show_obj, manually_searched):
"""Return true if that episodes should be search for a better quality.
If cur_quality is Quality.NONE, it will return True as its a invalid quality
If cur_quality is Quality.UNKNOWN it will return True only if is not in Allowed (Unknown can be in Allowed)
:param status: current status of the episode
:param show_obj: Series object of the episode we will check if we should search or not
:param manually_searched: if episode was manually searched by user
:return: True if need to run a search for given episode
"""
cur_status, cur_quality = Quality.split_composite_status(
int(status) or UNKNOWN)
allowed_qualities, preferred_qualities = show_obj.current_qualities
# When user manually searched, we should consider this as final quality.
if manually_searched:
return False, 'Episode was manually searched. Skipping episode'
# Can't be SNATCHED_BEST because the quality is already final (unless user changes qualities).
# All other status will return false: IGNORED, SKIPPED, FAILED.
if cur_status not in (WANTED, DOWNLOADED, SNATCHED, SNATCHED_PROPER,
SNATCHED_BEST):
return False, 'Status is not allowed: {0}. Skipping episode'.format(
statusStrings[cur_status])
# If current status is WANTED, we must always search
if cur_status != WANTED:
if cur_quality not in allowed_qualities + preferred_qualities:
return True, 'Quality is not in Allowed|Preferred. Searching episode'
elif preferred_qualities:
if cur_quality in preferred_qualities:
return False, 'Quality is already Preferred. Skipping episode'
else:
return True, 'Quality is not Preferred. Searching episode'
elif cur_quality in allowed_qualities:
return False, 'Quality is already Allowed. Skipping episode'
else:
return True, 'Status is WANTED. Searching episode'
return False, 'No rule set to allow the search'
@staticmethod
def should_replace(ep_status,
old_quality,
new_quality,
allowed_qualities,
preferred_qualities,
download_current_quality=False,
force=False,
manually_searched=False,
search_type=None):
"""Return true if the old quality should be replaced with new quality.
If not preferred qualities, then any downloaded quality is final
if preferred quality, then new quality should be higher than existing one AND not be in preferred
If new quality is already in preferred then is already final quality.
Force (forced search) bypass episode status only or unknown quality
If old quality is Quality.NONE, it will be replaced
:param ep_status: current status of the episode
:param old_quality: current quality of the episode
:param new_quality: quality of the episode we found it and check if we should snatch it
:param allowed_qualities: List of selected allowed qualities of the show we are checking
:param preferred_qualities: List of selected preferred qualities of the show we are checking
:param download_current_quality: True if user wants the same existing quality to be snatched
:param force: True if user did a forced search for that episode
:param manually_searched: True if episode was manually searched by user
:param search_type: The search type, that started this method
:return: True if the old quality should be replaced with new quality.
"""
if ep_status and ep_status not in Quality.DOWNLOADED + Quality.SNATCHED + Quality.SNATCHED_PROPER:
if not force:
return False, 'Episode status is not DOWNLOADED|SNATCHED|SNATCHED PROPER. Ignoring new quality'
# If existing quality is UNKNOWN but Preferred is set, UNKNOWN should be replaced.
if old_quality == Quality.UNKNOWN:
if not (force or preferred_qualities):
return False, 'Existing quality is UNKNOWN. Ignoring new quality'
if manually_searched:
if not force:
# We only allow replace a manual searched episode if is a forced search
return False, 'Existing episode quality was manually snatched. Ignoring all new qualities'
if not Quality.wanted_quality(new_quality, allowed_qualities,
preferred_qualities):
return False, 'New quality is not in any wanted quality lists. Ignoring new quality'
if search_type == PROPER_SEARCH:
if new_quality == old_quality:
return True, 'New quality is the same as the existing quality. Accepting PROPER'
return False, 'New quality is different from the existing quality.' \
'Ignoring PROPER, as we only PROPER the same release.'
if old_quality not in allowed_qualities + preferred_qualities:
# If old quality is no longer wanted quality and new quality is wanted, we should replace.
return True, 'Existing quality is no longer in any wanted quality lists. Accepting new quality'
if force and download_current_quality:
# If we already downloaded quality, just redownload it as long is still part of the wanted qualities
return new_quality == old_quality, 'Redownloading same quality'
if preferred_qualities:
# Don't replace because old quality is already best quality.
if old_quality in preferred_qualities:
return False, 'Existing quality is already a preferred quality. Ignoring new quality'
# Old quality is not final. Check if we should replace:
# Replace if preferred quality
if new_quality in preferred_qualities:
return True, 'New quality is preferred. Accepting new quality'
return False, 'New quality is same/lower quality (and not preferred). Ignoring new quality'
else:
# Allowed quality should never be replaced
return False, 'Existing quality is already final (allowed only). Ignoring new quality'
@staticmethod
def is_higher_quality(current_quality, new_quality, allowed_qualities,
preferred_qualities):
"""Check is new quality is better than current quality based on allowed and preferred qualities."""
if new_quality in preferred_qualities:
return new_quality > current_quality
elif new_quality in allowed_qualities:
if current_quality in preferred_qualities:
return False
return new_quality > current_quality
@staticmethod
def wanted_quality(new_quality, allowed_qualities, preferred_qualities):
"""Check if new quality is wanted."""
return new_quality in allowed_qualities + preferred_qualities
@staticmethod
def from_guessit(guess):
"""
Return a Quality from a guessit dict.
:param guess: guessit dict
:type guess: dict
:return: quality
:rtype: int
"""
screen_size = guess.get('screen_size')
fmt = guess.get('format')
if not screen_size or isinstance(screen_size, list):
return Quality.UNKNOWN
format_map = Quality.guessit_map.get(screen_size)
if not format_map:
return Quality.UNKNOWN
if isinstance(format_map, int):
return format_map
if not fmt or isinstance(fmt, list):
return Quality.UNKNOWN
quality = format_map.get(fmt)
return quality if quality is not None else Quality.UNKNOWN
@staticmethod
def to_guessit(status):
"""Return a guessit dict containing 'screen_size and format' from a Quality (composite status).
:param status: a quality composite status
:type status: int
:return: dict {'screen_size': <screen_size>, 'format': <format>}
:rtype: dict (str, str)
"""
_, quality = Quality.split_composite_status(status)
screen_size = Quality.to_guessit_screen_size(quality)
fmt = Quality.to_guessit_format(quality)
result = dict()
if screen_size:
result['screen_size'] = screen_size
if fmt:
result['format'] = fmt
return result
@staticmethod
def to_guessit_format(quality):
"""Return a guessit format from a Quality.
:param quality: the quality
:type quality: int
:return: guessit format
:rtype: str
"""
for q in Quality.to_guessit_format_list:
if quality & q:
key = q & (
512 - 1
) # 4k formats are bigger than 384 and are not part of ANY* bit set
return Quality.combinedQualityStrings.get(key)
@staticmethod
def to_guessit_screen_size(quality):
"""Return a guessit screen_size from a Quality.
:param quality: the quality
:type quality: int
:return: guessit screen_size
:rtype: str
"""
for key, value in Quality.to_guessit_screen_size_map.items():
if quality & key:
return value
DOWNLOADED = None
SNATCHED = None
SNATCHED_PROPER = None
FAILED = None
SNATCHED_BEST = None
ARCHIVED = None
# Notification Types
NOTIFY_SNATCH = 1
NOTIFY_DOWNLOAD = 2
NOTIFY_SUBTITLE_DOWNLOAD = 3
NOTIFY_GIT_UPDATE = 4
NOTIFY_GIT_UPDATE_TEXT = 5
NOTIFY_LOGIN = 6
NOTIFY_LOGIN_TEXT = 7
NOTIFY_SNATCH_PROPER = 8
notifyStrings = NumDict({
NOTIFY_SNATCH: "Started Download",
NOTIFY_DOWNLOAD: "Download Finished",
NOTIFY_SUBTITLE_DOWNLOAD: "Subtitle Download Finished",
NOTIFY_GIT_UPDATE: "Medusa Updated",
NOTIFY_GIT_UPDATE_TEXT: "Medusa Updated To Commit#: ",
NOTIFY_LOGIN: "******",
NOTIFY_LOGIN_TEXT:
"New login from IP: {0}. http://geomaplookup.net/?ip={0}",
NOTIFY_SNATCH_PROPER: "Started PROPER Download"
})
# Episode statuses
UNKNOWN = -1 # should never happen
UNAIRED = 1 # episodes that haven't aired yet
SNATCHED = 2 # qualified with quality
WANTED = 3 # episodes we don't have but want to get
DOWNLOADED = 4 # qualified with quality
SKIPPED = 5 # episodes we don't want
ARCHIVED = 6 # non-local episodes (counts toward download completion stats)
IGNORED = 7 # episodes that you don't want included in your download stats
def __init__(self):
# An instance variable __missing__ should have no effect
self.__missing__ = lambda key: None
NumDict.__init__(self)
def test_dict_access_and_mod(self): # pylint: disable=too-many-locals, too-many-statements
# dicts for testing
dict_0 = {} # Empty dictionary
dict_1 = {1: 'Elephant'} # Single numeric key
dict_2 = {1: 'Elephant', 2: 'Mouse'} # Multiple numeric keys
# Construct NumDicts from dicts
num_dict_0 = NumDict()
num_dict_1 = NumDict(dict_1)
num_dict_2 = NumDict(dict_2)
# test __getitem__
self.assertEqual(num_dict_2[1], 'Elephant')
with self.assertRaises(KeyError):
print(num_dict_1['Mouse']) # key is not numeric
with self.assertRaises(KeyError):
num_dict_1.__getitem__('Mouse') # key is not numeric
with self.assertRaises(KeyError):
print(num_dict_1[None]) # key does not exist
with self.assertRaises(KeyError):
num_dict_1.__getitem__(None) # key does not exist
# Test __setitem__
num_dict_3 = NumDict(num_dict_2)
self.assertEqual(num_dict_2, num_dict_3)
num_dict_3[2] = 'Frog'
self.assertNotEqual(num_dict_2, num_dict_3)
# Check None keys and numeric key conversion
num_dict_3['3'] = 'Armadillo'
num_dict_3[None] = 'Cockroach'
# Check long ints
num_dict_3[12390809518259081208909880312] = 'Squid'
num_dict_3['12390809518259081208909880312'] = 'Octopus'
self.assertEqual(num_dict_3[12390809518259081208909880312], 'Octopus')
with self.assertRaises(TypeError):
num_dict_3.__setitem__('Gorilla', 1) # key is not numeric
with self.assertRaises(TypeError):
num_dict_3['Chimpanzee'] = 1 # key is not numeric
with self.assertRaises(TypeError):
num_dict_3[(4, 1)] = 1 # key is not numeric
with self.assertRaises(TypeError):
num_dict_3[[1, 3, 4]] = 1 # key is not numeric and is not hashable
# Test __delitem__
del num_dict_3[3]
del num_dict_3[None]
with self.assertRaises(KeyError):
del num_dict_3[3] # already deleted
with self.assertRaises(KeyError):
num_dict_3.__delitem__(3) # already deleted
with self.assertRaises(KeyError):
del num_dict_3[
'Mouse'] # key would not exist, since it is not numeric
# Test clear
num_dict_3.clear()
self.assertEqual(num_dict_3, {})
# Test copy()
num_dict_2a = dict_2.copy()
self.assertEqual(num_dict_2, num_dict_2a)
num_dict_2b = num_dict_2.copy()
self.assertEqual(num_dict_2b, num_dict_2)
num_dict_2c = UserDict({1: 'Elephant', 2: 'Mouse'})
num_dict_2d = num_dict_2c.copy(
) # making a copy of a UserDict is special cased
self.assertEqual(num_dict_2c, num_dict_2d)
class MyNumDict(NumDict):
"""Subclass Numdict for testing."""
def display(self):
"""Add a method to subclass to differentiate from superclass."""
print('MyNumDict:', self)
my_num_dict = MyNumDict(num_dict_2)
my_num_dict_a = my_num_dict.copy()
self.assertEqual(my_num_dict_a, my_num_dict)
my_num_dict[1] = 'Frog'
self.assertNotEqual(my_num_dict_a, my_num_dict)
# Test keys, items, values
self.assertEqual(sorted(num_dict_2.keys()), sorted(dict_2.keys()))
self.assertEqual(sorted(num_dict_2.items()), sorted(dict_2.items()))
self.assertEqual(sorted(num_dict_2.values()), sorted(dict_2.values()))
# Test "in".
for i in num_dict_2:
self.assertIn(i, num_dict_2)
self.assertEqual(i in num_dict_1, i in dict_1)
self.assertEqual(i in num_dict_0, i in dict_0)
self.assertFalse(None in num_dict_2)
self.assertEqual(None in num_dict_2, None in dict_2)
dict_2[None] = 'Cow'
num_dict_2[None] = dict_2[None]
self.assertTrue(None in num_dict_2)
self.assertEqual(None in num_dict_2, None in dict_2)
self.assertFalse('Penguin' in num_dict_2)
# Test update
test = NumDict()
test.update(dict_2)
self.assertEqual(test, num_dict_2)
# Test get
for i in num_dict_2:
self.assertEqual(num_dict_2.get(i), num_dict_2[i])
self.assertEqual(num_dict_1.get(i), dict_1.get(i))
self.assertEqual(num_dict_0.get(i), dict_0.get(i))
for i in ['purple', None, 12312301924091284, 23]:
self.assertEqual(num_dict_2.get(i), dict_2.get(i), i)
with self.assertRaises(AssertionError):
i = '1'
self.assertEqual(
num_dict_2.get(i), dict_2.get(i),
i) # dict_2 expects string key which does not exist
# Test "in" iteration.
num_dict_2b = num_dict_2
for i in range(20):
num_dict_2[i] = str(i)
num_dict_2b[str(i)] = str(i)
self.assertEqual(num_dict_2, num_dict_2b)
ikeys = []
for k in num_dict_2:
ikeys.append(k)
self.assertEqual(set(ikeys), set(num_dict_2.keys()))
# Test setdefault
val = 1
test = NumDict()
self.assertEqual(test.setdefault(val, 42), 42)
self.assertEqual(test.setdefault(val, '42'), 42)
self.assertNotEqual(test.setdefault(val, 42), '42')
self.assertNotEqual(test.setdefault(val, '42'), '42')
self.assertIn(val, test)
self.assertEqual(test.setdefault(val, 23), 42)
self.assertEqual(test.setdefault(val, '23'), 42)
self.assertNotEqual(test.setdefault(val, 23), '42')
self.assertNotEqual(test.setdefault(val, '23'), '42')
self.assertIn(val, test)
# Test pop
val = 1
test = NumDict({val: 42})
self.assertEqual(test.pop(val), 42)
self.assertRaises(KeyError, test.pop, val)
self.assertEqual(test.pop(val, 1), 1)
test[val] = 42
self.assertEqual(test.pop(val, 1), 42)
# Test popitem
val = 1
test = NumDict({val: 42})
self.assertEqual(test.popitem(), (val, 42))
self.assertRaises(KeyError, test.popitem)
def test_constructors(self): # pylint: disable=too-many-locals, too-many-statements
# dicts for testing
dict_0 = {} # Empty dictionary
dict_1 = {1: 'Elephant'} # Single numeric key
dict_2 = {1: 'Elephant', 2: 'Mouse'} # Multiple numeric keys
dict_3 = {'3': 'Aardvark'} # Numeric string key
dict_4 = {'3': 'Aardvark', '4': 'Ant'} # Multiple numeric string keys
dict_5 = {
5: 'Cat',
'6': 'Dog'
} # Mixed numeric and numeric string keys
dict_6 = {1: None, '2': None} # None as values
dict_7 = {None: 'Empty'} # None as key
# Construct NumDicts from dicts
num_dict = NumDict()
num_dict_0 = NumDict(dict_0)
num_dict_1 = NumDict(dict_1)
num_dict_2 = NumDict(dict_2)
num_dict_3 = NumDict(dict_3)
num_dict_4 = NumDict(dict_4)
num_dict_5 = NumDict(dict_5)
num_dict_6 = NumDict(dict_6)
num_dict_7 = NumDict(dict_7)
# Most NumDicts from dicts should compare equal...
self.assertEqual(num_dict, {})
self.assertEqual(num_dict_0, dict_0)
self.assertEqual(num_dict_1, dict_1)
self.assertEqual(num_dict_2, dict_2)
# ...however, numeric keys are not equal to numeric string keys...
self.assertNotEqual(num_dict_3, dict_3)
self.assertNotEqual(num_dict_4, dict_4)
self.assertNotEqual(num_dict_5, dict_5)
self.assertNotEqual(num_dict_6, dict_6)
# ...but None keys work just fine
self.assertEqual(num_dict_7, dict_7)
# Construct dicts from NumDicts
dict_from_num_dict = dict(num_dict)
dict_from_num_dict_1 = dict(num_dict_1)
dict_from_num_dict_2 = dict(num_dict_2)
dict_from_num_dict_3 = dict(num_dict_3)
dict_from_num_dict_4 = dict(num_dict_4)
dict_from_num_dict_5 = dict(num_dict_5)
dict_from_num_dict_6 = dict(num_dict_6)
dict_from_num_dict_7 = dict(num_dict_7)
# All dicts from NumDicts should compare equal
self.assertEqual(num_dict, dict_from_num_dict)
self.assertEqual(num_dict_1, dict_from_num_dict_1)
self.assertEqual(num_dict_2, dict_from_num_dict_2)
self.assertEqual(num_dict_3, dict_from_num_dict_3)
self.assertEqual(num_dict_4, dict_from_num_dict_4)
self.assertEqual(num_dict_5, dict_from_num_dict_5)
self.assertEqual(num_dict_6, dict_from_num_dict_6)
self.assertEqual(num_dict_7, dict_from_num_dict_7)
# Construct NumDicts from NumDicts
num_dict_from_num_dict = NumDict(num_dict)
num_dict_from_num_dict_0 = NumDict(num_dict_0)
num_dict_from_num_dict_1 = NumDict(num_dict_1)
num_dict_from_num_dict_2 = NumDict(num_dict_2)
num_dict_from_num_dict_3 = NumDict(num_dict_3)
num_dict_from_num_dict_4 = NumDict(num_dict_4)
num_dict_from_num_dict_5 = NumDict(num_dict_5)
num_dict_from_num_dict_6 = NumDict(num_dict_6)
num_dict_from_num_dict_7 = NumDict(num_dict_7)
# All NumDicts from NumDicts should compare equal
self.assertEqual(num_dict, num_dict_from_num_dict)
self.assertEqual(num_dict_0, num_dict_from_num_dict_0)
self.assertEqual(num_dict_1, num_dict_from_num_dict_1)
self.assertEqual(num_dict_2, num_dict_from_num_dict_2)
self.assertEqual(num_dict_3, num_dict_from_num_dict_3)
self.assertEqual(num_dict_4, num_dict_from_num_dict_4)
self.assertEqual(num_dict_5, num_dict_from_num_dict_5)
self.assertEqual(num_dict_6, num_dict_from_num_dict_6)
self.assertEqual(num_dict_7, num_dict_from_num_dict_7)
# keyword arg constructor should fail
with self.assertRaises(TypeError):
NumDict(
one=1,
two=2) # Raise TypeError since we can't have numeric keywords
# item sequence constructors work fine...
self.assertEqual(NumDict([(1, 'Elephant'), (2, 'Mouse')]),
dict_from_num_dict_2)
self.assertEqual(NumDict(dict=[(1, 'Elephant'), (2, 'Mouse')]),
dict_from_num_dict_2)
self.assertEqual(NumDict([(1, 'Elephant'), ('2', 'Mouse')]),
dict_from_num_dict_2)
self.assertEqual(NumDict(dict=[('1', 'Elephant'), (2, 'Mouse')]),
dict_from_num_dict_2)
# ...unless you have a non-numeric key
with self.assertRaises(TypeError):
NumDict([('Rat', 11), ('Snake', 12)])
with self.assertRaises(TypeError):
NumDict(dict=[('Rat', 11), ('Snake', 12)])
# combining item sequence constructors with keyword args does not work
with self.assertRaises(
TypeError
): # Raise TypeError since we can't have numeric keywords
NumDict([(1, 'one'), (2, 'two')], two=3, five=4)
# alternate constructors
dict_8 = {1: 'Echo', 2: 'Echo'}
self.assertEqual(NumDict.fromkeys('1 2'.split()), dict_from_num_dict_6)
self.assertEqual(NumDict().fromkeys('1 2'.split()),
dict_from_num_dict_6)
self.assertEqual(NumDict.fromkeys('1 2'.split(), 'Echo'), dict_8)
self.assertEqual(NumDict().fromkeys('1 2'.split(), 'Echo'), dict_8)
self.assertTrue(num_dict_1.fromkeys('1 2'.split()) is not num_dict_1)
self.assertIsInstance(num_dict_1.fromkeys('1 2'.split()), NumDict)
self.assertIsInstance(num_dict_2.fromkeys('1 2'.split()), NumDict)
self.assertIsInstance(num_dict_3.fromkeys('1 2'.split()), NumDict)
self.assertIsInstance(num_dict_4.fromkeys('1 2'.split()), NumDict)
def test_repr(self): # pylint: disable=too-many-locals
# dicts for testing
dict_0 = {} # Empty dictionary
dict_1 = {1: 'Elephant'} # Single numeric key
dict_2 = {1: 'Elephant', 2: 'Mouse'} # Multiple numeric keys
dict_3 = {'3': 'Aardvark'} # Numeric string key
dict_4 = {'3': 'Aardvark', '4': 'Ant'} # Multiple numeric string keys
dict_5 = {
5: 'Cat',
'6': 'Dog'
} # Mixed numeric and numeric string keys
dict_6 = {1: None, '2': None} # None as values
dict_7 = {None: 'Empty'} # None as key
# Construct NumDicts from dicts
num_dict = NumDict()
num_dict_0 = NumDict(dict_0)
num_dict_1 = NumDict(dict_1)
num_dict_2 = NumDict(dict_2)
num_dict_3 = NumDict(dict_3)
num_dict_4 = NumDict(dict_4)
num_dict_5 = NumDict(dict_5)
num_dict_6 = NumDict(dict_6)
num_dict_7 = NumDict(dict_7)
reps = (
"{}",
"{1: 'Elephant'}",
"{1: 'Elephant', 2: 'Mouse'}",
"'3': 'Aardvark'",
"{'3': 'Aardvark', '4': 'Ant'}",
"{5: 'Cat', '6': 'Dog'}",
"{1: None, '2': None}",
"{None: 'Empty'}",
)
# Most representations of NumDicts should compare equal to dicts...
self.assertEqual(str(num_dict), str({}))
self.assertEqual(repr(num_dict), repr({}))
self.assertIn(repr(num_dict), reps)
self.assertEqual(str(num_dict_0), str(dict_0))
self.assertEqual(repr(num_dict_0), repr(dict_0))
self.assertIn(repr(num_dict_0), reps)
self.assertEqual(str(num_dict_1), str(dict_1))
self.assertEqual(repr(num_dict_1), repr(dict_1))
self.assertIn(repr(num_dict_1), reps)
self.assertEqual(str(num_dict_2), str(dict_2))
self.assertEqual(repr(num_dict_2), repr(dict_2))
self.assertIn(repr(num_dict_2), reps)
# ...however, numeric keys are not equal to numeric string keys...
# ...so the string representations for those are different...
self.assertNotEqual(str(num_dict_3), str(dict_3))
self.assertNotEqual(repr(num_dict_3), repr(dict_3))
self.assertNotIn(repr(num_dict_3), reps)
self.assertNotEqual(str(num_dict_4), str(dict_4))
self.assertNotEqual(repr(num_dict_4), repr(dict_4))
self.assertNotIn(repr(num_dict_4), reps)
self.assertNotEqual(str(num_dict_5), str(dict_5))
self.assertNotEqual(repr(num_dict_5), repr(dict_5))
self.assertNotIn(repr(num_dict_5), reps)
self.assertNotEqual(str(num_dict_6), str(dict_6))
self.assertNotEqual(repr(num_dict_6), repr(dict_6))
self.assertNotIn(repr(num_dict_6), reps)
# ...but None keys work just fine
self.assertEqual(str(num_dict_7), str(dict_7))
self.assertEqual(repr(num_dict_7), repr(dict_7))
self.assertIn(repr(num_dict_7), reps)
