removed venv

This commit is contained in:
tcaxle 2020-04-15 16:51:35 +01:00
parent 052b2fd7cd
commit ba83175aff
5856 changed files with 0 additions and 659862 deletions

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.venv
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venv/bin/activate

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from django.db import models
from polymorphic.models import PolymorphicModel
import multiselectfield
from random import randint
from math import ceil
#==============================================================================#
#-------------------------------- OPTION LISTS --------------------------------#
#==============================================================================#
ATTRIBUTES = [
(
"Physical", (
("STR", "Strength"),
("DEX", "Dexterity"),
("STA", "Stamina"),
),
),
(
"Social", (
("CHA", "Charisma"),
("MAN", "Manipulation"),
("APP", "Appearance"),
),
),
(
"Mental", (
("PER", "Perception"),
("INT", "Intelligence"),
("WIT", "Wits"),
),
),
]
ABILITIES = [
(
"War", (
("ARCHERY", "Archery"),
("ATHLETICS", "Athletics"),
("AWARENESS", "Awareness"),
("BRAWL", "Brawl"),
("DODGE", "Dodge"),
("INTEGRITY", "Integrity"),
("MELEE", "Melee"),
("RESISTANCE", "Resistance"),
("THROWN", "Thrown"),
("WAR", "War"),
),
),
(
"Life", (
("CRAFT", "Craft"),
("LARCENY", "Larceny"),
("LINGUISTICS", "Linguistics"),
("PERFORMANCE", "Performance"),
("PRESENCE", "Presence"),
("RIDE", "Ride"),
("SAIL", "Sail"),
("SOCIALISE", "Socialise"),
("STEALTH", "Stealth"),
("SURVIVAL", "Survival"),
),
),
(
"Wisdom", (
("BUREAUCRACY", "Bureaucracy"),
("INVESTIGATION", "Investigation"),
("LORE", "Lore"),
("MEDICINE", "Medicine"),
("OCCULT", "Occult"),
),
),
]
STATICS = [
("SOAK NATURAL", "Natural Soak"),
("SOAK ARMORED", "Armored Soak"),
("SOAK TOTAL", "Total Soak"),
("HARDNESS", "Hardness"),
("PARRY", "Parry"),
("EVASION", "Evasion"),
("RESOLVE", "Resolve"),
("GUILE", "Guile"),
("RUSH", "Rush"),
("DISENGAGE", "Disengage"),
("JOIN BATTLE", "Join Battle"),
]
CATEGORIES = [
("L", "Light"),
("M", "Medium"),
("H", "Heavy"),
]
TAGS_WEAPONS = [
(
"General", (
("ONE HANDED", "One Handed"),
("TWO HANDED", "Two Handed"),
("BASHING", "Bashing"),
("CONCEALABLE", "Concealable"),
("LETHAL", "Lethal"),
("MOUNTED", "Mounted"),
("PIERCING", "Piercing"),
("SPECIAL", "Special"),
),
),
(
"Melee", (
("MELEE", "Melee"),
("BALANCED", "Balanced"),
("BRAWL", "Brawl"),
("CHOPPING", "Chopping"),
("DISARMING", "Disarming"),
("FLEXIBLE", "Flexible"),
("IMPROVISED", "Improvised"),
("GRAPPLING", "Grappling"),
("MARTIAL ARTS", "Martial Arts"),
("NATURAL", "Natural"),
("REACHING", "Reaching"),
("SHIELD", "Shield"),
("SMASHING", "Smashing"),
("WORN", "Worn"),
),
),
(
"Thrown", (
("THROWN", "Occult"),
("CUTTING", "Cutting"),
("POISONABLE", "Poisonable"),
("SUBTLE", "Subtle"),
),
),
(
"Archery", (
("ARCHERY", "Archery"),
("CROSSBOW", "Crossbow"),
("FLAME", "Flame"),
("POWERFUL", "Powerful"),
("SLOW", "Slow"),
),
),
]
TAGS_ARMOR = [
("BUOYANT", "Buoyant"),
("CONCEALABLE", "Concealable"),
("SILENT", "Silent"),
]
INTENSITIES = [
("MINOR", "Minor"),
("MAJOR", "Major"),
("DEFINING", "Defining"),
]
DIE_TYPES = [
("NONE", "None"),
("SUCCESS", "Success"),
("DOUBLE", "Double"),
("EXPLODING_DISAPPEARING", "Exploding / Disappearing"),
("SUBTRACTING", "Subtracting")
]
#==============================================================================#
#------------------------------- CUSTOM MODELS --------------------------------#
#==============================================================================#
class NameField(models.CharField):
def __init__(self, *args, **kwargs):
kwargs['verbose_name'] = "Name"
kwargs['blank'] = False
kwargs['max_length'] = 100
super().__init__(*args, **kwargs)
class DescriptionField(models.TextField):
def __init__(self, *args, **kwargs):
kwargs['verbose_name'] = "Description"
kwargs['blank'] = True
kwargs['max_length'] = 1000
super().__init__(*args, **kwargs)
class DotField(models.IntegerField):
def __init__(self, verbose_name, *args, **kwargs):
kwargs['verbose_name'] = verbose_name
kwargs['blank'] = False
kwargs['default'] = 0
super().__init__(*args, **kwargs)
class SingleChoiceField(models.CharField):
def __init__(self, verbose_name, choices, *args, **kwargs):
kwargs['verbose_name'] = verbose_name
kwargs['choices'] = choices
kwargs['blank'] = True
kwargs['max_length'] = 100
super().__init__(*args, **kwargs)
class MultiChoiceField(multiselectfield.MultiSelectField):
def __init__(self, verbose_name, choices, *args, **kwargs):
kwargs['verbose_name'] = verbose_name
kwargs['choices'] = choices
kwargs['blank'] = True
kwargs['max_length'] = 100
super().__init__(*args, **kwargs)
class NamedIntegerField(models.IntegerField):
def __init__(self, verbose_name, desc=None, *args, **kwargs):
kwargs['verbose_name'] = verbose_name
kwargs['help_text'] = desc
kwargs['blank'] = False
kwargs['default'] = 0
super().__init__(*args, **kwargs)
class NamedCharField(models.CharField):
def __init__(self, verbose_name, *args, **kwargs):
kwargs['verbose_name'] = verbose_name
kwargs['blank'] = False
kwargs['max_length'] = 100
super().__init__(*args, **kwargs)
class DieField(multiselectfield.MultiSelectField):
def __init__(self, verbose_name, number, default, *args, **kwargs):
self.number = number
kwargs['verbose_name'] = verbose_name
kwargs['default'] = default
kwargs['choices'] = DIE_TYPES
kwargs['blank'] = False
kwargs['max_length'] = 100
super().__init__(*args, **kwargs)
def deconstruct(self):
name, path, args, kwargs = super().deconstruct()
kwargs['number'] = self.number
return name, path, args, kwargs
class NamedBooleanField(models.BooleanField):
def __init__(self, verbose_name, default=False, *args, **kwargs):
kwargs['verbose_name'] = verbose_name
kwargs['default'] = default
kwargs['blank'] = False
super().__init__(*args, **kwargs)
class NamedForeignKeyField(models.ForeignKey):
def __init__(self, verbose_name, *args, **kwargs):
kwargs['verbose_name'] = verbose_name
kwargs['on_delete'] = models.CASCADE
kwargs['blank'] = True
kwargs['null'] = True
super().__init__(*args, **kwargs)
class NamedManyToManyField(models.ManyToManyField):
def __init__(self, verbose_name, *args, **kwargs):
kwargs['verbose_name'] = verbose_name
kwargs['blank'] = True
super().__init__(*args, **kwargs)
class NamedOneToOneField(models.OneToOneField):
def __init__(self, verbose_name, *args, **kwargs):
kwargs['verbose_name'] = verbose_name
kwargs['on_delete'] = models.CASCADE
kwargs['blank'] = True
kwargs['null'] = True
super().__init__(*args, **kwargs)
#==============================================================================#
#-------------------------------- DICE ROLLING --------------------------------#
#==============================================================================#
class rollConfiguration(PolymorphicModel):
def __str__(self):
return self.name
name = NameField()
successesAuto = NamedIntegerField("Auto-Successes")
r01 = DieField("1s", 1, ["NONE"])
r02 = DieField("2s", 2, ["NONE"])
r03 = DieField("3s", 3, ["NONE"])
r04 = DieField("4s", 4, ["NONE"])
r05 = DieField("5s", 5, ["NONE"])
r06 = DieField("6s", 6, ["NONE"])
r07 = DieField("7s", 7, ["SUCCESS"])
r08 = DieField("8s", 8, ["SUCCESS"])
r09 = DieField("9s", 9, ["SUCCESS"])
r10 = DieField("10s", 10, ["SUCCESS", "DOUBLE"])
def roll(self, pool=1, successesStunt=0):
listDice = [
self.r01,
self.r02,
self.r03,
self.r04,
self.r05,
self.r06,
self.r07,
self.r08,
self.r09,
self.r10,
]
listSuccess, listDouble, listExplodingDisappearing, listSubtracting = [], [], [], []
for die in listDice:
if "SUCCESS" in die:
listSuccess.append(die.number)
if "DOUBLE" in die:
listDouble.append(die.number)
if "EXPLODING_DISAPPEARING" in die:
listExplodingDisappearing.append(die.number)
if "SUBTRACTING" in die:
listSubtracting.append(die.number)
successes = self.successesAuto + successesStunt
listExploded, listDisappeared = [], []
listRoll = [0 for die in range(pool)]
while 0 in listRoll:
for die in listRoll:
if die == 0:
die = randint(1, 10)
if die in listExplodingDisappearing:
if die in listSuccess:
listExploded.append(die)
else:
listDisappeared.append(die)
die = 0
for die in listRoll + listExploded:
if die in listSuccess:
successes += 1
if die in listDouble:
successes += 1
if die in listSubtracting:
successes -= 1
if successes < 0:
successes = 0
botch = (successes == 0) and (1 in listRoll)
return successes, botch, listRoll, listExploded, listDisappeared
#==============================================================================#
#--------------------------------- MODIFIERS ----------------------------------#
#==============================================================================#
class modifierBase(PolymorphicModel):
value = NamedIntegerField("Modifier Value")
class modifierAttribute(modifierBase):
def __str__(self):
return "{} [{}]".format(self.keyword, self.value)
keyword = SingleChoiceField("Attribute", ATTRIBUTES)
class modifierAbility(modifierBase):
def __str__(self):
return "{} [{}]".format(self.keyword, self.value)
keyword = SingleChoiceField("Ability", ABILITIES)
class modifierStatic(modifierBase):
def __str__(self):
return "{} [{}]".format(self.keyword, self.value)
keyword = SingleChoiceField("Static", STATICS)
#==============================================================================#
#--------------------------------- CHARACTERS ---------------------------------#
#==============================================================================#
class characterBase(PolymorphicModel):
def __str__(self):
return self.name
#======== MODIFIER METHODS ========#
def effectModifier(self, keyword):
modifier = 0
try:
effects = self.effectBase_set.filter(active=True)
for effect in effects:
modifier += effect.modifier(keyword)
except:
pass
return modifier
#============ GENERAL =============#
name = NameField()
#=========== ATTRIBUTES ===========#
strength = DotField("Strength")
def attributeStrength(self):
return self.strength + self.effectModifier("STRENGTH")
dexterity = DotField("Dexterity")
def attributeDexterity(self):
return self.dexterity + self.effectModifier("DEXTERITY")
stamina = DotField("Stamina")
def attributeStamina(self):
return self.stamina + self.effectModifier("STAMINA")
charisma = DotField("Charisma")
def attributeCharisma(self):
return self.charisma + self.effectModifier("CHARISMA")
manipulation = DotField("Manipulation")
def attributeManipulation(self):
return self.manipulation + self.effectModifier("MANIPULATION")
appearance = DotField("Apperance")
def attributeAppearance(self):
return self.appearance + self.effectModifier("APPEARANCE")
perception = DotField("Perception")
def attributePerception(self):
return self.perception + self.effectModifier("PERCEPTION")
intelligence = DotField("Intelligence")
def attributeIntelligence(self):
return self.intelligence + self.effectModifier("INTELLIGENCE")
wits = DotField("Wits")
def attributeWits(self):
return self.wits + self.effectModifier("WITS")
#=========== ABILITIES ============#
archery = DotField("Archery")
def abilityArchery(self):
return self.archery + self.effectModifier("ARCHERY")
athletics = DotField("Athletics")
def abilityAthletics(self):
return self.athletics + self.effectModifier("ATHLETICS")
awareness = DotField("Awareness")
def abilityAwareness(self):
return self.awareness + self.effectModifier("AWARENESS")
brawl = DotField("Brawl")
def abilityBrawl(self):
return self.brawl + self.effectModifier("BRAWL")
bureaucracy = DotField("Bureaucracy")
def abilityBureaucracy(self):
return self.bureaucracy + self.effectModifier("BUREAUCRACY")
craft = DotField("Craft")
def abilityCraft(self):
return self.craft + self.effectModifier("CRAFT")
dodge = DotField("Dodge")
def abilityDodge(self):
return self.dodge + self.effectModifier("DODGE")
integrity = DotField("Integrity")
def abilityIntegrity(self):
return self.integrity + self.effectModifier("INTEGRITY")
investigation = DotField("Investigation")
def abilityInvestigation(self):
return self.investigation + self.effectModifier("INVESTIGATION")
larceny = DotField("Larceny")
def abilityLarceny(self):
return self.larceny + self.effectModifier("LARCENY")
linguistics = DotField("Linguistics")
def abilityLinguistics(self):
return self.linguistics + self.effectModifier("LINGUISTICS")
lore = DotField("Lore")
def abilityLore(self):
return self.lore + self.effectModifier("LORE")
martialArts = DotField("MartialArts")
def abilityMartialArts(self):
return self.martialArts + self.effectModifier("MARTIAL ARTS")
medicine = DotField("Medicine")
def abilityMedicine(self):
return self.medicine + self.effectModifier("MEDICINE")
melee = DotField("Melee")
def abilityMelee(self):
return self.melee + self.effectModifier("MELEE")
occult = DotField("Occult")
def abilityOccult(self):
return self.occult + self.effectModifier("OCCULT")
performance = DotField("Performance")
def abilityPerformance(self):
return self.performance + self.effectModifier("PERFORMANCE")
presence = DotField("Presence")
def abilityPresence(self):
return self.presence + self.effectModifier("PRESENCE")
resistance = DotField("Resistance")
def abilityResistance(self):
return self.resistance + self.effectModifier("RESISTANCE")
ride = DotField("Ride")
def abilityRide(self):
return self.ride + self.effectModifier("RIDE")
sail = DotField("Sail")
def abilitySail(self):
return self.sail + self.effectModifier("SAIL")
socialize = DotField("Socialize")
def abilitySocialize(self):
return self.socialize + self.effectModifier("SOCIALIZE")
stealth = DotField("Stealth")
def abilityStealth(self):
return self.stealth + self.effectModifier("STEALTH")
survival = DotField("Survival")
def abilitySurvival(self):
return self.survival + self.effectModifier("SURVIVAL")
thrown = DotField("Thrown")
def abilityThrown(self):
return self.thrown + self.effectModifier("THROWN")
war = DotField("War")
def abilityWar(self):
return self.war + self.effectModifier("WAR")
#============= MERITS =============#
# Reverse relation
# .merit_set.all()
#=========== WILLPOWER ============#
willpowerCap = 10
willpowerMax = NamedIntegerField("Maximum Willpower")
willpower = NamedIntegerField("Current Willpower")
#=========== EXPERIENCE ===========#
experienceTotal = NamedIntegerField("Total Experience")
experience = NamedIntegerField("Current Experience")
#============ WEAPONS =============#
# Reverse relation
# .itemWeaponMelee_set.all()
# .itemWeaponRanged_set.all()
#============= ARMOR ==============#
# Reverse relation
# .itemArmor_set.all()
def armorSoak(self):
armor = None
modifier = 0
try:
armor = self.itemArmor_set.filter(equipped=True)
except:
pass
if armor:
for item in armor:
modifier += item.soak
return modifier
def armorHardness(self):
armor = None
modifier = 0
try:
armor = self.itemArmor_set.filter(equipped=True)
except:
pass
if armor:
for item in armor:
modifier += item.hardness
return modifier
def armorMobilityPenalty(self):
armor = None
modifier = 0
try:
armor = self.itemArmor_set.filter(equipped=True)
except:
pass
if armor:
for item in armor:
modifier += item.mobilityPenalty
return modifier
#============= ITEMS ==============#
# Reverse relation
# .item_set.all()
#============ ESSENCE =============#
essence = NamedIntegerField("Essence")
#============= HEALTH =============#
health0 = NamedIntegerField("'-0' Health Levels")
health1 = NamedIntegerField("'-1' Health Levels")
health2 = NamedIntegerField("'-2' Health Levels")
healthIndex = NamedIntegerField("Health Track Index")
def healthTrack(self):
return ["Healthy"] + ["-0" for i in range(self.health0)] + ["-1" for i in range(self.health1)] + ["-1" for i in range(self.health1)] + ["-4", "i"]
def healthLevel(self):
return self.healthTrack()[self.healthIndex]
#============ STATICS =============#
def resolve(self, speciality=None, mod=0):
return mod + ceil((self.attributeWits() + self.abilityIntegrity()) / 2) + self.effectModifier("RESOLVE")
def guile(self, speciality=None, mod=0):
return mod + ceil((self.attributeManipulation() + self.abilitySocialize()) / 2) + self.effectModifier("GUILE")
def soakNatural(self, mod=0):
return mod + self.attributeStamina() + self.effectModifier("SOAK NATURAL")
def soakArmored(self, mod=0):
return mod + self.armorSoak()
def soakTotal(self, mod=0):
return mod + self.soakNatural() + self.soakArmored()
def hardness(self, mod=0):
return mod + self.armorHardness() + self.effectModifier("HARDNESS")
def joinBattle(self, mod=0):
return mod + self.attributeWits() + self.abilityAwareness() + 3 + self.effectModifier("JOIN BATTLE")
def evasion(self, mod=0):
return mod + ceil((self.attributeDexterity() + self.abilityDodge()) / 2) - self.armorMobilityPenalty() + self.effectModifier("EVASION")
def rush(self, mod=0):
return mod + self.attributeDexterity() + self.abilityAthletics() + self.effectModifier("RUSH")
def disengage(self, mod=0):
return mod + self.attributeDexterity() + self.abilityDodge() + self.effectModifier("DISENGAGE")
class characterExaltBase(characterBase):
#============= MOTES ==============#
motesPersonalMax = NamedIntegerField("Maximum Personal Motes")
motesPersonal = NamedIntegerField("Current Personal Motes")
motesPeripheralMax = NamedIntegerField("Maximum Peripheral Motes")
motesPeripheral = NamedIntegerField("Current Peripheral Motes")
#============= LIMIT ==============#
limitTrigger = models.TextField(verbose_name="Limit Trigger", blank="False", max_length=1000)
limitBreak = NamedIntegerField("Limit Break")
#======= EXALTED EXPERIENCE =======#
experienceExaltedTotal = NamedIntegerField("Total Experience")
experienceExalted = NamedIntegerField("Current Experience")
class characterMortal(characterBase):
pass
class characterExaltSolar(characterExaltBase):
#============= CHARMS =============#
# Reverse relation
# .charmSolar_set.all()
#======= SUPERNAL & FAVORED =======#
abilitySupernal = SingleChoiceField("Supernal Ability", ABILITIES)
abilityFavored = MultiChoiceField("Favoured Abilities", ABILITIES)
class characterExaltLunar(characterExaltBase):
#========= SHAPESHIFTING ==========#
# Reverse relation
# .charmLunarShape_set.all()
#============= CHARMS =============#
# Reverse relation
# .charmLunar_set.all()
#============ FAVORED =============#
attributeFavored = MultiChoiceField("Favoured Attributes", ATTRIBUTES)
#==============================================================================#
#----------------------------------- ITEMS ------------------------------------#
#==============================================================================#
class itemBase(PolymorphicModel):
def __str__(self):
return self.name
name = NameField()
description = DescriptionField()
character = NamedForeignKeyField("Character", characterBase)
class item(itemBase):
pass
#==============================================================================#
#---------------------------------- WEAPONS -----------------------------------#
#==============================================================================#
class itemWeaponBase(itemBase):
equipped = NamedBooleanField("Equipped?")
category = SingleChoiceField("Category", CATEGORIES)
tags = MultiChoiceField("Tags", TAGS_WEAPONS)
accuracy = NamedIntegerField("Accuracy")
damage = NamedIntegerField("Damage")
defense = NamedIntegerField("Defense")
overwhelming = NamedIntegerField("Overwhelming")
attunement = NamedIntegerField("Attunement")
class itemWeaponMelee(itemWeaponBase):
def attack(self, ability, mod=0, withering=True):
if withering:
return mod + ability + self.dexterity + weapon.accuracy
else:
return mod + ability + self.dexterity
def parry(self, ability, mod=0):
if self.character.charmsActive():
mod += sum([])
return mod + ceil((self.dexterity + ability) / 2) + weapon.defense
class itemWeaponRanged(itemWeaponBase):
rangeClose = NamedIntegerField("Close Range")
rangeShort = NamedIntegerField("Short Range")
rangeMedium = NamedIntegerField("Medium Range")
rangeLong = NamedIntegerField("Long Range")
rangeExtreme = NamedIntegerField("Extreme Range")
def attack(self, ability, rangeBand, mod=0, withering=True):
rangeBand = rangeBand.lower()
if rangeBand == "close" or rangeBand == "c":
rangeModifier = self.rangeClose
elif rangeBand == "short" or rangeBand == "s":
rangeModifier = self.rangeShort
elif rangeBand == "medium" or rangeBand == "m":
rangeModifier = self.rangeMedium
elif rangeBand == "long" or rangeBand == "l":
rangeModifier = self.rangeLong
elif rangeBand == "extreme" or rangeBand == "e":
rangeModifier = self.rangeExtreme
else:
rangeModifier = 0
if withering:
return mod + rangeModifier + ability + self.dexterity + weapon.accuracy
else:
return mod + rangeModifier + ability + self.dexterity
#==============================================================================#
#----------------------------------- ARMOR ------------------------------------#
#==============================================================================#
class itemArmor(itemBase):
equipped = NamedBooleanField("Equipped?")
category = SingleChoiceField("Category", CATEGORIES)
tags = MultiChoiceField("Tags", TAGS_ARMOR)
soak = NamedIntegerField("Soak")
hardness = NamedIntegerField("Hardness")
mobilityPenalty = NamedIntegerField("Mobility Penalty")
attunement = NamedIntegerField("Attunement")
#==============================================================================#
#---------------------------------- EFFECTS -----------------------------------#
#==============================================================================#
class effectBase(PolymorphicModel):
def __str__(self):
return self.name
name = NameField()
description = DescriptionField()
character = NamedForeignKeyField("Character", characterExaltSolar)
active = NamedBooleanField("Active?")
rollConfiguration = NamedManyToManyField("Roll Configurations", rollConfiguration)
modifiers = NamedManyToManyField("Modifiers", modifierBase)
def modifier(self, keyword):
output = 0
for modifier in self.modifiers.all():
if keyword == modifier.keyword:
output += modifier.value
return output
#==============================================================================#
#----------------------------------- CHARMS -----------------------------------#
#==============================================================================#
class charmBase(effectBase):
levelEssence = NamedIntegerField("Essence Level")
class charmMartialArt(charmBase):
levelKey = NamedIntegerField("Martial Arts Level")
key = None
class charmEvocation(charmBase):
levelKey = 0
key = NamedForeignKeyField("Artifact", itemBase)
class charmSolar(charmBase):
levelKey = NamedIntegerField("Ability Level")
key = SingleChoiceField("Key Ability", ABILITIES)
class charmLunar(charmBase):
levelKey = NamedIntegerField("Attribute Level")
key = SingleChoiceField("Key Attribute", ATTRIBUTES)
class charmLunarShape(charmBase):
levelKey = 0
key = None
#==============================================================================#
#----------------------------------- MERITS -----------------------------------#
#==============================================================================#
class merit(effectBase):
dots = DotField("Dots")
#==============================================================================#
#-------------------------------- SPECIALITIES --------------------------------#
#==============================================================================#
class speciality(effectBase):
pass
#==============================================================================#
#--------------------------------- INTIMACIES ---------------------------------#
#==============================================================================#
class intimacyBase(PolymorphicModel):
def __str__(self):
return "[{}] {}".format(self.description, self.intensity)
description = DescriptionField()
intensity = SingleChoiceField("Intensity", INTENSITIES)
character = NamedForeignKeyField("Character", characterBase)
class intimacyTie(intimacyBase):
target = NamedCharField("Target")
class intimacyPrincipal(intimacyBase):
pass

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List of relations
Schema | Name | Type | Owner
--------+-----------------------------------------+----------+--------
public | app_characterexaltlunar | table | django
public | app_characterexaltlunar_id_seq | sequence | django
public | app_characterexaltlunar_merits | table | django
public | app_characterexaltlunar_merits_id_seq | sequence | django
public | app_characterexaltsolar | table | django
public | app_characterexaltsolar_id_seq | sequence | django
public | app_characterexaltsolar_merits | table | django
public | app_characterexaltsolar_merits_id_seq | sequence | django
public | app_charactermortal | table | django
public | app_charactermortal_id_seq | sequence | django
public | app_charactermortal_merits | table | django
public | app_charactermortal_merits_id_seq | sequence | django
public | app_charm | table | django
public | app_charm_id_seq | sequence | django
public | app_charm_modifierAbility | table | django
public | app_charm_modifierAbility_id_seq | sequence | django
public | app_charm_modifierAttribute | table | django
public | app_charm_modifierAttribute_id_seq | sequence | django
public | app_charm_modifierStatic | table | django
public | app_charm_modifierStatic_id_seq | sequence | django
public | app_charm_rollConfiguration | table | django
public | app_charm_rollConfiguration_id_seq | sequence | django
public | app_intimacyprincipal | table | django
public | app_intimacyprincipal_id_seq | sequence | django
public | app_intimacytie | table | django
public | app_intimacytie_id_seq | sequence | django
public | app_item | table | django
public | app_item_id_seq | sequence | django
public | app_itemamor_id_seq | sequence | django
public | app_itemarmor | table | django
public | app_itemweaponmelee | table | django
public | app_itemweaponmelee_id_seq | sequence | django
public | app_itemweaponranged | table | django
public | app_itemweaponranged_id_seq | sequence | django
public | app_merit | table | django
public | app_merit_id_seq | sequence | django
public | app_merit_modifierAbility | table | django
public | app_merit_modifierAbility_id_seq | sequence | django
public | app_merit_modifierAttribute | table | django
public | app_merit_modifierAttribute_id_seq | sequence | django
public | app_merit_modifierStatic | table | django
public | app_merit_modifierStatic_id_seq | sequence | django
public | app_merit_rollConfiguration | table | django
public | app_merit_rollConfiguration_id_seq | sequence | django
public | app_modifierability | table | django
public | app_modifierability_id_seq | sequence | django
public | app_modifierattribute | table | django
public | app_modifierattribute_id_seq | sequence | django
public | app_modifierstatic | table | django
public | app_modifierstatic_id_seq | sequence | django
public | app_rollconfiguration | table | django
public | app_rollconfiguration_id_seq | sequence | django
public | app_speciality | table | django
public | app_speciality_id_seq | sequence | django
public | auth_group | table | django
public | auth_group_id_seq | sequence | django
public | auth_group_permissions | table | django
public | auth_group_permissions_id_seq | sequence | django
public | auth_permission | table | django
public | auth_permission_id_seq | sequence | django
public | auth_user | table | django
public | auth_user_groups | table | django
public | auth_user_groups_id_seq | sequence | django
public | auth_user_id_seq | sequence | django
public | auth_user_user_permissions | table | django
public | auth_user_user_permissions_id_seq | sequence | django
public | charsheet_abilityeffect | table | django
public | charsheet_abilityeffect_id_seq | sequence | django
public | charsheet_armor | table | django
public | charsheet_armor_id_seq | sequence | django
public | charsheet_attributeeffect | table | django
public | charsheet_attributeeffect_id_seq | sequence | django
public | charsheet_charm | table | django
public | charsheet_charm_abilityEffects | table | django
public | charsheet_charm_abilityEffects_id_seq | sequence | django
public | charsheet_charm_attributeEffects | table | django
public | charsheet_charm_attributeEffects_id_seq | sequence | django
public | charsheet_charm_id_seq | sequence | django
public | charsheet_charm_staticEffects | table | django
public | charsheet_charm_staticEffects_id_seq | sequence | django
public | charsheet_merit | table | django
public | charsheet_merit_abilityEffects | table | django
public | charsheet_merit_abilityEffects_id_seq | sequence | django
public | charsheet_merit_attributeEffects | table | django
public | charsheet_merit_attributeEffects_id_seq | sequence | django
public | charsheet_merit_id_seq | sequence | django
public | charsheet_merit_staticEffects | table | django
public | charsheet_merit_staticEffects_id_seq | sequence | django
public | charsheet_principal | table | django
public | charsheet_principal_id_seq | sequence | django
public | charsheet_solar | table | django
public | charsheet_solar_armor | table | django
public | charsheet_solar_armor_id_seq | sequence | django
public | charsheet_solar_charms | table | django
public | charsheet_solar_charms_id_seq | sequence | django
public | charsheet_solar_id_seq | sequence | django
public | charsheet_solar_merits | table | django
public | charsheet_solar_merits_id_seq | sequence | django
public | charsheet_solar_weaponsMelee | table | django
public | charsheet_solar_weaponsMelee_id_seq | sequence | django
public | charsheet_solar_weaponsRanged | table | django
public | charsheet_solar_weaponsRanged_id_seq | sequence | django
public | charsheet_speciality | table | django
public | charsheet_speciality_id_seq | sequence | django
public | charsheet_staticeffect | table | django
public | charsheet_staticeffect_id_seq | sequence | django
public | charsheet_tie | table | django
public | charsheet_tie_id_seq | sequence | django
public | charsheet_weaponmelee | table | django
public | charsheet_weaponmelee_id_seq | sequence | django
public | charsheet_weaponranged | table | django
public | charsheet_weaponranged_id_seq | sequence | django
public | django_admin_log | table | django
public | django_admin_log_id_seq | sequence | django
public | django_content_type | table | django
public | django_content_type_id_seq | sequence | django
public | django_migrations | table | django
public | django_migrations_id_seq | sequence | django
public | django_session | table | django
(119 rows)

View File

@ -1,84 +0,0 @@
# This file must be used with "source bin/activate" *from bash*
# you cannot run it directly
if [ "${BASH_SOURCE-}" = "$0" ]; then
echo "You must source this script: \$ source $0" >&2
exit 33
fi
deactivate () {
unset -f pydoc >/dev/null 2>&1
# reset old environment variables
# ! [ -z ${VAR+_} ] returns true if VAR is declared at all
if ! [ -z "${_OLD_VIRTUAL_PATH:+_}" ] ; then
PATH="$_OLD_VIRTUAL_PATH"
export PATH
unset _OLD_VIRTUAL_PATH
fi
if ! [ -z "${_OLD_VIRTUAL_PYTHONHOME+_}" ] ; then
PYTHONHOME="$_OLD_VIRTUAL_PYTHONHOME"
export PYTHONHOME
unset _OLD_VIRTUAL_PYTHONHOME
fi
# This should detect bash and zsh, which have a hash command that must
# be called to get it to forget past commands. Without forgetting
# past commands the $PATH changes we made may not be respected
if [ -n "${BASH-}" ] || [ -n "${ZSH_VERSION-}" ] ; then
hash -r 2>/dev/null
fi
if ! [ -z "${_OLD_VIRTUAL_PS1+_}" ] ; then
PS1="$_OLD_VIRTUAL_PS1"
export PS1
unset _OLD_VIRTUAL_PS1
fi
unset VIRTUAL_ENV
if [ ! "${1-}" = "nondestructive" ] ; then
# Self destruct!
unset -f deactivate
fi
}
# unset irrelevant variables
deactivate nondestructive
VIRTUAL_ENV='/home/tom/.git/exalted/venv'
export VIRTUAL_ENV
_OLD_VIRTUAL_PATH="$PATH"
PATH="$VIRTUAL_ENV/bin:$PATH"
export PATH
# unset PYTHONHOME if set
if ! [ -z "${PYTHONHOME+_}" ] ; then
_OLD_VIRTUAL_PYTHONHOME="$PYTHONHOME"
unset PYTHONHOME
fi
if [ -z "${VIRTUAL_ENV_DISABLE_PROMPT-}" ] ; then
_OLD_VIRTUAL_PS1="${PS1-}"
if [ "x" != x ] ; then
PS1="${PS1-}"
else
PS1="(`basename \"$VIRTUAL_ENV\"`) ${PS1-}"
fi
export PS1
fi
# Make sure to unalias pydoc if it's already there
alias pydoc 2>/dev/null >/dev/null && unalias pydoc || true
pydoc () {
python -m pydoc "$@"
}
# This should detect bash and zsh, which have a hash command that must
# be called to get it to forget past commands. Without forgetting
# past commands the $PATH changes we made may not be respected
if [ -n "${BASH-}" ] || [ -n "${ZSH_VERSION-}" ] ; then
hash -r 2>/dev/null
fi

View File

@ -1,55 +0,0 @@
# This file must be used with "source bin/activate.csh" *from csh*.
# You cannot run it directly.
# Created by Davide Di Blasi <davidedb@gmail.com>.
set newline='\
'
alias deactivate 'test $?_OLD_VIRTUAL_PATH != 0 && setenv PATH "$_OLD_VIRTUAL_PATH:q" && unset _OLD_VIRTUAL_PATH; rehash; test $?_OLD_VIRTUAL_PROMPT != 0 && set prompt="$_OLD_VIRTUAL_PROMPT:q" && unset _OLD_VIRTUAL_PROMPT; unsetenv VIRTUAL_ENV; test "\!:*" != "nondestructive" && unalias deactivate && unalias pydoc'
# Unset irrelevant variables.
deactivate nondestructive
setenv VIRTUAL_ENV '/home/tom/.git/exalted/venv'
set _OLD_VIRTUAL_PATH="$PATH:q"
setenv PATH "$VIRTUAL_ENV:q/bin:$PATH:q"
if ('' != "") then
set env_name = ''
else
set env_name = '('"$VIRTUAL_ENV:t:q"') '
endif
if ( $?VIRTUAL_ENV_DISABLE_PROMPT ) then
if ( $VIRTUAL_ENV_DISABLE_PROMPT == "" ) then
set do_prompt = "1"
else
set do_prompt = "0"
endif
else
set do_prompt = "1"
endif
if ( $do_prompt == "1" ) then
# Could be in a non-interactive environment,
# in which case, $prompt is undefined and we wouldn't
# care about the prompt anyway.
if ( $?prompt ) then
set _OLD_VIRTUAL_PROMPT="$prompt:q"
if ( "$prompt:q" =~ *"$newline:q"* ) then
:
else
set prompt = "$env_name:q$prompt:q"
endif
endif
endif
unset env_name
unset do_prompt
alias pydoc python -m pydoc
rehash

View File

@ -1,100 +0,0 @@
# This file must be used using `source bin/activate.fish` *within a running fish ( http://fishshell.com ) session*.
# Do not run it directly.
function _bashify_path -d "Converts a fish path to something bash can recognize"
set fishy_path $argv
set bashy_path $fishy_path[1]
for path_part in $fishy_path[2..-1]
set bashy_path "$bashy_path:$path_part"
end
echo $bashy_path
end
function _fishify_path -d "Converts a bash path to something fish can recognize"
echo $argv | tr ':' '\n'
end
function deactivate -d 'Exit virtualenv mode and return to the normal environment.'
# reset old environment variables
if test -n "$_OLD_VIRTUAL_PATH"
# https://github.com/fish-shell/fish-shell/issues/436 altered PATH handling
if test (echo $FISH_VERSION | head -c 1) -lt 3
set -gx PATH (_fishify_path "$_OLD_VIRTUAL_PATH")
else
set -gx PATH "$_OLD_VIRTUAL_PATH"
end
set -e _OLD_VIRTUAL_PATH
end
if test -n "$_OLD_VIRTUAL_PYTHONHOME"
set -gx PYTHONHOME "$_OLD_VIRTUAL_PYTHONHOME"
set -e _OLD_VIRTUAL_PYTHONHOME
end
if test -n "$_OLD_FISH_PROMPT_OVERRIDE"
and functions -q _old_fish_prompt
# Set an empty local `$fish_function_path` to allow the removal of `fish_prompt` using `functions -e`.
set -l fish_function_path
# Erase virtualenv's `fish_prompt` and restore the original.
functions -e fish_prompt
functions -c _old_fish_prompt fish_prompt
functions -e _old_fish_prompt
set -e _OLD_FISH_PROMPT_OVERRIDE
end
set -e VIRTUAL_ENV
if test "$argv[1]" != 'nondestructive'
# Self-destruct!
functions -e pydoc
functions -e deactivate
functions -e _bashify_path
functions -e _fishify_path
end
end
# Unset irrelevant variables.
deactivate nondestructive
set -gx VIRTUAL_ENV '/home/tom/.git/exalted/venv'
# https://github.com/fish-shell/fish-shell/issues/436 altered PATH handling
if test (echo $FISH_VERSION | head -c 1) -lt 3
set -gx _OLD_VIRTUAL_PATH (_bashify_path $PATH)
else
set -gx _OLD_VIRTUAL_PATH "$PATH"
end
set -gx PATH "$VIRTUAL_ENV"'/bin' $PATH
# Unset `$PYTHONHOME` if set.
if set -q PYTHONHOME
set -gx _OLD_VIRTUAL_PYTHONHOME $PYTHONHOME
set -e PYTHONHOME
end
function pydoc
python -m pydoc $argv
end
if test -z "$VIRTUAL_ENV_DISABLE_PROMPT"
# Copy the current `fish_prompt` function as `_old_fish_prompt`.
functions -c fish_prompt _old_fish_prompt
function fish_prompt
# Run the user's prompt first; it might depend on (pipe)status.
set -l prompt (_old_fish_prompt)
# Prompt override provided?
# If not, just prepend the environment name.
if test -n ''
printf '%s%s' '' (set_color normal)
else
printf '%s(%s) ' (set_color normal) (basename "$VIRTUAL_ENV")
end
string join -- \n $prompt # handle multi-line prompts
end
set -gx _OLD_FISH_PROMPT_OVERRIDE "$VIRTUAL_ENV"
end

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@ -1,60 +0,0 @@
$script:THIS_PATH = $myinvocation.mycommand.path
$script:BASE_DIR = Split-Path (Resolve-Path "$THIS_PATH/..") -Parent
function global:deactivate([switch] $NonDestructive) {
if (Test-Path variable:_OLD_VIRTUAL_PATH) {
$env:PATH = $variable:_OLD_VIRTUAL_PATH
Remove-Variable "_OLD_VIRTUAL_PATH" -Scope global
}
if (Test-Path function:_old_virtual_prompt) {
$function:prompt = $function:_old_virtual_prompt
Remove-Item function:\_old_virtual_prompt
}
if ($env:VIRTUAL_ENV) {
Remove-Item env:VIRTUAL_ENV -ErrorAction SilentlyContinue
}
if (!$NonDestructive) {
# Self destruct!
Remove-Item function:deactivate
Remove-Item function:pydoc
}
}
function global:pydoc {
python -m pydoc $args
}
# unset irrelevant variables
deactivate -nondestructive
$VIRTUAL_ENV = $BASE_DIR
$env:VIRTUAL_ENV = $VIRTUAL_ENV
New-Variable -Scope global -Name _OLD_VIRTUAL_PATH -Value $env:PATH
$env:PATH = "$env:VIRTUAL_ENV/bin:" + $env:PATH
if (!$env:VIRTUAL_ENV_DISABLE_PROMPT) {
function global:_old_virtual_prompt {
""
}
$function:_old_virtual_prompt = $function:prompt
if ("" -ne "") {
function global:prompt {
# Add the custom prefix to the existing prompt
$previous_prompt_value = & $function:_old_virtual_prompt
("" + $previous_prompt_value)
}
}
else {
function global:prompt {
# Add a prefix to the current prompt, but don't discard it.
$previous_prompt_value = & $function:_old_virtual_prompt
$new_prompt_value = "($( Split-Path $env:VIRTUAL_ENV -Leaf )) "
($new_prompt_value + $previous_prompt_value)
}
}
}

View File

@ -1,46 +0,0 @@
"""Xonsh activate script for virtualenv"""
from xonsh.tools import get_sep as _get_sep
def _deactivate(args):
if "pydoc" in aliases:
del aliases["pydoc"]
if ${...}.get("_OLD_VIRTUAL_PATH", ""):
$PATH = $_OLD_VIRTUAL_PATH
del $_OLD_VIRTUAL_PATH
if ${...}.get("_OLD_VIRTUAL_PYTHONHOME", ""):
$PYTHONHOME = $_OLD_VIRTUAL_PYTHONHOME
del $_OLD_VIRTUAL_PYTHONHOME
if "VIRTUAL_ENV" in ${...}:
del $VIRTUAL_ENV
if "VIRTUAL_ENV_PROMPT" in ${...}:
del $VIRTUAL_ENV_PROMPT
if "nondestructive" not in args:
# Self destruct!
del aliases["deactivate"]
# unset irrelevant variables
_deactivate(["nondestructive"])
aliases["deactivate"] = _deactivate
$VIRTUAL_ENV = r"/home/tom/.git/exalted/venv"
$_OLD_VIRTUAL_PATH = $PATH
$PATH = $PATH[:]
$PATH.add($VIRTUAL_ENV + _get_sep() + "bin", front=True, replace=True)
if ${...}.get("PYTHONHOME", ""):
# unset PYTHONHOME if set
$_OLD_VIRTUAL_PYTHONHOME = $PYTHONHOME
del $PYTHONHOME
$VIRTUAL_ENV_PROMPT = ""
if not $VIRTUAL_ENV_PROMPT:
del $VIRTUAL_ENV_PROMPT
aliases["pydoc"] = ["python", "-m", "pydoc"]

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@ -1,32 +0,0 @@
# -*- coding: utf-8 -*-
"""Activate virtualenv for current interpreter:
Use exec(open(this_file).read(), {'__file__': this_file}).
This can be used when you must use an existing Python interpreter, not the virtualenv bin/python.
"""
import os
import site
import sys
try:
abs_file = os.path.abspath(__file__)
except NameError:
raise AssertionError("You must use exec(open(this_file).read(), {'__file__': this_file}))")
bin_dir = os.path.dirname(abs_file)
base = bin_dir[: -len("bin") - 1] # strip away the bin part from the __file__, plus the path separator
# prepend bin to PATH (this file is inside the bin directory)
os.environ["PATH"] = os.pathsep.join([bin_dir] + os.environ.get("PATH", "").split(os.pathsep))
os.environ["VIRTUAL_ENV"] = base # virtual env is right above bin directory
# add the virtual environments libraries to the host python import mechanism
prev_length = len(sys.path)
for lib in "../lib/python3.8/site-packages".split(os.pathsep):
path = os.path.realpath(os.path.join(bin_dir, lib))
site.addsitedir(path.decode("utf-8") if "" else path)
sys.path[:] = sys.path[prev_length:] + sys.path[0:prev_length]
sys.real_prefix = sys.prefix
sys.prefix = base

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@ -1,8 +0,0 @@
#!/home/tom/.git/exalted/venv/bin/python
# -*- coding: utf-8 -*-
import re
import sys
from django.core.management import execute_from_command_line
if __name__ == '__main__':
sys.argv[0] = re.sub(r'(-script\.pyw|\.exe)?$', '', sys.argv[0])
sys.exit(execute_from_command_line())

View File

@ -1,5 +0,0 @@
#!/home/tom/.git/exalted/venv/bin/python
from django.core import management
if __name__ == "__main__":
management.execute_from_command_line()

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@ -1,8 +0,0 @@
#!/home/tom/.git/exalted/venv/bin/python
# -*- coding: utf-8 -*-
import re
import sys
from setuptools.command.easy_install import main
if __name__ == '__main__':
sys.argv[0] = re.sub(r'(-script\.pyw|\.exe)?$', '', sys.argv[0])
sys.exit(main())

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@ -1,8 +0,0 @@
#!/home/tom/.git/exalted/venv/bin/python
# -*- coding: utf-8 -*-
import re
import sys
from setuptools.command.easy_install import main
if __name__ == '__main__':
sys.argv[0] = re.sub(r'(-script\.pyw|\.exe)?$', '', sys.argv[0])
sys.exit(main())

View File

@ -1,8 +0,0 @@
#!/home/tom/.git/exalted/venv/bin/python
# -*- coding: utf-8 -*-
import re
import sys
from setuptools.command.easy_install import main
if __name__ == '__main__':
sys.argv[0] = re.sub(r'(-script\.pyw|\.exe)?$', '', sys.argv[0])
sys.exit(main())

View File

@ -1,8 +0,0 @@
#!/home/tom/.git/exalted/venv/bin/python
# -*- coding: utf-8 -*-
import re
import sys
from pip._internal.cli.main import main
if __name__ == '__main__':
sys.argv[0] = re.sub(r'(-script\.pyw|\.exe)?$', '', sys.argv[0])
sys.exit(main())

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@ -1,8 +0,0 @@
#!/home/tom/.git/exalted/venv/bin/python
# -*- coding: utf-8 -*-
import re
import sys
from pip._internal.cli.main import main
if __name__ == '__main__':
sys.argv[0] = re.sub(r'(-script\.pyw|\.exe)?$', '', sys.argv[0])
sys.exit(main())

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@ -1,8 +0,0 @@
#!/home/tom/.git/exalted/venv/bin/python
# -*- coding: utf-8 -*-
import re
import sys
from pip._internal.cli.main import main
if __name__ == '__main__':
sys.argv[0] = re.sub(r'(-script\.pyw|\.exe)?$', '', sys.argv[0])
sys.exit(main())

View File

@ -1,8 +0,0 @@
#!/home/tom/.git/exalted/venv/bin/python
# -*- coding: utf-8 -*-
import re
import sys
from pip._internal.cli.main import main
if __name__ == '__main__':
sys.argv[0] = re.sub(r'(-script\.pyw|\.exe)?$', '', sys.argv[0])
sys.exit(main())

View File

@ -1 +0,0 @@
/usr/bin/python

View File

@ -1 +0,0 @@
python

View File

@ -1 +0,0 @@
python

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@ -1,8 +0,0 @@
#!/home/tom/.git/exalted/venv/bin/python
# -*- coding: utf-8 -*-
import re
import sys
from sqlparse.__main__ import main
if __name__ == '__main__':
sys.argv[0] = re.sub(r'(-script\.pyw|\.exe)?$', '', sys.argv[0])
sys.exit(main())

View File

@ -1,8 +0,0 @@
#!/home/tom/.git/exalted/venv/bin/python
# -*- coding: utf-8 -*-
import re
import sys
from wheel.cli import main
if __name__ == '__main__':
sys.argv[0] = re.sub(r'(-script\.pyw|\.exe)?$', '', sys.argv[0])
sys.exit(main())

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@ -1,8 +0,0 @@
#!/home/tom/.git/exalted/venv/bin/python
# -*- coding: utf-8 -*-
import re
import sys
from wheel.cli import main
if __name__ == '__main__':
sys.argv[0] = re.sub(r'(-script\.pyw|\.exe)?$', '', sys.argv[0])
sys.exit(main())

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@ -1,8 +0,0 @@
#!/home/tom/.git/exalted/venv/bin/python
# -*- coding: utf-8 -*-
import re
import sys
from wheel.cli import main
if __name__ == '__main__':
sys.argv[0] = re.sub(r'(-script\.pyw|\.exe)?$', '', sys.argv[0])
sys.exit(main())

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@ -1,958 +0,0 @@
Django was originally created in late 2003 at World Online, the Web division
of the Lawrence Journal-World newspaper in Lawrence, Kansas.
Here is an inevitably incomplete list of MUCH-APPRECIATED CONTRIBUTORS --
people who have submitted patches, reported bugs, added translations, helped
answer newbie questions, and generally made Django that much better:
Aaron Cannon <cannona@fireantproductions.com>
Aaron Swartz <http://www.aaronsw.com/>
Aaron T. Myers <atmyers@gmail.com>
Abeer Upadhyay <ab.esquarer@gmail.com>
Abhijeet Viswa <abhijeetviswa@gmail.com>
Abhinav Patil <https://github.com/ubadub/>
Abhishek Gautam <abhishekg1128@yahoo.com>
Adam Allred <adam.w.allred@gmail.com>
Adam Bogdał <adam@bogdal.pl>
Adam Donaghy
Adam Johnson <https://github.com/adamchainz>
Adam Malinowski <https://adammalinowski.co.uk/>
Adam Vandenberg
Adiyat Mubarak <adiyatmubarak@gmail.com>
Adnan Umer <u.adnan@outlook.com>
Adrian Holovaty <adrian@holovaty.com>
Adrien Lemaire <lemaire.adrien@gmail.com>
Afonso Fernández Nogueira <fonzzo.django@gmail.com>
AgarFu <heaven@croasanaso.sytes.net>
Ahmad Alhashemi <trans@ahmadh.com>
Ahmad Al-Ibrahim
Ahmed Eltawela <https://github.com/ahmedabt>
ajs <adi@sieker.info>
Akash Agrawal <akashrocksha@gmail.com>
Akis Kesoglou <akiskesoglou@gmail.com>
Aksel Ethem <aksel.ethem@gmail.com>
Akshesh Doshi <aksheshdoshi+django@gmail.com>
alang@bright-green.com
Alasdair Nicol <https://al.sdair.co.uk/>
Albert Wang <https://github.com/albertyw/>
Alcides Fonseca
Aleksandra Sendecka <asendecka@hauru.eu>
Aleksi Häkli <aleksi.hakli@iki.fi>
Alexander Dutton <dev@alexdutton.co.uk>
Alexander Myodov <alex@myodov.com>
Alexandr Tatarinov <tatarinov1997@gmail.com>
Alex Becker <https://alexcbecker.net/>
Alex Couper <http://alexcouper.com/>
Alex Dedul
Alex Gaynor <alex.gaynor@gmail.com>
Alex Hill <alex@hill.net.au>
Alex Ogier <alex.ogier@gmail.com>
Alex Robbins <alexander.j.robbins@gmail.com>
Alexey Boriskin <alex@boriskin.me>
Alexey Tsivunin <most-208@yandex.ru>
Aljosa Mohorovic <aljosa.mohorovic@gmail.com>
Amit Chakradeo <https://amit.chakradeo.net/>
Amit Ramon <amit.ramon@gmail.com>
Amit Upadhyay <http://www.amitu.com/blog/>
A. Murat Eren <meren@pardus.org.tr>
Ana Belen Sarabia <belensarabia@gmail.com>
Ana Krivokapic <https://github.com/infraredgirl>
Andi Albrecht <albrecht.andi@gmail.com>
André Ericson <de.ericson@gmail.com>
Andrei Kulakov <andrei.avk@gmail.com>
Andreas
Andreas Mock <andreas.mock@web.de>
Andreas Pelme <andreas@pelme.se>
Andrés Torres Marroquín <andres.torres.marroquin@gmail.com>
Andrew Brehaut <https://brehaut.net/blog>
Andrew Clark <amclark7@gmail.com>
Andrew Durdin <adurdin@gmail.com>
Andrew Godwin <andrew@aeracode.org>
Andrew Pinkham <http://AndrewsForge.com>
Andrews Medina <andrewsmedina@gmail.com>
Andriy Sokolovskiy <me@asokolovskiy.com>
Andy Dustman <farcepest@gmail.com>
Andy Gayton <andy-django@thecablelounge.com>
andy@jadedplanet.net
Anssi Kääriäinen <akaariai@gmail.com>
ant9000@netwise.it
Anthony Briggs <anthony.briggs@gmail.com>
Anton Samarchyan <desecho@gmail.com>
Antoni Aloy
Antonio Cavedoni <http://cavedoni.com/>
Antonis Christofides <anthony@itia.ntua.gr>
Antti Haapala <antti@industrialwebandmagic.com>
Antti Kaihola <http://djangopeople.net/akaihola/>
Anubhav Joshi <anubhav9042@gmail.com>
Aram Dulyan
arien <regexbot@gmail.com>
Armin Ronacher
Aron Podrigal <aronp@guaranteedplus.com>
Artem Gnilov <boobsd@gmail.com>
Arthur <avandorp@gmail.com>
Arthur Koziel <http://arthurkoziel.com>
Arthur Rio <arthur.rio44@gmail.com>
Arvis Bickovskis <viestards.lists@gmail.com>
Aryeh Leib Taurog <http://www.aryehleib.com/>
A S Alam <aalam@users.sf.net>
Asif Saif Uddin <auvipy@gmail.com>
atlithorn <atlithorn@gmail.com>
Audrey Roy <http://audreymroy.com/>
av0000@mail.ru
Axel Haustant <noirbizarre@gmail.com>
Aymeric Augustin <aymeric.augustin@m4x.org>
Bahadır Kandemir <bahadir@pardus.org.tr>
Baishampayan Ghose
Baptiste Mispelon <bmispelon@gmail.com>
Barry Pederson <bp@barryp.org>
Bartolome Sanchez Salado <i42sasab@uco.es>
Bartosz Grabski <bartosz.grabski@gmail.com>
Bashar Al-Abdulhadi
Bastian Kleineidam <calvin@debian.org>
Batiste Bieler <batiste.bieler@gmail.com>
Batman
Batuhan Taskaya <batuhanosmantaskaya@gmail.com>
Baurzhan Ismagulov <ibr@radix50.net>
Ben Dean Kawamura <ben.dean.kawamura@gmail.com>
Ben Firshman <ben@firshman.co.uk>
Ben Godfrey <http://aftnn.org>
Benjamin Wohlwend <piquadrat@gmail.com>
Ben Khoo <khoobks@westnet.com.au>
Ben Slavin <benjamin.slavin@gmail.com>
Ben Sturmfels <ben@sturm.com.au>
Berker Peksag <berker.peksag@gmail.com>
Bernd Schlapsi
Bernhard Essl <me@bernhardessl.com>
berto
Bill Fenner <fenner@gmail.com>
Bjørn Stabell <bjorn@exoweb.net>
Bo Marchman <bo.marchman@gmail.com>
Bogdan Mateescu
Bojan Mihelac <bmihelac@mihelac.org>
Bouke Haarsma <bouke@haarsma.eu>
Božidar Benko <bbenko@gmail.com>
Brad Melin <melinbrad@gmail.com>
Brandon Chinn <https://brandonchinn178.github.io/>
Brant Harris
Brendan Hayward <brendanhayward85@gmail.com>
Brendan Quinn <brendan@cluefulmedia.com>
Brenton Simpson <http://theillustratedlife.com>
Brett Cannon <brett@python.org>
Brett Hoerner <bretthoerner@bretthoerner.com>
Brian Beck <http://blog.brianbeck.com/>
Brian Fabian Crain <http://www.bfc.do/>
Brian Harring <ferringb@gmail.com>
Brian Ray <http://brianray.chipy.org/>
Brian Rosner <brosner@gmail.com>
Bruce Kroeze <https://coderseye.com/>
Bruno Alla <alla.brunoo@gmail.com>
Bruno Renié <buburno@gmail.com>
brut.alll@gmail.com
Bryan Chow <bryan at verdjn dot com>
Bryan Veloso <bryan@revyver.com>
bthomas
btoll@bestweb.net
C8E
Caio Ariede <caio.ariede@gmail.com>
Calvin Spealman <ironfroggy@gmail.com>
Cameron Curry
Cameron Knight (ckknight)
Can Burak Çilingir <canburak@cs.bilgi.edu.tr>
Can Sarıgöl <ertugrulsarigol@gmail.com>
Carl Meyer <carl@oddbird.net>
Carles Pina i Estany <carles@pina.cat>
Carlos Eduardo de Paula <carlosedp@gmail.com>
Carlos Matías de la Torre <cmdelatorre@gmail.com>
Carlton Gibson <carlton.gibson@noumenal.es>
cedric@terramater.net
Chad Whitman <chad.whitman@icloud.com>
ChaosKCW
Charlie Leifer <coleifer@gmail.com>
charly.wilhelm@gmail.com
Chason Chaffin <chason@gmail.com>
Cheng Zhang
Chris Adams
Chris Beaven <smileychris@gmail.com>
Chris Bennett <chrisrbennett@yahoo.com>
Chris Cahoon <chris.cahoon@gmail.com>
Chris Chamberlin <dja@cdc.msbx.net>
Chris Jerdonek
Chris Jones <chris@brack3t.com>
Chris Lamb <chris@chris-lamb.co.uk>
Chris Streeter <chris@chrisstreeter.com>
Christian Barcenas <christian@cbarcenas.com>
Christian Metts
Christian Oudard <christian.oudard@gmail.com>
Christian Tanzer <tanzer@swing.co.at>
Christophe Pettus <xof@thebuild.com>
Christopher Adams <http://christopheradams.info>
Christopher Babiak <chrisbabiak@gmail.com>
Christopher Lenz <https://www.cmlenz.net/>
Christoph Mędrela <chris.medrela@gmail.com>
Chris Wagner <cw264701@ohio.edu>
Chris Wesseling <Chris.Wesseling@cwi.nl>
Chris Wilson <chris+github@qwirx.com>
Claude Paroz <claude@2xlibre.net>
Clint Ecker
colin@owlfish.com
Colin Wood <cwood06@gmail.com>
Collin Anderson <cmawebsite@gmail.com>
Collin Grady <collin@collingrady.com>
Craig Blaszczyk <masterjakul@gmail.com>
crankycoder@gmail.com
Curtis Maloney (FunkyBob) <curtis@tinbrain.net>
dackze+django@gmail.com
Dagur Páll Ammendrup <dagurp@gmail.com>
Dane Springmeyer
Dan Fairs <dan@fezconsulting.com>
Daniel Alves Barbosa de Oliveira Vaz <danielvaz@gmail.com>
Daniel Duan <DaNmarner@gmail.com>
Daniele Procida <daniele@vurt.org>
Daniel Greenfeld
dAniel hAhler
Daniel Jilg <daniel@breakthesystem.org>
Daniel Lindsley <daniel@toastdriven.com>
Daniel Poelzleithner <https://poelzi.org/>
Daniel Pyrathon <pirosb3@gmail.com>
Daniel Roseman <http://roseman.org.uk/>
Daniel Tao <https://philosopherdeveloper.com/>
Daniel Wiesmann <daniel.wiesmann@gmail.com>
Danilo Bargen
Dan Johnson <danj.py@gmail.com>
Dan Palmer <dan@danpalmer.me>
Dan Poirier <poirier@pobox.com>
Dan Stephenson <http://dan.io/>
Dan Watson <http://danwatson.net/>
dave@thebarproject.com
David Ascher <https://ascher.ca/>
David Avsajanishvili <avsd05@gmail.com>
David Blewett <david@dawninglight.net>
David Brenneman <http://davidbrenneman.com>
David Cramer <dcramer@gmail.com>
David Danier <david.danier@team23.de>
David Eklund
David Foster <david@dafoster.net>
David Gouldin <dgouldin@gmail.com>
david@kazserve.org
David Krauth
David Larlet <https://larlet.fr/david/>
David Reynolds <david@reynoldsfamily.org.uk>
David Sanders <dsanders11@ucsbalum.com>
David Schein
David Tulig <david.tulig@gmail.com>
David Wobrock <david.wobrock@gmail.com>
Davide Ceretti <dav.ceretti@gmail.com>
Deepak Thukral <deep.thukral@gmail.com>
Denis Kuzmichyov <kuzmichyov@gmail.com>
Derek Willis <http://blog.thescoop.org/>
Deric Crago <deric.crago@gmail.com>
deric@monowerks.com
Deryck Hodge <http://www.devurandom.org/>
Dimitris Glezos <dimitris@glezos.com>
Dirk Datzert <dummy@habmalnefrage.de>
Dirk Eschler <dirk.eschler@gmx.net>
Dmitri Fedortchenko <zeraien@gmail.com>
Dmitry Jemerov <intelliyole@gmail.com>
dne@mayonnaise.net
Dolan Antenucci <antenucci.d@gmail.com>
Donald Harvey <donald@donaldharvey.co.uk>
Donald Stufft <donald@stufft.io>
Don Spaulding <donspauldingii@gmail.com>
Doug Beck <doug@douglasbeck.com>
Doug Napoleone <doug@dougma.com>
dready <wil@mojipage.com>
dusk@woofle.net
Ed Morley <https://github.com/edmorley>
eibaan@gmail.com
elky <http://elky.me/>
Emmanuelle Delescolle <https://github.com/nanuxbe>
Emil Stenström <em@kth.se>
enlight
Enrico <rico.bl@gmail.com>
Eric Boersma <eric.boersma@gmail.com>
Eric Brandwein <brandweineric@gmail.com>
Eric Floehr <eric@intellovations.com>
Eric Florenzano <floguy@gmail.com>
Eric Holscher <http://ericholscher.com>
Eric Moritz <http://eric.themoritzfamily.com/>
Eric Palakovich Carr <carreric@gmail.com>
Erik Karulf <erik@karulf.com>
Erik Romijn <django@solidlinks.nl>
eriks@win.tue.nl
Erwin Junge <erwin@junge.nl>
Esdras Beleza <linux@esdrasbeleza.com>
Espen Grindhaug <http://grindhaug.org/>
Eugene Lazutkin <http://lazutkin.com/blog/>
Evan Grim <https://github.com/egrim>
Fabrice Aneche <akh@nobugware.com>
favo@exoweb.net
fdr <drfarina@gmail.com>
Federico Capoano <nemesis@ninux.org>
Filip Noetzel <http://filip.noetzel.co.uk/>
Filip Wasilewski <filip.wasilewski@gmail.com>
Finn Gruwier Larsen <finn@gruwier.dk>
Flávio Juvenal da Silva Junior <flavio@vinta.com.br>
flavio.curella@gmail.com
Florian Apolloner <florian@apolloner.eu>
Florian Moussous <florian.moussous@gmail.com>
Francisco Albarran Cristobal <pahko.xd@gmail.com>
Francisco Couzo <franciscouzo@gmail.com>
François Freitag <mail@franek.fr>
Frank Tegtmeyer <fte@fte.to>
Frank Wierzbicki
Frank Wiles <frank@revsys.com>
František Malina <fmalina@gmail.com>
Fraser Nevett <mail@nevett.org>
Gabriel Grant <g@briel.ca>
Gabriel Hurley <gabriel@strikeawe.com>
gandalf@owca.info
Garry Lawrence
Garry Polley <garrympolley@gmail.com>
Garth Kidd <http://www.deadlybloodyserious.com/>
Gary Wilson <gary.wilson@gmail.com>
Gasper Koren
Gasper Zejn <zejn@kiberpipa.org>
Gavin Wahl <gavinwahl@gmail.com>
Ge Hanbin <xiaomiba0904@gmail.com>
geber@datacollect.com
Geert Vanderkelen
George Karpenkov <george@metaworld.ru>
George Song <george@damacy.net>
George Vilches <gav@thataddress.com>
Georg "Hugo" Bauer <gb@hugo.westfalen.de>
Georgi Stanojevski <glisha@gmail.com>
Gerardo Orozco <gerardo.orozco.mosqueda@gmail.com>
Gil Gonçalves <lursty@gmail.com>
Girish Kumar <girishkumarkh@gmail.com>
Gisle Aas <gisle@aas.no>
Glenn Maynard <glenn@zewt.org>
glin@seznam.cz
GomoX <gomo@datafull.com>
Gonzalo Saavedra <gonzalosaavedra@gmail.com>
Gopal Narayanan <gopastro@gmail.com>
Graham Carlyle <graham.carlyle@maplecroft.net>
Grant Jenks <contact@grantjenks.com>
Greg Chapple <gregchapple1@gmail.com>
Gregor Allensworth <greg.allensworth@gmail.com>
Gregor Müllegger <gregor@muellegger.de>
Grigory Fateyev <greg@dial.com.ru>
Grzegorz Ślusarek <grzegorz.slusarek@gmail.com>
Guilherme Mesquita Gondim <semente@taurinus.org>
Guillaume Pannatier <guillaume.pannatier@gmail.com>
Gustavo Picon
hambaloney
Hang Park <hangpark@kaist.ac.kr>
Hannes Ljungberg <hannes.ljungberg@gmail.com>
Hannes Struß <x@hannesstruss.de>
Hasan Ramezani <hasan.r67@gmail.com>
Hawkeye
Helen Sherwood-Taylor <helen@rrdlabs.co.uk>
Henrique Romano <onaiort@gmail.com>
Henry Dang <henrydangprg@gmail.com>
Hidde Bultsma
Himanshu Chauhan <hchauhan1404@outlook.com>
hipertracker@gmail.com
Hiroki Kiyohara <hirokiky@gmail.com>
Honza Král <honza.kral@gmail.com>
Horst Gutmann <zerok@zerokspot.com>
Hugo Osvaldo Barrera <hugo@barrera.io>
HyukJin Jang <wkdgurwls00@naver.com>
Hyun Mi Ae
Iacopo Spalletti <i.spalletti@nephila.it>
Ian A Wilson <http://ianawilson.com>
Ian Clelland <clelland@gmail.com>
Ian G. Kelly <ian.g.kelly@gmail.com>
Ian Holsman <http://feh.holsman.net/>
Ian Lee <IanLee1521@gmail.com>
Ibon <ibonso@gmail.com>
Idan Gazit <idan@gazit.me>
Idan Melamed
Ifedapo Olarewaju <ifedapoolarewaju@gmail.com>
Igor Kolar <ike@email.si>
Illia Volochii <illia.volochii@gmail.com>
Ilya Semenov <semenov@inetss.com>
Ingo Klöcker <djangoproject@ingo-kloecker.de>
I.S. van Oostveen <v.oostveen@idca.nl>
ivan.chelubeev@gmail.com
Ivan Sagalaev (Maniac) <http://www.softwaremaniacs.org/>
Jaap Roes <jaap.roes@gmail.com>
Jack Moffitt <https://metajack.im/>
Jacob Burch <jacobburch@gmail.com>
Jacob Green
Jacob Kaplan-Moss <jacob@jacobian.org>
Jakub Paczkowski <jakub@paczkowski.eu>
Jakub Wilk <jwilk@jwilk.net>
Jakub Wiśniowski <restless.being@gmail.com>
james_027@yahoo.com
James Aylett
James Bennett <james@b-list.org>
James Murty
James Tauber <jtauber@jtauber.com>
James Timmins <jameshtimmins@gmail.com>
James Wheare <django@sparemint.com>
Jannis Leidel <jannis@leidel.info>
Janos Guljas
Jan Pazdziora
Jan Rademaker
Jarek Głowacki <jarekwg@gmail.com>
Jarek Zgoda <jarek.zgoda@gmail.com>
Jason Davies (Esaj) <https://www.jasondavies.com/>
Jason Huggins <http://www.jrandolph.com/blog/>
Jason McBrayer <http://www.carcosa.net/jason/>
jason.sidabras@gmail.com
Jason Yan <tailofthesun@gmail.com>
Javier Mansilla <javimansilla@gmail.com>
Jay Parlar <parlar@gmail.com>
Jay Welborn <jesse.welborn@gmail.com>
Jay Wineinger <jay.wineinger@gmail.com>
J. Clifford Dyer <jcd@sdf.lonestar.org>
jcrasta@gmail.com
jdetaeye
Jeff Anderson <jefferya@programmerq.net>
Jeff Balogh <jbalogh@mozilla.com>
Jeff Hui <jeffkhui@gmail.com>
Jeffrey Gelens <jeffrey@gelens.org>
Jeff Triplett <jeff.triplett@gmail.com>
Jeffrey Yancey <jeffrey.yancey@gmail.com>
Jens Diemer <django@htfx.de>
Jens Page
Jensen Cochran <jensen.cochran@gmail.com>
Jeong-Min Lee <falsetru@gmail.com>
Jérémie Blaser <blaserje@gmail.com>
Jeremy Bowman <https://github.com/jmbowman>
Jeremy Carbaugh <jcarbaugh@gmail.com>
Jeremy Dunck <jdunck@gmail.com>
Jeremy Lainé <jeremy.laine@m4x.org>
Jesse Young <adunar@gmail.com>
Jezeniel Zapanta <jezeniel.zapanta@gmail.com>
jhenry <jhenry@theonion.com>
Jim Dalton <jim.dalton@gmail.com>
Jimmy Song <jaejoon@gmail.com>
Jiri Barton
Joachim Jablon <ewjoachim@gmail.com>
Joao Oliveira <joaoxsouls@gmail.com>
Joao Pedro Silva <j.pedro004@gmail.com>
Joe Heck <http://www.rhonabwy.com/wp/>
Joel Bohman <mail@jbohman.com>
Joel Heenan <joelh-django@planetjoel.com>
Joel Watts <joel@joelwatts.com>
Joe Topjian <http://joe.terrarum.net/geek/code/python/django/>
Johan C. Stöver <johan@nilling.nl>
Johann Queuniet <johann.queuniet@adh.naellia.eu>
john@calixto.net
John D'Agostino <john.dagostino@gmail.com>
John D'Ambrosio <dambrosioj@gmail.com>
John Huddleston <huddlej@wwu.edu>
John Moses <moses.john.r@gmail.com>
John Paulett <john@paulett.org>
John Shaffer <jshaffer2112@gmail.com>
Jökull Sólberg Auðunsson <jokullsolberg@gmail.com>
Jon Dufresne <jon.dufresne@gmail.com>
Jonas Haag <jonas@lophus.org>
Jonatas C. D. <jonatas.cd@gmail.com>
Jonathan Buchanan <jonathan.buchanan@gmail.com>
Jonathan Daugherty (cygnus) <http://www.cprogrammer.org/>
Jonathan Feignberg <jdf@pobox.com>
Jonathan Slenders
Jordan Dimov <s3x3y1@gmail.com>
Jordi J. Tablada <jordi.joan@gmail.com>
Jorge Bastida <me@jorgebastida.com>
Jorge Gajon <gajon@gajon.org>
José Tomás Tocino García <josetomas.tocino@gmail.com>
Josef Rousek <josef.rousek@gmail.com>
Joseph Kocherhans <joseph@jkocherhans.com>
Josh Smeaton <josh.smeaton@gmail.com>
Joshua Cannon <joshdcannon@gmail.com>
Joshua Ginsberg <jag@flowtheory.net>
Jozko Skrablin <jozko.skrablin@gmail.com>
J. Pablo Fernandez <pupeno@pupeno.com>
jpellerin@gmail.com
Juan Catalano <catalanojuan@gmail.com>
Juan Manuel Caicedo <juan.manuel.caicedo@gmail.com>
Juan Pedro Fisanotti <fisadev@gmail.com>
Julia Elman
Julia Matsieva <julia.matsieva@gmail.com>
Julian Bez
Julien Phalip <jphalip@gmail.com>
Junyoung Choi <cupjoo@gmail.com>
junzhang.jn@gmail.com
Jure Cuhalev <gandalf@owca.info>
Justin Bronn <jbronn@gmail.com>
Justine Tunney <jtunney@gmail.com>
Justin Lilly <justinlilly@gmail.com>
Justin Michalicek <jmichalicek@gmail.com>
Justin Myles Holmes <justin@slashrootcafe.com>
Jyrki Pulliainen <jyrki.pulliainen@gmail.com>
Kadesarin Sanjek
Karderio <karderio@gmail.com>
Karen Tracey <kmtracey@gmail.com>
Karol Sikora <elektrrrus@gmail.com>
Katherine “Kati” Michel <kthrnmichel@gmail.com>
Kathryn Killebrew <kathryn.killebrew@gmail.com>
Katie Miller <katie@sub50.com>
Keith Bussell <kbussell@gmail.com>
Kenneth Love <kennethlove@gmail.com>
Kent Hauser <kent@khauser.net>
Kevin Grinberg <kevin@kevingrinberg.com>
Kevin Kubasik <kevin@kubasik.net>
Kevin McConnell <kevin.mcconnell@gmail.com>
Kieran Holland <http://www.kieranholland.com>
kilian <kilian.cavalotti@lip6.fr>
Klaas van Schelven <klaas@vanschelven.com>
knox <christobzr@gmail.com>
konrad@gwu.edu
Kowito Charoenratchatabhan <kowito@felspar.com>
Krišjānis Vaiders <krisjanisvaiders@gmail.com>
krzysiek.pawlik@silvermedia.pl
Krzysztof Jurewicz <krzysztof.jurewicz@gmail.com>
Krzysztof Kulewski <kulewski@gmail.com>
kurtiss@meetro.com
Lakin Wecker <lakin@structuredabstraction.com>
Lars Yencken <lars.yencken@gmail.com>
Lau Bech Lauritzen
Laurent Luce <https://www.laurentluce.com/>
Laurent Rahuel <laurent.rahuel@gmail.com>
lcordier@point45.com
Leah Culver <leah.culver@gmail.com>
Leandra Finger <leandra.finger@gmail.com>
Lee Reilly <lee@leereilly.net>
Lee Sanghyuck <shlee322@elab.kr>
Leo "hylje" Honkanen <sealage@gmail.com>
Leo Shklovskii
Leo Soto <leo.soto@gmail.com>
lerouxb@gmail.com
Lex Berezhny <lex@damoti.com>
Liang Feng <hutuworm@gmail.com>
limodou
Lincoln Smith <lincoln.smith@anu.edu.au>
Loek van Gent <loek@barakken.nl>
Loïc Bistuer <loic.bistuer@sixmedia.com>
Lowe Thiderman <lowe.thiderman@gmail.com>
Luan Pablo <luanpab@gmail.com>
Lucas Connors <https://www.revolutiontech.ca/>
Luciano Ramalho
Ludvig Ericson <ludvig.ericson@gmail.com>
Luis C. Berrocal <luis.berrocal.1942@gmail.com>
Łukasz Langa <lukasz@langa.pl>
Łukasz Rekucki <lrekucki@gmail.com>
Luke Granger-Brown <django@lukegb.com>
Luke Plant <L.Plant.98@cantab.net>
Maciej Fijalkowski
Maciej Wiśniowski <pigletto@gmail.com>
Mads Jensen <https://github.com/atombrella>
Makoto Tsuyuki <mtsuyuki@gmail.com>
Malcolm Tredinnick
Manuel Saelices <msaelices@yaco.es>
Manuzhai
Marc Aymerich Gubern
Marc Egli <frog32@me.com>
Marcel Telka <marcel@telka.sk>
Marc Fargas <telenieko@telenieko.com>
Marc Garcia <marc.garcia@accopensys.com>
Marcin Wróbel
Marc Remolt <m.remolt@webmasters.de>
Marc Tamlyn <marc.tamlyn@gmail.com>
Marc-Aurèle Brothier <ma.brothier@gmail.com>
Marian Andre <django@andre.sk>
Marijn Vriens <marijn@metronomo.cl>
Mario Gonzalez <gonzalemario@gmail.com>
Mariusz Felisiak <felisiak.mariusz@gmail.com>
Mark Biggers <biggers@utsl.com>
Mark Gensler <mark.gensler@protonmail.com>
mark@junklight.com
Mark Lavin <markdlavin@gmail.com>
Mark Sandstrom <mark@deliciouslynerdy.com>
Markus Amalthea Magnuson <markus.magnuson@gmail.com>
Markus Holtermann <https://markusholtermann.eu>
Marten Kenbeek <marten.knbk+django@gmail.com>
Marti Raudsepp <marti@juffo.org>
martin.glueck@gmail.com
Martin Green
Martin Kosír <martin@martinkosir.net>
Martin Mahner <https://www.mahner.org/>
Martin Maney <http://www.chipy.org/Martin_Maney>
Martin von Gagern <gagern@google.com>
Mart Sõmermaa <http://mrts.pri.ee/>
Marty Alchin <gulopine@gamemusic.org>
masonsimon+django@gmail.com
Massimiliano Ravelli <massimiliano.ravelli@gmail.com>
Massimo Scamarcia <massimo.scamarcia@gmail.com>
Mathieu Agopian <mathieu.agopian@gmail.com>
Matías Bordese
Matt Boersma <matt@sprout.org>
Matt Croydon <http://www.postneo.com/>
Matt Deacalion Stevens <matt@dirtymonkey.co.uk>
Matt Dennenbaum
Matthew Flanagan <https://wadofstuff.blogspot.com/>
Matthew Schinckel <matt@schinckel.net>
Matthew Somerville <matthew-django@dracos.co.uk>
Matthew Tretter <m@tthewwithanm.com>
Matthew Wilkes <matt@matthewwilkes.name>
Matthias Kestenholz <mk@406.ch>
Matthias Pronk <django@masida.nl>
Matt Hoskins <skaffenuk@googlemail.com>
Matt McClanahan <https://mmcc.cx/>
Matt Riggott
Matt Robenolt <m@robenolt.com>
Mattia Larentis <mattia@laretis.eu>
Mattia Procopio <promat85@gmail.com>
Mattias Loverot <mattias@stubin.se>
mattycakes@gmail.com
Max Burstein <http://maxburstein.com>
Max Derkachev <mderk@yandex.ru>
Maxime Lorant <maxime.lorant@gmail.com>
Maxime Turcotte <maxocub@riseup.net>
Maximilian Merz <django@mxmerz.de>
Maximillian Dornseif <md@hudora.de>
mccutchen@gmail.com
Meir Kriheli <http://mksoft.co.il/>
Michael Hall <mhall1@ualberta.ca>
Michael Josephson <http://www.sdjournal.com/>
Michael Manfre <mmanfre@gmail.com>
michael.mcewan@gmail.com
Michael Placentra II <someone@michaelplacentra2.net>
Michael Radziej <mir@noris.de>
Michael Sanders <m.r.sanders@gmail.com>
Michael Schwarz <michi.schwarz@gmail.com>
Michael Sinov <sihaelov@gmail.com>
Michael Thornhill <michael.thornhill@gmail.com>
Michal Chruszcz <troll@pld-linux.org>
michal@plovarna.cz
Michał Modzelewski <michal.modzelewski@gmail.com>
Mihai Damian <yang_damian@yahoo.com>
Mihai Preda <mihai_preda@yahoo.com>
Mikaël Barbero <mikael.barbero nospam at nospam free.fr>
Mike Axiak <axiak@mit.edu>
Mike Grouchy <https://mikegrouchy.com/>
Mike Malone <mjmalone@gmail.com>
Mike Richardson
Mike Wiacek <mjwiacek@google.com>
Mikhail Korobov <kmike84@googlemail.com>
Mikko Hellsing <mikko@sorl.net>
Mikołaj Siedlarek <mikolaj.siedlarek@gmail.com>
milkomeda
Milton Waddams
mitakummaa@gmail.com
mmarshall
Moayad Mardini <moayad.m@gmail.com>
Morgan Aubert <morgan.aubert@zoho.com>
Moritz Sichert <moritz.sichert@googlemail.com>
Morten Bagai <m@bagai.com>
msaelices <msaelices@gmail.com>
msundstr
Mushtaq Ali <mushtaak@gmail.com>
Mykola Zamkovoi <nickzam@gmail.com>
Nadège Michel <michel.nadege@gmail.com>
Nagy Károly <charlie@rendszergazda.com>
Nasimul Haque <nasim.haque@gmail.com>
Nasir Hussain <nasirhjafri@gmail.com>
Natalia Bidart <nataliabidart@gmail.com>
Nate Bragg <jonathan.bragg@alum.rpi.edu>
Nathan Gaberel <nathan@gnab.fr>
Neal Norwitz <nnorwitz@google.com>
Nebojša Dorđević
Ned Batchelder <https://nedbatchelder.com/>
Nena Kojadin <nena@kiberpipa.org>
Niall Dalton <niall.dalton12@gmail.com>
Niall Kelly <duke.sam.vimes@gmail.com>
Nick Efford <nick@efford.org>
Nick Lane <nick.lane.au@gmail.com>
Nick Pope <nick@nickpope.me.uk>
Nick Presta <nick@nickpresta.ca>
Nick Sandford <nick.sandford@gmail.com>
Nick Sarbicki <nick.a.sarbicki@gmail.com>
Niclas Olofsson <n@niclasolofsson.se>
Nicola Larosa <nico@teknico.net>
Nicolas Lara <nicolaslara@gmail.com>
Nicolas Noé <nicolas@niconoe.eu>
Niran Babalola <niran@niran.org>
Nis Jørgensen <nis@superlativ.dk>
Nowell Strite <https://nowell.strite.org/>
Nuno Mariz <nmariz@gmail.com>
oggie rob <oz.robharvey@gmail.com>
oggy <ognjen.maric@gmail.com>
Oliver Beattie <oliver@obeattie.com>
Oliver Rutherfurd <http://rutherfurd.net/>
Olivier Sels <olivier.sels@gmail.com>
Olivier Tabone <olivier.tabone@ripplemotion.fr>
Orestis Markou <orestis@orestis.gr>
Orne Brocaar <http://brocaar.com/>
Oscar Ramirez <tuxskar@gmail.com>
Ossama M. Khayat <okhayat@yahoo.com>
Owen Griffiths
Pablo Martín <goinnn@gmail.com>
Panos Laganakos <panos.laganakos@gmail.com>
Pascal Hartig <phartig@rdrei.net>
Pascal Varet
Patrik Sletmo <patrik.sletmo@gmail.com>
Paul Bissex <http://e-scribe.com/>
Paul Collier <paul@paul-collier.com>
Paul Collins <paul.collins.iii@gmail.com>
Paul Donohue <django@PaulSD.com>
Paul Lanier <planier@google.com>
Paul McLanahan <paul@mclanahan.net>
Paul McMillan <Paul@McMillan.ws>
Paulo Poiati <paulogpoiati@gmail.com>
Paulo Scardine <paulo@scardine.com.br>
Paul Smith <blinkylights23@gmail.com>
Pavel Kulikov <kulikovpavel@gmail.com>
pavithran s <pavithran.s@gmail.com>
Pavlo Kapyshin <i@93z.org>
permonik@mesias.brnonet.cz
Petar Marić <http://www.petarmaric.com/>
Pete Crosier <pete.crosier@gmail.com>
peter@mymart.com
Peter Sheats <sheats@gmail.com>
Peter van Kampen
Peter Zsoldos <http://zsoldosp.eu>
Pete Shinners <pete@shinners.org>
Petr Marhoun <petr.marhoun@gmail.com>
pgross@thoughtworks.com
phaedo <http://phaedo.cx/>
phil.h.smith@gmail.com
Philip Lindborg <philip.lindborg@gmail.com>
Philippe Raoult <philippe.raoult@n2nsoft.com>
phil@produxion.net
Piotr Jakimiak <piotr.jakimiak@gmail.com>
Piotr Lewandowski <piotr.lewandowski@gmail.com>
plisk
polpak@yahoo.com
pradeep.gowda@gmail.com
Preston Holmes <preston@ptone.com>
Preston Timmons <prestontimmons@gmail.com>
Priyansh Saxena <askpriyansh@gmail.com>
Przemysław Buczkowski <przemub@przemub.pl>
Przemysław Suliga <http://suligap.net>
Rachel Tobin <rmtobin@me.com>
Rachel Willmer <http://www.willmer.com/kb/>
Radek Švarz <https://www.svarz.cz/translate/>
Raffaele Salmaso <raffaele@salmaso.org>
Rajesh Dhawan <rajesh.dhawan@gmail.com>
Ramez Ashraf <ramezashraf@gmail.com>
Ramin Farajpour Cami <ramin.blackhat@gmail.com>
Ramiro Morales <ramiro@rmorales.net>
Ramon Saraiva <ramonsaraiva@gmail.com>
Ram Rachum <ram@rachum.com>
Randy Barlow <randy@electronsweatshop.com>
Raphaël Barrois <raphael.barrois@m4x.org>
Raphael Michel <mail@raphaelmichel.de>
Raúl Cumplido <raulcumplido@gmail.com>
Rebecca Smith <rebkwok@gmail.com>
Remco Wendt <remco.wendt@gmail.com>
Renaud Parent <renaud.parent@gmail.com>
Renbi Yu <averybigant@gmail.com>
Reza Mohammadi <reza@zeerak.ir>
rhettg@gmail.com
Ricardo Javier Cárdenes Medina <ricardo.cardenes@gmail.com>
ricardojbarrios@gmail.com
Riccardo Di Virgilio
Riccardo Magliocchetti <riccardo.magliocchetti@gmail.com>
Richard Davies <richard.davies@elastichosts.com>
Richard House <Richard.House@i-logue.com>
Rick Wagner <rwagner@physics.ucsd.edu>
Rigel Di Scala <rigel.discala@propylon.com>
Robert Coup
Robert Myers <myer0052@gmail.com>
Roberto Aguilar <roberto@baremetal.io>
Robert Rock Howard <http://djangomojo.com/>
Robert Wittams
Rob Golding-Day <rob@golding-day.com>
Rob Hudson <https://rob.cogit8.org/>
Rob Nguyen <tienrobertnguyenn@gmail.com>
Robin Munn <http://www.geekforgod.com/>
Rodrigo Pinheiro Marques de Araújo <fenrrir@gmail.com>
Romain Garrigues <romain.garrigues.cs@gmail.com>
Ronny Haryanto <https://ronny.haryan.to/>
Ross Poulton <ross@rossp.org>
Rozza <ross.lawley@gmail.com>
Rudolph Froger <rfroger@estrate.nl>
Rudy Mutter
Rune Rønde Laursen <runerl@skjoldhoej.dk>
Russell Cloran <russell@rucus.net>
Russell Keith-Magee <russell@keith-magee.com>
Russ Webber
Ryan Hall <ryanhall989@gmail.com>
ryankanno
Ryan Kelly <ryan@rfk.id.au>
Ryan Niemeyer <https://profiles.google.com/ryan.niemeyer/about>
Ryan Rubin <ryanmrubin@gmail.com>
Ryno Mathee <rmathee@gmail.com>
Sachin Jat <sanch.jat@gmail.com>
Sam Newman <http://www.magpiebrain.com/>
Sander Dijkhuis <sander.dijkhuis@gmail.com>
Sanket Saurav <sanketsaurav@gmail.com>
Sanyam Khurana <sanyam.khurana01@gmail.com>
Sarthak Mehrish <sarthakmeh03@gmail.com>
schwank@gmail.com
Scot Hacker <shacker@birdhouse.org>
Scott Barr <scott@divisionbyzero.com.au>
Scott Fitsimones <scott@airgara.ge>
Scott Pashley <github@scottpashley.co.uk>
scott@staplefish.com
Sean Brant
Sebastian Hillig <sebastian.hillig@gmail.com>
Sebastian Spiegel <https://www.tivix.com/>
Segyo Myung <myungsekyo@gmail.com>
Selwin Ong <selwin@ui.co.id>
Sengtha Chay <sengtha@e-khmer.com>
Senko Rašić <senko.rasic@dobarkod.hr>
serbaut@gmail.com
Sergei Maertens <sergeimaertens@gmail.com>
Sergey Fedoseev <fedoseev.sergey@gmail.com>
Sergey Kolosov <m17.admin@gmail.com>
Seth Hill <sethrh@gmail.com>
Shai Berger <shai@platonix.com>
Shannon -jj Behrens <https://www.jjinux.com/>
Shawn Milochik <shawn@milochik.com>
Silvan Spross <silvan.spross@gmail.com>
Simeon Visser <http://simeonvisser.com>
Simon Blanchard
Simon Charette <charette.s@gmail.com>
Simon Greenhill <dev@simon.net.nz>
Simon Litchfield <simon@quo.com.au>
Simon Meers <simon@simonmeers.com>
Simon Williams
Simon Willison <simon@simonwillison.net>
Sjoerd Job Postmus
Slawek Mikula <slawek dot mikula at gmail dot com>
sloonz <simon.lipp@insa-lyon.fr>
smurf@smurf.noris.de
sopel
Srinivas Reddy Thatiparthy <thatiparthysreenivas@gmail.com>
Stanislas Guerra <stan@slashdev.me>
Stanislaus Madueke
Stanislav Karpov <work@stkrp.ru>
starrynight <cmorgh@gmail.com>
Stefan R. Filipek
Stefane Fermgier <sf@fermigier.com>
Stefano Rivera <stefano@rivera.za.net>
Stéphane Raimbault <stephane.raimbault@gmail.com>
Stephan Jaekel <steph@rdev.info>
Stephen Burrows <stephen.r.burrows@gmail.com>
Steven L. Smith (fvox13) <steven@stevenlsmith.com>
Steven Noorbergen (Xaroth) <xaroth+django@xaroth.nl>
Stuart Langridge <https://www.kryogenix.org/>
Subhav Gautam <subhavgautam@yahoo.co.uk>
Sujay S Kumar <sujay.skumar141295@gmail.com>
Sune Kirkeby <https://ibofobi.dk/>
Sung-Jin Hong <serialx.net@gmail.com>
SuperJared
Susan Tan <susan.tan.fleckerl@gmail.com>
Sutrisno Efendi <kangfend@gmail.com>
Swaroop C H <http://www.swaroopch.info>
Szilveszter Farkas <szilveszter.farkas@gmail.com>
Taavi Teska <taaviteska@gmail.com>
Tai Lee <real.human@mrmachine.net>
Takashi Matsuo <matsuo.takashi@gmail.com>
Tareque Hossain <http://www.codexn.com>
Taylor Mitchell <taylor.mitchell@gmail.com>
Terry Huang <terryh.tp@gmail.com>
thebjorn <bp@datakortet.no>
Thejaswi Puthraya <thejaswi.puthraya@gmail.com>
Thijs van Dien <thijs@vandien.net>
Thom Wiggers
Thomas Chaumeny <t.chaumeny@gmail.com>
Thomas Güttler <hv@tbz-pariv.de>
Thomas Kerpe <thomas@kerpe.net>
Thomas Sorrel
Thomas Steinacher <http://www.eggdrop.ch/>
Thomas Stromberg <tstromberg@google.com>
Thomas Tanner <tanner@gmx.net>
tibimicu@gmx.net
Tim Allen <tim@pyphilly.org>
Tim Givois <tim.givois.mendez@gmail.com>
Tim Graham <timograham@gmail.com>
Tim Heap <tim@timheap.me>
Tim Saylor <tim.saylor@gmail.com>
Tobias Kunze <rixx@cutebit.de>
Tobias McNulty <https://www.caktusgroup.com/blog/>
tobias@neuyork.de
Todd O'Bryan <toddobryan@mac.com>
Tom Christie <tom@tomchristie.com>
Tom Forbes <tom@tomforb.es>
Tom Insam
Tom Tobin
Tomáš Ehrlich <tomas.ehrlich@gmail.com>
Tomáš Kopeček <permonik@m6.cz>
Tome Cvitan <tome@cvitan.com>
Tomek Paczkowski <tomek@hauru.eu>
Tomer Chachamu
Tommy Beadle <tbeadle@gmail.com>
Tore Lundqvist <tore.lundqvist@gmail.com>
torne-django@wolfpuppy.org.uk
Travis Cline <travis.cline@gmail.com>
Travis Pinney
Travis Swicegood <travis@domain51.com>
Travis Terry <tdterry7@gmail.com>
Trevor Caira <trevor@caira.com>
Trey Long <trey@ktrl.com>
tstromberg@google.com
tt@gurgle.no
Tyler Tarabula <tyler.tarabula@gmail.com>
Tyson Clugg <tyson@clugg.net>
Tyson Tate <tyson@fallingbullets.com>
Unai Zalakain <unai@gisa-elkartea.org>
Valentina Mukhamedzhanova <umirra@gmail.com>
valtron
Vasiliy Stavenko <stavenko@gmail.com>
Vasil Vangelovski
Vibhu Agarwal <vibhu-agarwal.github.io>
Victor Andrée
viestards.lists@gmail.com
Viktor Danyliuk <v.v.danyliuk@gmail.com>
Ville Säävuori <https://www.unessa.net/>
Vinay Karanam <https://github.com/vinayinvicible>
Vinay Sajip <vinay_sajip@yahoo.co.uk>
Vincent Foley <vfoleybourgon@yahoo.ca>
Vinny Do <vdo.code@gmail.com>
Vitaly Babiy <vbabiy86@gmail.com>
Vladimir Kuzma <vladimirkuzma.ch@gmail.com>
Vlado <vlado@labath.org>
Vsevolod Solovyov
Vytis Banaitis <vytis.banaitis@gmail.com>
wam-djangobug@wamber.net
Wang Chun <wangchun@exoweb.net>
Warren Smith <warren@wandrsmith.net>
Waylan Limberg <waylan@gmail.com>
Wiktor Kołodziej <wiktor@pykonik.org>
Wiley Kestner <wiley.kestner@gmail.com>
Wiliam Alves de Souza <wiliamsouza83@gmail.com>
Will Ayd <william.ayd@icloud.com>
William Schwartz <wkschwartz@gmail.com>
Will Hardy <django@willhardy.com.au>
Wilson Miner <wminer@gmail.com>
Wim Glenn <hey@wimglenn.com>
wojtek
Xia Kai <https://blog.xiaket.org/>
Yann Fouillat <gagaro42@gmail.com>
Yann Malet
Yasushi Masuda <whosaysni@gmail.com>
ye7cakf02@sneakemail.com
ymasuda@ethercube.com
Yoong Kang Lim <yoongkang.lim@gmail.com>
Yusuke Miyazaki <miyazaki.dev@gmail.com>
Zac Hatfield-Dodds <zac.hatfield.dodds@gmail.com>
Zachary Voase <zacharyvoase@gmail.com>
Zach Liu <zachliu@gmail.com>
Zach Thompson <zthompson47@gmail.com>
Zain Memon
Zak Johnson <zakj@nox.cx>
Žan Anderle <zan.anderle@gmail.com>
Zbigniew Siciarz <zbigniew@siciarz.net>
zegor
Zeynel Özdemir <ozdemir.zynl@gmail.com>
Zlatko Mašek <zlatko.masek@gmail.com>
<Please alphabetize new entries>
A big THANK YOU goes to:
Rob Curley and Ralph Gage for letting us open-source Django.
Frank Wiles for making excellent arguments for open-sourcing, and for
his sage sysadmin advice.
Ian Bicking for convincing Adrian to ditch code generation.
Mark Pilgrim for "Dive Into Python" (https://www.diveinto.org/python3/).
Guido van Rossum for creating Python.

View File

@ -1,27 +0,0 @@
Copyright (c) Django Software Foundation and individual contributors.
All rights reserved.
Redistribution and use in source and binary forms, with or without modification,
are permitted provided that the following conditions are met:
1. Redistributions of source code must retain the above copyright notice,
this list of conditions and the following disclaimer.
2. Redistributions in binary form must reproduce the above copyright
notice, this list of conditions and the following disclaimer in the
documentation and/or other materials provided with the distribution.
3. Neither the name of Django nor the names of its contributors may be used
to endorse or promote products derived from this software without
specific prior written permission.
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR
ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
(INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON
ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

View File

@ -1,266 +0,0 @@
Django is licensed under the three-clause BSD license; see the file
LICENSE for details.
Django includes code from the Python standard library, which is licensed under
the Python license, a permissive open source license. The copyright and license
is included below for compliance with Python's terms.
----------------------------------------------------------------------
Copyright (c) 2001-present Python Software Foundation; All Rights Reserved
A. HISTORY OF THE SOFTWARE
==========================
Python was created in the early 1990s by Guido van Rossum at Stichting
Mathematisch Centrum (CWI, see http://www.cwi.nl) in the Netherlands
as a successor of a language called ABC. Guido remains Python's
principal author, although it includes many contributions from others.
In 1995, Guido continued his work on Python at the Corporation for
National Research Initiatives (CNRI, see http://www.cnri.reston.va.us)
in Reston, Virginia where he released several versions of the
software.
In May 2000, Guido and the Python core development team moved to
BeOpen.com to form the BeOpen PythonLabs team. In October of the same
year, the PythonLabs team moved to Digital Creations (now Zope
Corporation, see http://www.zope.com). In 2001, the Python Software
Foundation (PSF, see http://www.python.org/psf/) was formed, a
non-profit organization created specifically to own Python-related
Intellectual Property. Zope Corporation is a sponsoring member of
the PSF.
All Python releases are Open Source (see http://www.opensource.org for
the Open Source Definition). Historically, most, but not all, Python
releases have also been GPL-compatible; the table below summarizes
the various releases.
Release Derived Year Owner GPL-
from compatible? (1)
0.9.0 thru 1.2 1991-1995 CWI yes
1.3 thru 1.5.2 1.2 1995-1999 CNRI yes
1.6 1.5.2 2000 CNRI no
2.0 1.6 2000 BeOpen.com no
1.6.1 1.6 2001 CNRI yes (2)
2.1 2.0+1.6.1 2001 PSF no
2.0.1 2.0+1.6.1 2001 PSF yes
2.1.1 2.1+2.0.1 2001 PSF yes
2.1.2 2.1.1 2002 PSF yes
2.1.3 2.1.2 2002 PSF yes
2.2 and above 2.1.1 2001-now PSF yes
Footnotes:
(1) GPL-compatible doesn't mean that we're distributing Python under
the GPL. All Python licenses, unlike the GPL, let you distribute
a modified version without making your changes open source. The
GPL-compatible licenses make it possible to combine Python with
other software that is released under the GPL; the others don't.
(2) According to Richard Stallman, 1.6.1 is not GPL-compatible,
because its license has a choice of law clause. According to
CNRI, however, Stallman's lawyer has told CNRI's lawyer that 1.6.1
is "not incompatible" with the GPL.
Thanks to the many outside volunteers who have worked under Guido's
direction to make these releases possible.
B. TERMS AND CONDITIONS FOR ACCESSING OR OTHERWISE USING PYTHON
===============================================================
PYTHON SOFTWARE FOUNDATION LICENSE VERSION 2
--------------------------------------------
1. This LICENSE AGREEMENT is between the Python Software Foundation
("PSF"), and the Individual or Organization ("Licensee") accessing and
otherwise using this software ("Python") in source or binary form and
its associated documentation.
2. Subject to the terms and conditions of this License Agreement, PSF hereby
grants Licensee a nonexclusive, royalty-free, world-wide license to reproduce,
analyze, test, perform and/or display publicly, prepare derivative works,
distribute, and otherwise use Python alone or in any derivative version,
provided, however, that PSF's License Agreement and PSF's notice of copyright,
i.e., "Copyright (c) 2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008, 2009, 2010,
2011, 2012, 2013, 2014, 2015, 2016, 2017, 2018 Python Software Foundation; All
Rights Reserved" are retained in Python alone or in any derivative version
prepared by Licensee.
3. In the event Licensee prepares a derivative work that is based on
or incorporates Python or any part thereof, and wants to make
the derivative work available to others as provided herein, then
Licensee hereby agrees to include in any such work a brief summary of
the changes made to Python.
4. PSF is making Python available to Licensee on an "AS IS"
basis. PSF MAKES NO REPRESENTATIONS OR WARRANTIES, EXPRESS OR
IMPLIED. BY WAY OF EXAMPLE, BUT NOT LIMITATION, PSF MAKES NO AND
DISCLAIMS ANY REPRESENTATION OR WARRANTY OF MERCHANTABILITY OR FITNESS
FOR ANY PARTICULAR PURPOSE OR THAT THE USE OF PYTHON WILL NOT
INFRINGE ANY THIRD PARTY RIGHTS.
5. PSF SHALL NOT BE LIABLE TO LICENSEE OR ANY OTHER USERS OF PYTHON
FOR ANY INCIDENTAL, SPECIAL, OR CONSEQUENTIAL DAMAGES OR LOSS AS
A RESULT OF MODIFYING, DISTRIBUTING, OR OTHERWISE USING PYTHON,
OR ANY DERIVATIVE THEREOF, EVEN IF ADVISED OF THE POSSIBILITY THEREOF.
6. This License Agreement will automatically terminate upon a material
breach of its terms and conditions.
7. Nothing in this License Agreement shall be deemed to create any
relationship of agency, partnership, or joint venture between PSF and
Licensee. This License Agreement does not grant permission to use PSF
trademarks or trade name in a trademark sense to endorse or promote
products or services of Licensee, or any third party.
8. By copying, installing or otherwise using Python, Licensee
agrees to be bound by the terms and conditions of this License
Agreement.
BEOPEN.COM LICENSE AGREEMENT FOR PYTHON 2.0
-------------------------------------------
BEOPEN PYTHON OPEN SOURCE LICENSE AGREEMENT VERSION 1
1. This LICENSE AGREEMENT is between BeOpen.com ("BeOpen"), having an
office at 160 Saratoga Avenue, Santa Clara, CA 95051, and the
Individual or Organization ("Licensee") accessing and otherwise using
this software in source or binary form and its associated
documentation ("the Software").
2. Subject to the terms and conditions of this BeOpen Python License
Agreement, BeOpen hereby grants Licensee a non-exclusive,
royalty-free, world-wide license to reproduce, analyze, test, perform
and/or display publicly, prepare derivative works, distribute, and
otherwise use the Software alone or in any derivative version,
provided, however, that the BeOpen Python License is retained in the
Software, alone or in any derivative version prepared by Licensee.
3. BeOpen is making the Software available to Licensee on an "AS IS"
basis. BEOPEN MAKES NO REPRESENTATIONS OR WARRANTIES, EXPRESS OR
IMPLIED. BY WAY OF EXAMPLE, BUT NOT LIMITATION, BEOPEN MAKES NO AND
DISCLAIMS ANY REPRESENTATION OR WARRANTY OF MERCHANTABILITY OR FITNESS
FOR ANY PARTICULAR PURPOSE OR THAT THE USE OF THE SOFTWARE WILL NOT
INFRINGE ANY THIRD PARTY RIGHTS.
4. BEOPEN SHALL NOT BE LIABLE TO LICENSEE OR ANY OTHER USERS OF THE
SOFTWARE FOR ANY INCIDENTAL, SPECIAL, OR CONSEQUENTIAL DAMAGES OR LOSS
AS A RESULT OF USING, MODIFYING OR DISTRIBUTING THE SOFTWARE, OR ANY
DERIVATIVE THEREOF, EVEN IF ADVISED OF THE POSSIBILITY THEREOF.
5. This License Agreement will automatically terminate upon a material
breach of its terms and conditions.
6. This License Agreement shall be governed by and interpreted in all
respects by the law of the State of California, excluding conflict of
law provisions. Nothing in this License Agreement shall be deemed to
create any relationship of agency, partnership, or joint venture
between BeOpen and Licensee. This License Agreement does not grant
permission to use BeOpen trademarks or trade names in a trademark
sense to endorse or promote products or services of Licensee, or any
third party. As an exception, the "BeOpen Python" logos available at
http://www.pythonlabs.com/logos.html may be used according to the
permissions granted on that web page.
7. By copying, installing or otherwise using the software, Licensee
agrees to be bound by the terms and conditions of this License
Agreement.
CNRI LICENSE AGREEMENT FOR PYTHON 1.6.1
---------------------------------------
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CWI LICENSE AGREEMENT FOR PYTHON 0.9.0 THROUGH 1.2
--------------------------------------------------
Copyright (c) 1991 - 1995, Stichting Mathematisch Centrum Amsterdam,
The Netherlands. All rights reserved.
Permission to use, copy, modify, and distribute this software and its
documentation for any purpose and without fee is hereby granted,
provided that the above copyright notice appear in all copies and that
both that copyright notice and this permission notice appear in
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STICHTING MATHEMATISCH CENTRUM DISCLAIMS ALL WARRANTIES WITH REGARD TO
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@ -1,89 +0,0 @@
Metadata-Version: 2.1
Name: Django
Version: 3.0.5
Summary: A high-level Python Web framework that encourages rapid development and clean, pragmatic design.
Home-page: https://www.djangoproject.com/
Author: Django Software Foundation
Author-email: foundation@djangoproject.com
License: BSD
Project-URL: Documentation, https://docs.djangoproject.com/
Project-URL: Funding, https://www.djangoproject.com/fundraising/
Project-URL: Source, https://github.com/django/django
Project-URL: Tracker, https://code.djangoproject.com/
Platform: UNKNOWN
Classifier: Development Status :: 5 - Production/Stable
Classifier: Environment :: Web Environment
Classifier: Framework :: Django
Classifier: Intended Audience :: Developers
Classifier: License :: OSI Approved :: BSD License
Classifier: Operating System :: OS Independent
Classifier: Programming Language :: Python
Classifier: Programming Language :: Python :: 3
Classifier: Programming Language :: Python :: 3.6
Classifier: Programming Language :: Python :: 3.7
Classifier: Programming Language :: Python :: 3.8
Classifier: Programming Language :: Python :: 3 :: Only
Classifier: Topic :: Internet :: WWW/HTTP
Classifier: Topic :: Internet :: WWW/HTTP :: Dynamic Content
Classifier: Topic :: Internet :: WWW/HTTP :: WSGI
Classifier: Topic :: Software Development :: Libraries :: Application Frameworks
Classifier: Topic :: Software Development :: Libraries :: Python Modules
Requires-Python: >=3.6
Requires-Dist: pytz
Requires-Dist: sqlparse (>=0.2.2)
Requires-Dist: asgiref (~=3.2)
Provides-Extra: argon2
Requires-Dist: argon2-cffi (>=16.1.0) ; extra == 'argon2'
Provides-Extra: bcrypt
Requires-Dist: bcrypt ; extra == 'bcrypt'
======
Django
======
Django is a high-level Python Web framework that encourages rapid development
and clean, pragmatic design. Thanks for checking it out.
All documentation is in the "``docs``" directory and online at
https://docs.djangoproject.com/en/stable/. If you're just getting started,
here's how we recommend you read the docs:
* First, read ``docs/intro/install.txt`` for instructions on installing Django.
* Next, work through the tutorials in order (``docs/intro/tutorial01.txt``,
``docs/intro/tutorial02.txt``, etc.).
* If you want to set up an actual deployment server, read
``docs/howto/deployment/index.txt`` for instructions.
* You'll probably want to read through the topical guides (in ``docs/topics``)
next; from there you can jump to the HOWTOs (in ``docs/howto``) for specific
problems, and check out the reference (``docs/ref``) for gory details.
* See ``docs/README`` for instructions on building an HTML version of the docs.
Docs are updated rigorously. If you find any problems in the docs, or think
they should be clarified in any way, please take 30 seconds to fill out a
ticket here: https://code.djangoproject.com/newticket
To get more help:
* Join the ``#django`` channel on irc.freenode.net. Lots of helpful people hang
out there. See https://en.wikipedia.org/wiki/Wikipedia:IRC/Tutorial if you're
new to IRC.
* Join the django-users mailing list, or read the archives, at
https://groups.google.com/group/django-users.
To contribute to Django:
* Check out https://docs.djangoproject.com/en/dev/internals/contributing/ for
information about getting involved.
To run Django's test suite:
* Follow the instructions in the "Unit tests" section of
``docs/internals/contributing/writing-code/unit-tests.txt``, published online at
https://docs.djangoproject.com/en/dev/internals/contributing/writing-code/unit-tests/#running-the-unit-tests

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@ -1,5 +0,0 @@
Wheel-Version: 1.0
Generator: bdist_wheel (0.33.4)
Root-Is-Purelib: true
Tag: py3-none-any

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@ -1,3 +0,0 @@
[console_scripts]
django-admin = django.core.management:execute_from_command_line

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@ -1 +0,0 @@
import _virtualenv

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@ -1,115 +0,0 @@
"""Patches that are applied at runtime to the virtual environment"""
# -*- coding: utf-8 -*-
import os
import sys
VIRTUALENV_PATCH_FILE = os.path.join(__file__)
def patch_dist(dist):
"""
Distutils allows user to configure some arguments via a configuration file:
https://docs.python.org/3/install/index.html#distutils-configuration-files
Some of this arguments though don't make sense in context of the virtual environment files, let's fix them up.
"""
# we cannot allow some install config as that would get packages installed outside of the virtual environment
old_parse_config_files = dist.Distribution.parse_config_files
def parse_config_files(self, *args, **kwargs):
result = old_parse_config_files(self, *args, **kwargs)
install = self.get_option_dict("install")
if "prefix" in install: # the prefix governs where to install the libraries
install["prefix"] = VIRTUALENV_PATCH_FILE, os.path.abspath(sys.prefix)
for base in ("purelib", "platlib", "headers", "scripts", "data"):
key = "install_{}".format(base)
if key in install: # do not allow global configs to hijack venv paths
install.pop(key, None)
return result
dist.Distribution.parse_config_files = parse_config_files
# Import hook that patches some modules to ignore configuration values that break package installation in case
# of virtual environments.
_DISTUTILS_PATCH = "distutils.dist", "setuptools.dist"
if sys.version_info > (3, 4):
# https://docs.python.org/3/library/importlib.html#setting-up-an-importer
from importlib.abc import MetaPathFinder
from importlib.util import find_spec
from threading import Lock
from functools import partial
class _Finder(MetaPathFinder):
"""A meta path finder that allows patching the imported distutils modules"""
fullname = None
lock = Lock()
def find_spec(self, fullname, path, target=None):
if fullname in _DISTUTILS_PATCH and self.fullname is None:
with self.lock:
self.fullname = fullname
try:
spec = find_spec(fullname, path)
if spec is not None:
# https://www.python.org/dev/peps/pep-0451/#how-loading-will-work
is_new_api = hasattr(spec.loader, "exec_module")
func_name = "exec_module" if is_new_api else "load_module"
old = getattr(spec.loader, func_name)
func = self.exec_module if is_new_api else self.load_module
if old is not func:
try:
setattr(spec.loader, func_name, partial(func, old))
except AttributeError:
pass # C-Extension loaders are r/o such as zipimporter with <python 3.7
return spec
finally:
self.fullname = None
@staticmethod
def exec_module(old, module):
old(module)
if module.__name__ in _DISTUTILS_PATCH:
patch_dist(module)
@staticmethod
def load_module(old, name):
module = old(name)
if module.__name__ in _DISTUTILS_PATCH:
patch_dist(module)
return module
sys.meta_path.insert(0, _Finder())
else:
# https://www.python.org/dev/peps/pep-0302/
from imp import find_module
from pkgutil import ImpImporter, ImpLoader
class _VirtualenvImporter(object, ImpImporter):
def __init__(self, path=None):
object.__init__(self)
ImpImporter.__init__(self, path)
def find_module(self, fullname, path=None):
if fullname in _DISTUTILS_PATCH:
try:
return _VirtualenvLoader(fullname, *find_module(fullname.split(".")[-1], path))
except ImportError:
pass
return None
class _VirtualenvLoader(object, ImpLoader):
def __init__(self, fullname, file, filename, etc):
object.__init__(self)
ImpLoader.__init__(self, fullname, file, filename, etc)
def load_module(self, fullname):
module = super(_VirtualenvLoader, self).load_module(fullname)
patch_dist(module)
module.__loader__ = None # distlib fallback
return module
sys.meta_path.append(_VirtualenvImporter())

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@ -1,27 +0,0 @@
Copyright (c) Django Software Foundation and individual contributors.
All rights reserved.
Redistribution and use in source and binary forms, with or without modification,
are permitted provided that the following conditions are met:
1. Redistributions of source code must retain the above copyright notice,
this list of conditions and the following disclaimer.
2. Redistributions in binary form must reproduce the above copyright
notice, this list of conditions and the following disclaimer in the
documentation and/or other materials provided with the distribution.
3. Neither the name of Django nor the names of its contributors may be used
to endorse or promote products derived from this software without
specific prior written permission.
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR
ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
(INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON
ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

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@ -1,226 +0,0 @@
Metadata-Version: 2.1
Name: asgiref
Version: 3.2.7
Summary: ASGI specs, helper code, and adapters
Home-page: http://github.com/django/asgiref/
Author: Django Software Foundation
Author-email: foundation@djangoproject.com
License: BSD
Platform: UNKNOWN
Classifier: Development Status :: 5 - Production/Stable
Classifier: Environment :: Web Environment
Classifier: Intended Audience :: Developers
Classifier: License :: OSI Approved :: BSD License
Classifier: Operating System :: OS Independent
Classifier: Programming Language :: Python
Classifier: Programming Language :: Python :: 3
Classifier: Programming Language :: Python :: 3.5
Classifier: Programming Language :: Python :: 3.6
Classifier: Programming Language :: Python :: 3.7
Classifier: Programming Language :: Python :: 3.8
Classifier: Topic :: Internet :: WWW/HTTP
Requires-Python: >=3.5
Description-Content-Type: text/x-rst
Provides-Extra: tests
Requires-Dist: pytest (~=4.3.0) ; extra == 'tests'
Requires-Dist: pytest-asyncio (~=0.10.0) ; extra == 'tests'
asgiref
=======
.. image:: https://api.travis-ci.org/django/asgiref.svg
:target: https://travis-ci.org/django/asgiref
.. image:: https://img.shields.io/pypi/v/asgiref.svg
:target: https://pypi.python.org/pypi/asgiref
ASGI is a standard for Python asynchronous web apps and servers to communicate
with each other, and positioned as an asynchronous successor to WSGI. You can
read more at https://asgi.readthedocs.io/en/latest/
This package includes ASGI base libraries, such as:
* Sync-to-async and async-to-sync function wrappers, ``asgiref.sync``
* Server base classes, ``asgiref.server``
* A WSGI-to-ASGI adapter, in ``asgiref.wsgi``
Function wrappers
-----------------
These allow you to wrap or decorate async or sync functions to call them from
the other style (so you can call async functions from a synchronous thread,
or vice-versa).
In particular:
* AsyncToSync lets a synchronous subthread stop and wait while the async
function is called on the main thread's event loop, and then control is
returned to the thread when the async function is finished.
* SyncToAsync lets async code call a synchronous function, which is run in
a threadpool and control returned to the async coroutine when the synchronous
function completes.
The idea is to make it easier to call synchronous APIs from async code and
asynchronous APIs from synchronous code so it's easier to transition code from
one style to the other. In the case of Channels, we wrap the (synchronous)
Django view system with SyncToAsync to allow it to run inside the (asynchronous)
ASGI server.
Note that exactly what threads things run in is very specific, and aimed to
keep maximum compatibility with old synchronous code. See
"Synchronous code & Threads" below for a full explanation.
Threadlocal replacement
-----------------------
This is a drop-in replacement for ``threading.local`` that works with both
threads and asyncio Tasks. Even better, it will proxy values through from a
task-local context to a thread-local context when you use ``sync_to_async``
to run things in a threadpool, and vice-versa for ``async_to_sync``.
If you instead want true thread- and task-safety, you can set
``thread_critical`` on the Local object to ensure this instead.
Server base classes
-------------------
Includes a ``StatelessServer`` class which provides all the hard work of
writing a stateless server (as in, does not handle direct incoming sockets
but instead consumes external streams or sockets to work out what is happening).
An example of such a server would be a chatbot server that connects out to
a central chat server and provides a "connection scope" per user chatting to
it. There's only one actual connection, but the server has to separate things
into several scopes for easier writing of the code.
You can see an example of this being used in `frequensgi <https://github.com/andrewgodwin/frequensgi>`_.
WSGI-to-ASGI adapter
--------------------
Allows you to wrap a WSGI application so it appears as a valid ASGI application.
Simply wrap it around your WSGI application like so::
asgi_application = WsgiToAsgi(wsgi_application)
The WSGI application will be run in a synchronous threadpool, and the wrapped
ASGI application will be one that accepts ``http`` class messages.
Please note that not all extended features of WSGI may be supported (such as
file handles for incoming POST bodies).
Dependencies
------------
``asgiref`` requires Python 3.5 or higher.
Contributing
------------
Please refer to the
`main Channels contributing docs <https://github.com/django/channels/blob/master/CONTRIBUTING.rst>`_.
Testing
'''''''
To run tests, make sure you have installed the ``tests`` extra with the package::
cd asgiref/
pip install -e .[tests]
pytest
Building the documentation
''''''''''''''''''''''''''
The documentation uses `Sphinx <http://www.sphinx-doc.org>`_::
cd asgiref/docs/
pip install sphinx
To build the docs, you can use the default tools::
sphinx-build -b html . _build/html # or `make html`, if you've got make set up
cd _build/html
python -m http.server
...or you can use ``sphinx-autobuild`` to run a server and rebuild/reload
your documentation changes automatically::
pip install sphinx-autobuild
sphinx-autobuild . _build/html
Implementation Details
----------------------
Synchronous code & threads
''''''''''''''''''''''''''
The ``asgiref.sync`` module provides two wrappers that let you go between
asynchronous and synchronous code at will, while taking care of the rough edges
for you.
Unfortunately, the rough edges are numerous, and the code has to work especially
hard to keep things in the same thread as much as possible. Notably, the
restrictions we are working with are:
* All synchronous code called through ``SyncToAsync`` and marked with
``thread_sensitive`` should run in the same thread as each other (and if the
outer layer of the program is synchronous, the main thread)
* If a thread already has a running async loop, ``AsyncToSync`` can't run things
on that loop if it's blocked on synchronous code that is above you in the
call stack.
The first compromise you get to might be that ``thread_sensitive`` code should
just run in the same thread and not spawn in a sub-thread, fulfilling the first
restriction, but that immediately runs you into the second restriction.
The only real solution is to essentially have a variant of ThreadPoolExecutor
that executes any ``thread_sensitive`` code on the outermost synchronous
thread - either the main thread, or a single spawned subthread.
This means you now have two basic states:
* If the outermost layer of your program is synchronous, then all async code
run through ``AsyncToSync`` will run in a per-call event loop in arbitary
sub-threads, while all ``thread_sensitive`` code will run in the main thread.
* If the outermost layer of your program is asynchronous, then all async code
runs on the main thread's event loop, and all ``thread_sensitive`` synchronous
code will run in a single shared sub-thread.
Cruicially, this means that in both cases there is a thread which is a shared
resource that all ``thread_sensitive`` code must run on, and there is a chance
that this thread is currently blocked on its own ``AsyncToSync`` call. Thus,
``AsyncToSync`` needs to act as an executor for thread code while it's blocking.
The ``CurrentThreadExecutor`` class provides this functionality; rather than
simply waiting on a Future, you can call its ``run_until_future`` method and
it will run submitted code until that Future is done. This means that code
inside the call can then run code on your thread.
Maintenance and Security
------------------------
To report security issues, please contact security@djangoproject.com. For GPG
signatures and more security process information, see
https://docs.djangoproject.com/en/dev/internals/security/.
To report bugs or request new features, please open a new GitHub issue.
This repository is part of the Channels project. For the shepherd and maintenance team, please see the
`main Channels readme <https://github.com/django/channels/blob/master/README.rst>`_.

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@ -1,24 +0,0 @@
asgiref-3.2.7.dist-info/INSTALLER,sha256=zuuue4knoyJ-UwPPXg8fezS7VCrXJQrAP7zeNuwvFQg,4
asgiref-3.2.7.dist-info/LICENSE,sha256=uEZBXRtRTpwd_xSiLeuQbXlLxUbKYSn5UKGM0JHipmk,1552
asgiref-3.2.7.dist-info/METADATA,sha256=18_8GupjB9c-tnY7PgZQIO49z5XpFrT3453WbVj2Qvo,8227
asgiref-3.2.7.dist-info/RECORD,,
asgiref-3.2.7.dist-info/WHEEL,sha256=kGT74LWyRUZrL4VgLh6_g12IeVl_9u9ZVhadrgXZUEY,110
asgiref-3.2.7.dist-info/top_level.txt,sha256=bokQjCzwwERhdBiPdvYEZa4cHxT4NCeAffQNUqJ8ssg,8
asgiref/__init__.py,sha256=IELkDI6KAaCvfMjius3Of-YvCdsjwTVZkdHxMo4NHTU,22
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asgiref/current_thread_executor.py,sha256=3dRFt3jAl_x1wr9prZZMut071pmdHdIwbTnUAYVejj4,2974
asgiref/local.py,sha256=jKNZ4SVcdeYIJIVm9Ru5x5FOQa9EL-bs6S3fQOSieyc,4718
asgiref/server.py,sha256=iFJn_uD-poeHWgLOuSnKCVMS1HqqV-IOTOOC85fKr00,5915
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@ -1,6 +0,0 @@
Wheel-Version: 1.0
Generator: bdist_wheel (0.34.2)
Root-Is-Purelib: true
Tag: py2-none-any
Tag: py3-none-any

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@ -1 +0,0 @@
__version__ = "3.2.7"

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@ -1,47 +0,0 @@
import asyncio
import inspect
def is_double_callable(application):
"""
Tests to see if an application is a legacy-style (double-callable) application.
"""
# Look for a hint on the object first
if getattr(application, "_asgi_single_callable", False):
return False
if getattr(application, "_asgi_double_callable", False):
return True
# Uninstanted classes are double-callable
if inspect.isclass(application):
return True
# Instanted classes depend on their __call__
if hasattr(application, "__call__"):
# We only check to see if its __call__ is a coroutine function -
# if it's not, it still might be a coroutine function itself.
if asyncio.iscoroutinefunction(application.__call__):
return False
# Non-classes we just check directly
return not asyncio.iscoroutinefunction(application)
def double_to_single_callable(application):
"""
Transforms a double-callable ASGI application into a single-callable one.
"""
async def new_application(scope, receive, send):
instance = application(scope)
return await instance(receive, send)
return new_application
def guarantee_single_callable(application):
"""
Takes either a single- or double-callable application and always returns it
in single-callable style. Use this to add backwards compatibility for ASGI
2.0 applications to your server/test harness/etc.
"""
if is_double_callable(application):
application = double_to_single_callable(application)
return application

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@ -1,86 +0,0 @@
import queue
import threading
import time
from concurrent.futures import Executor, Future
class _WorkItem(object):
"""
Represents an item needing to be run in the executor.
Copied from ThreadPoolExecutor (but it's private, so we're not going to rely on importing it)
"""
def __init__(self, future, fn, args, kwargs):
self.future = future
self.fn = fn
self.args = args
self.kwargs = kwargs
def run(self):
if not self.future.set_running_or_notify_cancel():
return
try:
result = self.fn(*self.args, **self.kwargs)
except BaseException as exc:
self.future.set_exception(exc)
# Break a reference cycle with the exception 'exc'
self = None
else:
self.future.set_result(result)
class CurrentThreadExecutor(Executor):
"""
An Executor that actually runs code in the thread it is instantiated in.
Passed to other threads running async code, so they can run sync code in
the thread they came from.
"""
def __init__(self):
self._work_thread = threading.current_thread()
self._work_queue = queue.Queue()
self._broken = False
def run_until_future(self, future):
"""
Runs the code in the work queue until a result is available from the future.
Should be run from the thread the executor is initialised in.
"""
# Check we're in the right thread
if threading.current_thread() != self._work_thread:
raise RuntimeError(
"You cannot run CurrentThreadExecutor from a different thread"
)
# Keep getting work items and checking the future
try:
while True:
# Get a work item and run it
try:
work_item = self._work_queue.get(block=False)
except queue.Empty:
# See if the future is done (we only exit if the work queue is empty)
if future.done():
return
# Prevent hot-looping on nothing
time.sleep(0.001)
else:
work_item.run()
del work_item
finally:
self._broken = True
def submit(self, fn, *args, **kwargs):
# Check they're not submitting from the same thread
if threading.current_thread() == self._work_thread:
raise RuntimeError(
"You cannot submit onto CurrentThreadExecutor from its own thread"
)
# Check they're not too late or the executor errored
if self._broken:
raise RuntimeError("CurrentThreadExecutor already quit or is broken")
# Add to work queue
f = Future()
work_item = _WorkItem(f, fn, args, kwargs)
self._work_queue.put(work_item)
# Return the future
return f

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import random
import string
import sys
import threading
import weakref
class Local:
"""
A drop-in replacement for threading.locals that also works with asyncio
Tasks (via the current_task asyncio method), and passes locals through
sync_to_async and async_to_sync.
Specifically:
- Locals work per-coroutine on any thread not spawned using asgiref
- Locals work per-thread on any thread not spawned using asgiref
- Locals are shared with the parent coroutine when using sync_to_async
- Locals are shared with the parent thread when using async_to_sync
(and if that thread was launched using sync_to_async, with its parent
coroutine as well, with this working for indefinite levels of nesting)
Set thread_critical to True to not allow locals to pass from an async Task
to a thread it spawns. This is needed for code that truly needs
thread-safety, as opposed to things used for helpful context (e.g. sqlite
does not like being called from a different thread to the one it is from).
Thread-critical code will still be differentiated per-Task within a thread
as it is expected it does not like concurrent access.
This doesn't use contextvars as it needs to support 3.6. Once it can support
3.7 only, we can then reimplement the storage more nicely.
"""
CLEANUP_INTERVAL = 60 # seconds
def __init__(self, thread_critical=False):
self._thread_critical = thread_critical
self._thread_lock = threading.RLock()
self._context_refs = []
# Random suffixes stop accidental reuse between different Locals,
# though we try to force deletion as well.
self._attr_name = "_asgiref_local_impl_%s_%s" % (
id(self),
"".join(random.choice(string.ascii_letters) for i in range(8)),
)
def _get_context_id(self):
"""
Get the ID we should use for looking up variables
"""
# Prevent a circular reference
from .sync import AsyncToSync, SyncToAsync
# First, pull the current task if we can
context_id = SyncToAsync.get_current_task()
context_is_async = True
# OK, let's try for a thread ID
if context_id is None:
context_id = threading.current_thread()
context_is_async = False
# If we're thread-critical, we stop here, as we can't share contexts.
if self._thread_critical:
return context_id
# Now, take those and see if we can resolve them through the launch maps
for i in range(sys.getrecursionlimit()):
try:
if context_is_async:
# Tasks have a source thread in AsyncToSync
context_id = AsyncToSync.launch_map[context_id]
context_is_async = False
else:
# Threads have a source task in SyncToAsync
context_id = SyncToAsync.launch_map[context_id]
context_is_async = True
except KeyError:
break
else:
# Catch infinite loops (they happen if you are screwing around
# with AsyncToSync implementations)
raise RuntimeError("Infinite launch_map loops")
return context_id
def _get_storage(self):
context_obj = self._get_context_id()
if not hasattr(context_obj, self._attr_name):
setattr(context_obj, self._attr_name, {})
self._context_refs.append(weakref.ref(context_obj))
return getattr(context_obj, self._attr_name)
def __del__(self):
for ref in self._context_refs:
context_obj = ref()
if context_obj:
try:
delattr(context_obj, self._attr_name)
except AttributeError:
pass
def __getattr__(self, key):
with self._thread_lock:
storage = self._get_storage()
if key in storage:
return storage[key]
else:
raise AttributeError("%r object has no attribute %r" % (self, key))
def __setattr__(self, key, value):
if key in ("_context_refs", "_thread_critical", "_thread_lock", "_attr_name"):
return super().__setattr__(key, value)
with self._thread_lock:
storage = self._get_storage()
storage[key] = value
def __delattr__(self, key):
with self._thread_lock:
storage = self._get_storage()
if key in storage:
del storage[key]
else:
raise AttributeError("%r object has no attribute %r" % (self, key))

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@ -1,154 +0,0 @@
import asyncio
import logging
import time
import traceback
logger = logging.getLogger(__name__)
class StatelessServer:
"""
Base server class that handles basic concepts like application instance
creation/pooling, exception handling, and similar, for stateless protocols
(i.e. ones without actual incoming connections to the process)
Your code should override the handle() method, doing whatever it needs to,
and calling get_or_create_application_instance with a unique `scope_id`
and `scope` for the scope it wants to get.
If an application instance is found with the same `scope_id`, you are
given its input queue, otherwise one is made for you with the scope provided
and you are given that fresh new input queue. Either way, you should do
something like:
input_queue = self.get_or_create_application_instance(
"user-123456",
{"type": "testprotocol", "user_id": "123456", "username": "andrew"},
)
input_queue.put_nowait(message)
If you try and create an application instance and there are already
`max_application` instances, the oldest/least recently used one will be
reclaimed and shut down to make space.
Application coroutines that error will be found periodically (every 100ms
by default) and have their exceptions printed to the console. Override
application_exception() if you want to do more when this happens.
If you override run(), make sure you handle things like launching the
application checker.
"""
application_checker_interval = 0.1
def __init__(self, application, max_applications=1000):
# Parameters
self.application = application
self.max_applications = max_applications
# Initialisation
self.application_instances = {}
### Mainloop and handling
def run(self):
"""
Runs the asyncio event loop with our handler loop.
"""
event_loop = asyncio.get_event_loop()
asyncio.ensure_future(self.application_checker())
try:
event_loop.run_until_complete(self.handle())
except KeyboardInterrupt:
logger.info("Exiting due to Ctrl-C/interrupt")
async def handle(self):
raise NotImplementedError("You must implement handle()")
async def application_send(self, scope, message):
"""
Receives outbound sends from applications and handles them.
"""
raise NotImplementedError("You must implement application_send()")
### Application instance management
def get_or_create_application_instance(self, scope_id, scope):
"""
Creates an application instance and returns its queue.
"""
if scope_id in self.application_instances:
self.application_instances[scope_id]["last_used"] = time.time()
return self.application_instances[scope_id]["input_queue"]
# See if we need to delete an old one
while len(self.application_instances) > self.max_applications:
self.delete_oldest_application_instance()
# Make an instance of the application
input_queue = asyncio.Queue()
application_instance = self.application(scope=scope)
# Run it, and stash the future for later checking
future = asyncio.ensure_future(
application_instance(
receive=input_queue.get,
send=lambda message: self.application_send(scope, message),
)
)
self.application_instances[scope_id] = {
"input_queue": input_queue,
"future": future,
"scope": scope,
"last_used": time.time(),
}
return input_queue
def delete_oldest_application_instance(self):
"""
Finds and deletes the oldest application instance
"""
oldest_time = min(
details["last_used"] for details in self.application_instances.values()
)
for scope_id, details in self.application_instances.items():
if details["last_used"] == oldest_time:
self.delete_application_instance(scope_id)
# Return to make sure we only delete one in case two have
# the same oldest time
return
def delete_application_instance(self, scope_id):
"""
Removes an application instance (makes sure its task is stopped,
then removes it from the current set)
"""
details = self.application_instances[scope_id]
del self.application_instances[scope_id]
if not details["future"].done():
details["future"].cancel()
async def application_checker(self):
"""
Goes through the set of current application instance Futures and cleans up
any that are done/prints exceptions for any that errored.
"""
while True:
await asyncio.sleep(self.application_checker_interval)
for scope_id, details in list(self.application_instances.items()):
if details["future"].done():
exception = details["future"].exception()
if exception:
await self.application_exception(exception, details)
try:
del self.application_instances[scope_id]
except KeyError:
# Exception handling might have already got here before us. That's fine.
pass
async def application_exception(self, exception, application_details):
"""
Called whenever an application coroutine has an exception.
"""
logging.error(
"Exception inside application: %s\n%s%s",
exception,
"".join(traceback.format_tb(exception.__traceback__)),
" {}".format(exception),
)

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@ -1,341 +0,0 @@
import asyncio
import asyncio.coroutines
import functools
import os
import sys
import threading
from concurrent.futures import Future, ThreadPoolExecutor
from .current_thread_executor import CurrentThreadExecutor
from .local import Local
try:
import contextvars # Python 3.7+ only.
except ImportError:
contextvars = None
class AsyncToSync:
"""
Utility class which turns an awaitable that only works on the thread with
the event loop into a synchronous callable that works in a subthread.
If the call stack contains an async loop, the code runs there.
Otherwise, the code runs in a new loop in a new thread.
Either way, this thread then pauses and waits to run any thread_sensitive
code called from further down the call stack using SyncToAsync, before
finally exiting once the async task returns.
"""
# Maps launched Tasks to the threads that launched them (for locals impl)
launch_map = {}
# Keeps track of which CurrentThreadExecutor to use. This uses an asgiref
# Local, not a threadlocal, so that tasks can work out what their parent used.
executors = Local()
def __init__(self, awaitable, force_new_loop=False):
self.awaitable = awaitable
try:
self.__self__ = self.awaitable.__self__
except AttributeError:
pass
if force_new_loop:
# They have asked that we always run in a new sub-loop.
self.main_event_loop = None
else:
try:
self.main_event_loop = asyncio.get_event_loop()
except RuntimeError:
# There's no event loop in this thread. Look for the threadlocal if
# we're inside SyncToAsync
self.main_event_loop = getattr(
SyncToAsync.threadlocal, "main_event_loop", None
)
def __call__(self, *args, **kwargs):
# You can't call AsyncToSync from a thread with a running event loop
try:
event_loop = asyncio.get_event_loop()
except RuntimeError:
pass
else:
if event_loop.is_running():
raise RuntimeError(
"You cannot use AsyncToSync in the same thread as an async event loop - "
"just await the async function directly."
)
# Make a future for the return information
call_result = Future()
# Get the source thread
source_thread = threading.current_thread()
# Make a CurrentThreadExecutor we'll use to idle in this thread - we
# need one for every sync frame, even if there's one above us in the
# same thread.
if hasattr(self.executors, "current"):
old_current_executor = self.executors.current
else:
old_current_executor = None
current_executor = CurrentThreadExecutor()
self.executors.current = current_executor
# Use call_soon_threadsafe to schedule a synchronous callback on the
# main event loop's thread if it's there, otherwise make a new loop
# in this thread.
try:
if not (self.main_event_loop and self.main_event_loop.is_running()):
# Make our own event loop - in a new thread - and run inside that.
loop = asyncio.new_event_loop()
loop_executor = ThreadPoolExecutor(max_workers=1)
loop_future = loop_executor.submit(
self._run_event_loop,
loop,
self.main_wrap(
args, kwargs, call_result, source_thread, sys.exc_info()
),
)
if current_executor:
# Run the CurrentThreadExecutor until the future is done
current_executor.run_until_future(loop_future)
# Wait for future and/or allow for exception propagation
loop_future.result()
else:
# Call it inside the existing loop
self.main_event_loop.call_soon_threadsafe(
self.main_event_loop.create_task,
self.main_wrap(
args, kwargs, call_result, source_thread, sys.exc_info()
),
)
if current_executor:
# Run the CurrentThreadExecutor until the future is done
current_executor.run_until_future(call_result)
finally:
# Clean up any executor we were running
if hasattr(self.executors, "current"):
del self.executors.current
if old_current_executor:
self.executors.current = old_current_executor
# Wait for results from the future.
return call_result.result()
def _run_event_loop(self, loop, coro):
"""
Runs the given event loop (designed to be called in a thread).
"""
asyncio.set_event_loop(loop)
try:
loop.run_until_complete(coro)
finally:
try:
# mimic asyncio.run() behavior
# cancel unexhausted async generators
if sys.version_info >= (3, 7, 0):
tasks = asyncio.all_tasks(loop)
else:
tasks = asyncio.Task.all_tasks(loop)
for task in tasks:
task.cancel()
loop.run_until_complete(asyncio.gather(*tasks, return_exceptions=True))
for task in tasks:
if task.cancelled():
continue
if task.exception() is not None:
loop.call_exception_handler(
{
"message": "unhandled exception during loop shutdown",
"exception": task.exception(),
"task": task,
}
)
if hasattr(loop, "shutdown_asyncgens"):
loop.run_until_complete(loop.shutdown_asyncgens())
finally:
loop.close()
asyncio.set_event_loop(self.main_event_loop)
def __get__(self, parent, objtype):
"""
Include self for methods
"""
func = functools.partial(self.__call__, parent)
return functools.update_wrapper(func, self.awaitable)
async def main_wrap(self, args, kwargs, call_result, source_thread, exc_info):
"""
Wraps the awaitable with something that puts the result into the
result/exception future.
"""
current_task = SyncToAsync.get_current_task()
self.launch_map[current_task] = source_thread
try:
# If we have an exception, run the function inside the except block
# after raising it so exc_info is correctly populated.
if exc_info[1]:
try:
raise exc_info[1]
except:
result = await self.awaitable(*args, **kwargs)
else:
result = await self.awaitable(*args, **kwargs)
except Exception as e:
call_result.set_exception(e)
else:
call_result.set_result(result)
finally:
del self.launch_map[current_task]
class SyncToAsync:
"""
Utility class which turns a synchronous callable into an awaitable that
runs in a threadpool. It also sets a threadlocal inside the thread so
calls to AsyncToSync can escape it.
If thread_sensitive is passed, the code will run in the same thread as any
outer code. This is needed for underlying Python code that is not
threadsafe (for example, code which handles SQLite database connections).
If the outermost program is async (i.e. SyncToAsync is outermost), then
this will be a dedicated single sub-thread that all sync code runs in,
one after the other. If the outermost program is sync (i.e. AsyncToSync is
outermost), this will just be the main thread. This is achieved by idling
with a CurrentThreadExecutor while AsyncToSync is blocking its sync parent,
rather than just blocking.
"""
# If they've set ASGI_THREADS, update the default asyncio executor for now
if "ASGI_THREADS" in os.environ:
loop = asyncio.get_event_loop()
loop.set_default_executor(
ThreadPoolExecutor(max_workers=int(os.environ["ASGI_THREADS"]))
)
# Maps launched threads to the coroutines that spawned them
launch_map = {}
# Storage for main event loop references
threadlocal = threading.local()
# Single-thread executor for thread-sensitive code
single_thread_executor = ThreadPoolExecutor(max_workers=1)
def __init__(self, func, thread_sensitive=False):
self.func = func
functools.update_wrapper(self, func)
self._thread_sensitive = thread_sensitive
self._is_coroutine = asyncio.coroutines._is_coroutine
try:
self.__self__ = func.__self__
except AttributeError:
pass
async def __call__(self, *args, **kwargs):
loop = asyncio.get_event_loop()
# Work out what thread to run the code in
if self._thread_sensitive:
if hasattr(AsyncToSync.executors, "current"):
# If we have a parent sync thread above somewhere, use that
executor = AsyncToSync.executors.current
else:
# Otherwise, we run it in a fixed single thread
executor = self.single_thread_executor
else:
executor = None # Use default
if contextvars is not None:
context = contextvars.copy_context()
child = functools.partial(self.func, *args, **kwargs)
func = context.run
args = (child,)
kwargs = {}
else:
func = self.func
# Run the code in the right thread
future = loop.run_in_executor(
executor,
functools.partial(
self.thread_handler,
loop,
self.get_current_task(),
sys.exc_info(),
func,
*args,
**kwargs
),
)
ret = await asyncio.wait_for(future, timeout=None)
if contextvars is not None:
# Check for changes in contextvars, and set them to the current
# context for downstream consumers
for cvar in context:
try:
if cvar.get() != context.get(cvar):
cvar.set(context.get(cvar))
except LookupError:
cvar.set(context.get(cvar))
return ret
def __get__(self, parent, objtype):
"""
Include self for methods
"""
return functools.partial(self.__call__, parent)
def thread_handler(self, loop, source_task, exc_info, func, *args, **kwargs):
"""
Wraps the sync application with exception handling.
"""
# Set the threadlocal for AsyncToSync
self.threadlocal.main_event_loop = loop
# Set the task mapping (used for the locals module)
current_thread = threading.current_thread()
if AsyncToSync.launch_map.get(source_task) == current_thread:
# Our parent task was launched from this same thread, so don't make
# a launch map entry - let it shortcut over us! (and stop infinite loops)
parent_set = False
else:
self.launch_map[current_thread] = source_task
parent_set = True
# Run the function
try:
# If we have an exception, run the function inside the except block
# after raising it so exc_info is correctly populated.
if exc_info[1]:
try:
raise exc_info[1]
except:
return func(*args, **kwargs)
else:
return func(*args, **kwargs)
finally:
# Only delete the launch_map parent if we set it, otherwise it is
# from someone else.
if parent_set:
del self.launch_map[current_thread]
@staticmethod
def get_current_task():
"""
Cross-version implementation of asyncio.current_task()
Returns None if there is no task.
"""
try:
if hasattr(asyncio, "current_task"):
# Python 3.7 and up
return asyncio.current_task()
else:
# Python 3.6
return asyncio.Task.current_task()
except RuntimeError:
return None
# Lowercase is more sensible for most things
sync_to_async = SyncToAsync
async_to_sync = AsyncToSync

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@ -1,97 +0,0 @@
import asyncio
import time
from .compatibility import guarantee_single_callable
from .timeout import timeout as async_timeout
class ApplicationCommunicator:
"""
Runs an ASGI application in a test mode, allowing sending of
messages to it and retrieval of messages it sends.
"""
def __init__(self, application, scope):
self.application = guarantee_single_callable(application)
self.scope = scope
self.input_queue = asyncio.Queue()
self.output_queue = asyncio.Queue()
self.future = asyncio.ensure_future(
self.application(scope, self.input_queue.get, self.output_queue.put)
)
async def wait(self, timeout=1):
"""
Waits for the application to stop itself and returns any exceptions.
"""
try:
async with async_timeout(timeout):
try:
await self.future
self.future.result()
except asyncio.CancelledError:
pass
finally:
if not self.future.done():
self.future.cancel()
try:
await self.future
except asyncio.CancelledError:
pass
def stop(self, exceptions=True):
if not self.future.done():
self.future.cancel()
elif exceptions:
# Give a chance to raise any exceptions
self.future.result()
def __del__(self):
# Clean up on deletion
try:
self.stop(exceptions=False)
except RuntimeError:
# Event loop already stopped
pass
async def send_input(self, message):
"""
Sends a single message to the application
"""
# Give it the message
await self.input_queue.put(message)
async def receive_output(self, timeout=1):
"""
Receives a single message from the application, with optional timeout.
"""
# Make sure there's not an exception to raise from the task
if self.future.done():
self.future.result()
# Wait and receive the message
try:
async with async_timeout(timeout):
return await self.output_queue.get()
except asyncio.TimeoutError as e:
# See if we have another error to raise inside
if self.future.done():
self.future.result()
else:
self.future.cancel()
try:
await self.future
except asyncio.CancelledError:
pass
raise e
async def receive_nothing(self, timeout=0.1, interval=0.01):
"""
Checks that there is no message to receive in the given time.
"""
# `interval` has precedence over `timeout`
start = time.monotonic()
while time.monotonic() - start < timeout:
if not self.output_queue.empty():
return False
await asyncio.sleep(interval)
return self.output_queue.empty()

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@ -1,128 +0,0 @@
# This code is originally sourced from the aio-libs project "async_timeout",
# under the Apache 2.0 license. You may see the original project at
# https://github.com/aio-libs/async-timeout
# It is vendored here to reduce chain-dependencies on this library, and
# modified slightly to remove some features we don't use.
import asyncio
import sys
from types import TracebackType
from typing import Any, Optional, Type # noqa
PY_37 = sys.version_info >= (3, 7)
class timeout:
"""timeout context manager.
Useful in cases when you want to apply timeout logic around block
of code or in cases when asyncio.wait_for is not suitable. For example:
>>> with timeout(0.001):
... async with aiohttp.get('https://github.com') as r:
... await r.text()
timeout - value in seconds or None to disable timeout logic
loop - asyncio compatible event loop
"""
def __init__(
self,
timeout: Optional[float],
*,
loop: Optional[asyncio.AbstractEventLoop] = None
) -> None:
self._timeout = timeout
if loop is None:
loop = asyncio.get_event_loop()
self._loop = loop
self._task = None # type: Optional[asyncio.Task[Any]]
self._cancelled = False
self._cancel_handler = None # type: Optional[asyncio.Handle]
self._cancel_at = None # type: Optional[float]
def __enter__(self) -> "timeout":
return self._do_enter()
def __exit__(
self,
exc_type: Type[BaseException],
exc_val: BaseException,
exc_tb: TracebackType,
) -> Optional[bool]:
self._do_exit(exc_type)
return None
async def __aenter__(self) -> "timeout":
return self._do_enter()
async def __aexit__(
self,
exc_type: Type[BaseException],
exc_val: BaseException,
exc_tb: TracebackType,
) -> None:
self._do_exit(exc_type)
@property
def expired(self) -> bool:
return self._cancelled
@property
def remaining(self) -> Optional[float]:
if self._cancel_at is not None:
return max(self._cancel_at - self._loop.time(), 0.0)
else:
return None
def _do_enter(self) -> "timeout":
# Support Tornado 5- without timeout
# Details: https://github.com/python/asyncio/issues/392
if self._timeout is None:
return self
self._task = current_task(self._loop)
if self._task is None:
raise RuntimeError(
"Timeout context manager should be used " "inside a task"
)
if self._timeout <= 0:
self._loop.call_soon(self._cancel_task)
return self
self._cancel_at = self._loop.time() + self._timeout
self._cancel_handler = self._loop.call_at(self._cancel_at, self._cancel_task)
return self
def _do_exit(self, exc_type: Type[BaseException]) -> None:
if exc_type is asyncio.CancelledError and self._cancelled:
self._cancel_handler = None
self._task = None
raise asyncio.TimeoutError
if self._timeout is not None and self._cancel_handler is not None:
self._cancel_handler.cancel()
self._cancel_handler = None
self._task = None
return None
def _cancel_task(self) -> None:
if self._task is not None:
self._task.cancel()
self._cancelled = True
def current_task(loop: asyncio.AbstractEventLoop) -> "asyncio.Task[Any]":
if PY_37:
task = asyncio.current_task(loop=loop) # type: ignore
else:
task = asyncio.Task.current_task(loop=loop)
if task is None:
# this should be removed, tokio must use register_task and family API
if hasattr(loop, "current_task"):
task = loop.current_task() # type: ignore
return task

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from io import BytesIO
from tempfile import SpooledTemporaryFile
from asgiref.sync import AsyncToSync, sync_to_async
class WsgiToAsgi:
"""
Wraps a WSGI application to make it into an ASGI application.
"""
def __init__(self, wsgi_application):
self.wsgi_application = wsgi_application
async def __call__(self, scope, receive, send):
"""
ASGI application instantiation point.
We return a new WsgiToAsgiInstance here with the WSGI app
and the scope, ready to respond when it is __call__ed.
"""
await WsgiToAsgiInstance(self.wsgi_application)(scope, receive, send)
class WsgiToAsgiInstance:
"""
Per-socket instance of a wrapped WSGI application
"""
def __init__(self, wsgi_application):
self.wsgi_application = wsgi_application
self.response_started = False
async def __call__(self, scope, receive, send):
if scope["type"] != "http":
raise ValueError("WSGI wrapper received a non-HTTP scope")
self.scope = scope
with SpooledTemporaryFile(max_size=65536) as body:
# Alright, wait for the http.request messages
while True:
message = await receive()
if message["type"] != "http.request":
raise ValueError("WSGI wrapper received a non-HTTP-request message")
body.write(message.get("body", b""))
if not message.get("more_body"):
break
body.seek(0)
# Wrap send so it can be called from the subthread
self.sync_send = AsyncToSync(send)
# Call the WSGI app
await self.run_wsgi_app(body)
def build_environ(self, scope, body):
"""
Builds a scope and request body into a WSGI environ object.
"""
environ = {
"REQUEST_METHOD": scope["method"],
"SCRIPT_NAME": scope.get("root_path", ""),
"PATH_INFO": scope["path"],
"QUERY_STRING": scope["query_string"].decode("ascii"),
"SERVER_PROTOCOL": "HTTP/%s" % scope["http_version"],
"wsgi.version": (1, 0),
"wsgi.url_scheme": scope.get("scheme", "http"),
"wsgi.input": body,
"wsgi.errors": BytesIO(),
"wsgi.multithread": True,
"wsgi.multiprocess": True,
"wsgi.run_once": False,
}
# Get server name and port - required in WSGI, not in ASGI
if "server" in scope:
environ["SERVER_NAME"] = scope["server"][0]
environ["SERVER_PORT"] = str(scope["server"][1])
else:
environ["SERVER_NAME"] = "localhost"
environ["SERVER_PORT"] = "80"
if "client" in scope:
environ["REMOTE_ADDR"] = scope["client"][0]
# Go through headers and make them into environ entries
for name, value in self.scope.get("headers", []):
name = name.decode("latin1")
if name == "content-length":
corrected_name = "CONTENT_LENGTH"
elif name == "content-type":
corrected_name = "CONTENT_TYPE"
else:
corrected_name = "HTTP_%s" % name.upper().replace("-", "_")
# HTTPbis say only ASCII chars are allowed in headers, but we latin1 just in case
value = value.decode("latin1")
if corrected_name in environ:
value = environ[corrected_name] + "," + value
environ[corrected_name] = value
return environ
def start_response(self, status, response_headers, exc_info=None):
"""
WSGI start_response callable.
"""
# Don't allow re-calling once response has begun
if self.response_started:
raise exc_info[1].with_traceback(exc_info[2])
# Don't allow re-calling without exc_info
if hasattr(self, "response_start") and exc_info is None:
raise ValueError(
"You cannot call start_response a second time without exc_info"
)
# Extract status code
status_code, _ = status.split(" ", 1)
status_code = int(status_code)
# Extract headers
headers = [
(name.lower().encode("ascii"), value.encode("ascii"))
for name, value in response_headers
]
# Build and send response start message.
self.response_start = {
"type": "http.response.start",
"status": status_code,
"headers": headers,
}
@sync_to_async
def run_wsgi_app(self, body):
"""
Called in a subthread to run the WSGI app. We encapsulate like
this so that the start_response callable is called in the same thread.
"""
# Translate the scope and incoming request body into a WSGI environ
environ = self.build_environ(self.scope, body)
# Run the WSGI app
for output in self.wsgi_application(environ, self.start_response):
# If this is the first response, include the response headers
if not self.response_started:
self.response_started = True
self.sync_send(self.response_start)
self.sync_send(
{"type": "http.response.body", "body": output, "more_body": True}
)
# Close connection
if not self.response_started:
self.response_started = True
self.sync_send(self.response_start)
self.sync_send({"type": "http.response.body"})

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from django.utils.version import get_version
VERSION = (3, 0, 5, 'final', 0)
__version__ = get_version(VERSION)
def setup(set_prefix=True):
"""
Configure the settings (this happens as a side effect of accessing the
first setting), configure logging and populate the app registry.
Set the thread-local urlresolvers script prefix if `set_prefix` is True.
"""
from django.apps import apps
from django.conf import settings
from django.urls import set_script_prefix
from django.utils.log import configure_logging
configure_logging(settings.LOGGING_CONFIG, settings.LOGGING)
if set_prefix:
set_script_prefix(
'/' if settings.FORCE_SCRIPT_NAME is None else settings.FORCE_SCRIPT_NAME
)
apps.populate(settings.INSTALLED_APPS)

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"""
Invokes django-admin when the django module is run as a script.
Example: python -m django check
"""
from django.core import management
if __name__ == "__main__":
management.execute_from_command_line()

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from .config import AppConfig
from .registry import apps
__all__ = ['AppConfig', 'apps']

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import os
from importlib import import_module
from django.core.exceptions import ImproperlyConfigured
from django.utils.module_loading import module_has_submodule
MODELS_MODULE_NAME = 'models'
class AppConfig:
"""Class representing a Django application and its configuration."""
def __init__(self, app_name, app_module):
# Full Python path to the application e.g. 'django.contrib.admin'.
self.name = app_name
# Root module for the application e.g. <module 'django.contrib.admin'
# from 'django/contrib/admin/__init__.py'>.
self.module = app_module
# Reference to the Apps registry that holds this AppConfig. Set by the
# registry when it registers the AppConfig instance.
self.apps = None
# The following attributes could be defined at the class level in a
# subclass, hence the test-and-set pattern.
# Last component of the Python path to the application e.g. 'admin'.
# This value must be unique across a Django project.
if not hasattr(self, 'label'):
self.label = app_name.rpartition(".")[2]
# Human-readable name for the application e.g. "Admin".
if not hasattr(self, 'verbose_name'):
self.verbose_name = self.label.title()
# Filesystem path to the application directory e.g.
# '/path/to/django/contrib/admin'.
if not hasattr(self, 'path'):
self.path = self._path_from_module(app_module)
# Module containing models e.g. <module 'django.contrib.admin.models'
# from 'django/contrib/admin/models.py'>. Set by import_models().
# None if the application doesn't have a models module.
self.models_module = None
# Mapping of lowercase model names to model classes. Initially set to
# None to prevent accidental access before import_models() runs.
self.models = None
def __repr__(self):
return '<%s: %s>' % (self.__class__.__name__, self.label)
def _path_from_module(self, module):
"""Attempt to determine app's filesystem path from its module."""
# See #21874 for extended discussion of the behavior of this method in
# various cases.
# Convert paths to list because Python's _NamespacePath doesn't support
# indexing.
paths = list(getattr(module, '__path__', []))
if len(paths) != 1:
filename = getattr(module, '__file__', None)
if filename is not None:
paths = [os.path.dirname(filename)]
else:
# For unknown reasons, sometimes the list returned by __path__
# contains duplicates that must be removed (#25246).
paths = list(set(paths))
if len(paths) > 1:
raise ImproperlyConfigured(
"The app module %r has multiple filesystem locations (%r); "
"you must configure this app with an AppConfig subclass "
"with a 'path' class attribute." % (module, paths))
elif not paths:
raise ImproperlyConfigured(
"The app module %r has no filesystem location, "
"you must configure this app with an AppConfig subclass "
"with a 'path' class attribute." % (module,))
return paths[0]
@classmethod
def create(cls, entry):
"""
Factory that creates an app config from an entry in INSTALLED_APPS.
"""
try:
# If import_module succeeds, entry is a path to an app module,
# which may specify an app config class with default_app_config.
# Otherwise, entry is a path to an app config class or an error.
module = import_module(entry)
except ImportError:
# Track that importing as an app module failed. If importing as an
# app config class fails too, we'll trigger the ImportError again.
module = None
mod_path, _, cls_name = entry.rpartition('.')
# Raise the original exception when entry cannot be a path to an
# app config class.
if not mod_path:
raise
else:
try:
# If this works, the app module specifies an app config class.
entry = module.default_app_config
except AttributeError:
# Otherwise, it simply uses the default app config class.
return cls(entry, module)
else:
mod_path, _, cls_name = entry.rpartition('.')
# If we're reaching this point, we must attempt to load the app config
# class located at <mod_path>.<cls_name>
mod = import_module(mod_path)
try:
cls = getattr(mod, cls_name)
except AttributeError:
if module is None:
# If importing as an app module failed, check if the module
# contains any valid AppConfigs and show them as choices.
# Otherwise, that error probably contains the most informative
# traceback, so trigger it again.
candidates = sorted(
repr(name) for name, candidate in mod.__dict__.items()
if isinstance(candidate, type) and
issubclass(candidate, AppConfig) and
candidate is not AppConfig
)
if candidates:
raise ImproperlyConfigured(
"'%s' does not contain a class '%s'. Choices are: %s."
% (mod_path, cls_name, ', '.join(candidates))
)
import_module(entry)
else:
raise
# Check for obvious errors. (This check prevents duck typing, but
# it could be removed if it became a problem in practice.)
if not issubclass(cls, AppConfig):
raise ImproperlyConfigured(
"'%s' isn't a subclass of AppConfig." % entry)
# Obtain app name here rather than in AppClass.__init__ to keep
# all error checking for entries in INSTALLED_APPS in one place.
try:
app_name = cls.name
except AttributeError:
raise ImproperlyConfigured(
"'%s' must supply a name attribute." % entry)
# Ensure app_name points to a valid module.
try:
app_module = import_module(app_name)
except ImportError:
raise ImproperlyConfigured(
"Cannot import '%s'. Check that '%s.%s.name' is correct." % (
app_name, mod_path, cls_name,
)
)
# Entry is a path to an app config class.
return cls(app_name, app_module)
def get_model(self, model_name, require_ready=True):
"""
Return the model with the given case-insensitive model_name.
Raise LookupError if no model exists with this name.
"""
if require_ready:
self.apps.check_models_ready()
else:
self.apps.check_apps_ready()
try:
return self.models[model_name.lower()]
except KeyError:
raise LookupError(
"App '%s' doesn't have a '%s' model." % (self.label, model_name))
def get_models(self, include_auto_created=False, include_swapped=False):
"""
Return an iterable of models.
By default, the following models aren't included:
- auto-created models for many-to-many relations without
an explicit intermediate table,
- models that have been swapped out.
Set the corresponding keyword argument to True to include such models.
Keyword arguments aren't documented; they're a private API.
"""
self.apps.check_models_ready()
for model in self.models.values():
if model._meta.auto_created and not include_auto_created:
continue
if model._meta.swapped and not include_swapped:
continue
yield model
def import_models(self):
# Dictionary of models for this app, primarily maintained in the
# 'all_models' attribute of the Apps this AppConfig is attached to.
self.models = self.apps.all_models[self.label]
if module_has_submodule(self.module, MODELS_MODULE_NAME):
models_module_name = '%s.%s' % (self.name, MODELS_MODULE_NAME)
self.models_module = import_module(models_module_name)
def ready(self):
"""
Override this method in subclasses to run code when Django starts.
"""

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import functools
import sys
import threading
import warnings
from collections import Counter, defaultdict
from functools import partial
from django.core.exceptions import AppRegistryNotReady, ImproperlyConfigured
from .config import AppConfig
class Apps:
"""
A registry that stores the configuration of installed applications.
It also keeps track of models, e.g. to provide reverse relations.
"""
def __init__(self, installed_apps=()):
# installed_apps is set to None when creating the master registry
# because it cannot be populated at that point. Other registries must
# provide a list of installed apps and are populated immediately.
if installed_apps is None and hasattr(sys.modules[__name__], 'apps'):
raise RuntimeError("You must supply an installed_apps argument.")
# Mapping of app labels => model names => model classes. Every time a
# model is imported, ModelBase.__new__ calls apps.register_model which
# creates an entry in all_models. All imported models are registered,
# regardless of whether they're defined in an installed application
# and whether the registry has been populated. Since it isn't possible
# to reimport a module safely (it could reexecute initialization code)
# all_models is never overridden or reset.
self.all_models = defaultdict(dict)
# Mapping of labels to AppConfig instances for installed apps.
self.app_configs = {}
# Stack of app_configs. Used to store the current state in
# set_available_apps and set_installed_apps.
self.stored_app_configs = []
# Whether the registry is populated.
self.apps_ready = self.models_ready = self.ready = False
# For the autoreloader.
self.ready_event = threading.Event()
# Lock for thread-safe population.
self._lock = threading.RLock()
self.loading = False
# Maps ("app_label", "modelname") tuples to lists of functions to be
# called when the corresponding model is ready. Used by this class's
# `lazy_model_operation()` and `do_pending_operations()` methods.
self._pending_operations = defaultdict(list)
# Populate apps and models, unless it's the master registry.
if installed_apps is not None:
self.populate(installed_apps)
def populate(self, installed_apps=None):
"""
Load application configurations and models.
Import each application module and then each model module.
It is thread-safe and idempotent, but not reentrant.
"""
if self.ready:
return
# populate() might be called by two threads in parallel on servers
# that create threads before initializing the WSGI callable.
with self._lock:
if self.ready:
return
# An RLock prevents other threads from entering this section. The
# compare and set operation below is atomic.
if self.loading:
# Prevent reentrant calls to avoid running AppConfig.ready()
# methods twice.
raise RuntimeError("populate() isn't reentrant")
self.loading = True
# Phase 1: initialize app configs and import app modules.
for entry in installed_apps:
if isinstance(entry, AppConfig):
app_config = entry
else:
app_config = AppConfig.create(entry)
if app_config.label in self.app_configs:
raise ImproperlyConfigured(
"Application labels aren't unique, "
"duplicates: %s" % app_config.label)
self.app_configs[app_config.label] = app_config
app_config.apps = self
# Check for duplicate app names.
counts = Counter(
app_config.name for app_config in self.app_configs.values())
duplicates = [
name for name, count in counts.most_common() if count > 1]
if duplicates:
raise ImproperlyConfigured(
"Application names aren't unique, "
"duplicates: %s" % ", ".join(duplicates))
self.apps_ready = True
# Phase 2: import models modules.
for app_config in self.app_configs.values():
app_config.import_models()
self.clear_cache()
self.models_ready = True
# Phase 3: run ready() methods of app configs.
for app_config in self.get_app_configs():
app_config.ready()
self.ready = True
self.ready_event.set()
def check_apps_ready(self):
"""Raise an exception if all apps haven't been imported yet."""
if not self.apps_ready:
from django.conf import settings
# If "not ready" is due to unconfigured settings, accessing
# INSTALLED_APPS raises a more helpful ImproperlyConfigured
# exception.
settings.INSTALLED_APPS
raise AppRegistryNotReady("Apps aren't loaded yet.")
def check_models_ready(self):
"""Raise an exception if all models haven't been imported yet."""
if not self.models_ready:
raise AppRegistryNotReady("Models aren't loaded yet.")
def get_app_configs(self):
"""Import applications and return an iterable of app configs."""
self.check_apps_ready()
return self.app_configs.values()
def get_app_config(self, app_label):
"""
Import applications and returns an app config for the given label.
Raise LookupError if no application exists with this label.
"""
self.check_apps_ready()
try:
return self.app_configs[app_label]
except KeyError:
message = "No installed app with label '%s'." % app_label
for app_config in self.get_app_configs():
if app_config.name == app_label:
message += " Did you mean '%s'?" % app_config.label
break
raise LookupError(message)
# This method is performance-critical at least for Django's test suite.
@functools.lru_cache(maxsize=None)
def get_models(self, include_auto_created=False, include_swapped=False):
"""
Return a list of all installed models.
By default, the following models aren't included:
- auto-created models for many-to-many relations without
an explicit intermediate table,
- models that have been swapped out.
Set the corresponding keyword argument to True to include such models.
"""
self.check_models_ready()
result = []
for app_config in self.app_configs.values():
result.extend(app_config.get_models(include_auto_created, include_swapped))
return result
def get_model(self, app_label, model_name=None, require_ready=True):
"""
Return the model matching the given app_label and model_name.
As a shortcut, app_label may be in the form <app_label>.<model_name>.
model_name is case-insensitive.
Raise LookupError if no application exists with this label, or no
model exists with this name in the application. Raise ValueError if
called with a single argument that doesn't contain exactly one dot.
"""
if require_ready:
self.check_models_ready()
else:
self.check_apps_ready()
if model_name is None:
app_label, model_name = app_label.split('.')
app_config = self.get_app_config(app_label)
if not require_ready and app_config.models is None:
app_config.import_models()
return app_config.get_model(model_name, require_ready=require_ready)
def register_model(self, app_label, model):
# Since this method is called when models are imported, it cannot
# perform imports because of the risk of import loops. It mustn't
# call get_app_config().
model_name = model._meta.model_name
app_models = self.all_models[app_label]
if model_name in app_models:
if (model.__name__ == app_models[model_name].__name__ and
model.__module__ == app_models[model_name].__module__):
warnings.warn(
"Model '%s.%s' was already registered. "
"Reloading models is not advised as it can lead to inconsistencies, "
"most notably with related models." % (app_label, model_name),
RuntimeWarning, stacklevel=2)
else:
raise RuntimeError(
"Conflicting '%s' models in application '%s': %s and %s." %
(model_name, app_label, app_models[model_name], model))
app_models[model_name] = model
self.do_pending_operations(model)
self.clear_cache()
def is_installed(self, app_name):
"""
Check whether an application with this name exists in the registry.
app_name is the full name of the app e.g. 'django.contrib.admin'.
"""
self.check_apps_ready()
return any(ac.name == app_name for ac in self.app_configs.values())
def get_containing_app_config(self, object_name):
"""
Look for an app config containing a given object.
object_name is the dotted Python path to the object.
Return the app config for the inner application in case of nesting.
Return None if the object isn't in any registered app config.
"""
self.check_apps_ready()
candidates = []
for app_config in self.app_configs.values():
if object_name.startswith(app_config.name):
subpath = object_name[len(app_config.name):]
if subpath == '' or subpath[0] == '.':
candidates.append(app_config)
if candidates:
return sorted(candidates, key=lambda ac: -len(ac.name))[0]
def get_registered_model(self, app_label, model_name):
"""
Similar to get_model(), but doesn't require that an app exists with
the given app_label.
It's safe to call this method at import time, even while the registry
is being populated.
"""
model = self.all_models[app_label].get(model_name.lower())
if model is None:
raise LookupError(
"Model '%s.%s' not registered." % (app_label, model_name))
return model
@functools.lru_cache(maxsize=None)
def get_swappable_settings_name(self, to_string):
"""
For a given model string (e.g. "auth.User"), return the name of the
corresponding settings name if it refers to a swappable model. If the
referred model is not swappable, return None.
This method is decorated with lru_cache because it's performance
critical when it comes to migrations. Since the swappable settings don't
change after Django has loaded the settings, there is no reason to get
the respective settings attribute over and over again.
"""
for model in self.get_models(include_swapped=True):
swapped = model._meta.swapped
# Is this model swapped out for the model given by to_string?
if swapped and swapped == to_string:
return model._meta.swappable
# Is this model swappable and the one given by to_string?
if model._meta.swappable and model._meta.label == to_string:
return model._meta.swappable
return None
def set_available_apps(self, available):
"""
Restrict the set of installed apps used by get_app_config[s].
available must be an iterable of application names.
set_available_apps() must be balanced with unset_available_apps().
Primarily used for performance optimization in TransactionTestCase.
This method is safe in the sense that it doesn't trigger any imports.
"""
available = set(available)
installed = {app_config.name for app_config in self.get_app_configs()}
if not available.issubset(installed):
raise ValueError(
"Available apps isn't a subset of installed apps, extra apps: %s"
% ", ".join(available - installed)
)
self.stored_app_configs.append(self.app_configs)
self.app_configs = {
label: app_config
for label, app_config in self.app_configs.items()
if app_config.name in available
}
self.clear_cache()
def unset_available_apps(self):
"""Cancel a previous call to set_available_apps()."""
self.app_configs = self.stored_app_configs.pop()
self.clear_cache()
def set_installed_apps(self, installed):
"""
Enable a different set of installed apps for get_app_config[s].
installed must be an iterable in the same format as INSTALLED_APPS.
set_installed_apps() must be balanced with unset_installed_apps(),
even if it exits with an exception.
Primarily used as a receiver of the setting_changed signal in tests.
This method may trigger new imports, which may add new models to the
registry of all imported models. They will stay in the registry even
after unset_installed_apps(). Since it isn't possible to replay
imports safely (e.g. that could lead to registering listeners twice),
models are registered when they're imported and never removed.
"""
if not self.ready:
raise AppRegistryNotReady("App registry isn't ready yet.")
self.stored_app_configs.append(self.app_configs)
self.app_configs = {}
self.apps_ready = self.models_ready = self.loading = self.ready = False
self.clear_cache()
self.populate(installed)
def unset_installed_apps(self):
"""Cancel a previous call to set_installed_apps()."""
self.app_configs = self.stored_app_configs.pop()
self.apps_ready = self.models_ready = self.ready = True
self.clear_cache()
def clear_cache(self):
"""
Clear all internal caches, for methods that alter the app registry.
This is mostly used in tests.
"""
# Call expire cache on each model. This will purge
# the relation tree and the fields cache.
self.get_models.cache_clear()
if self.ready:
# Circumvent self.get_models() to prevent that the cache is refilled.
# This particularly prevents that an empty value is cached while cloning.
for app_config in self.app_configs.values():
for model in app_config.get_models(include_auto_created=True):
model._meta._expire_cache()
def lazy_model_operation(self, function, *model_keys):
"""
Take a function and a number of ("app_label", "modelname") tuples, and
when all the corresponding models have been imported and registered,
call the function with the model classes as its arguments.
The function passed to this method must accept exactly n models as
arguments, where n=len(model_keys).
"""
# Base case: no arguments, just execute the function.
if not model_keys:
function()
# Recursive case: take the head of model_keys, wait for the
# corresponding model class to be imported and registered, then apply
# that argument to the supplied function. Pass the resulting partial
# to lazy_model_operation() along with the remaining model args and
# repeat until all models are loaded and all arguments are applied.
else:
next_model, *more_models = model_keys
# This will be executed after the class corresponding to next_model
# has been imported and registered. The `func` attribute provides
# duck-type compatibility with partials.
def apply_next_model(model):
next_function = partial(apply_next_model.func, model)
self.lazy_model_operation(next_function, *more_models)
apply_next_model.func = function
# If the model has already been imported and registered, partially
# apply it to the function now. If not, add it to the list of
# pending operations for the model, where it will be executed with
# the model class as its sole argument once the model is ready.
try:
model_class = self.get_registered_model(*next_model)
except LookupError:
self._pending_operations[next_model].append(apply_next_model)
else:
apply_next_model(model_class)
def do_pending_operations(self, model):
"""
Take a newly-prepared model and pass it to each function waiting for
it. This is called at the very end of Apps.register_model().
"""
key = model._meta.app_label, model._meta.model_name
for function in self._pending_operations.pop(key, []):
function(model)
apps = Apps(installed_apps=None)

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#!/usr/bin/env python
from django.core import management
if __name__ == "__main__":
management.execute_from_command_line()

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"""
Settings and configuration for Django.
Read values from the module specified by the DJANGO_SETTINGS_MODULE environment
variable, and then from django.conf.global_settings; see the global_settings.py
for a list of all possible variables.
"""
import importlib
import os
import time
import traceback
import warnings
from pathlib import Path
import django
from django.conf import global_settings
from django.core.exceptions import ImproperlyConfigured
from django.utils.deprecation import RemovedInDjango31Warning
from django.utils.functional import LazyObject, empty
ENVIRONMENT_VARIABLE = "DJANGO_SETTINGS_MODULE"
FILE_CHARSET_DEPRECATED_MSG = (
'The FILE_CHARSET setting is deprecated. Starting with Django 3.1, all '
'files read from disk must be UTF-8 encoded.'
)
class SettingsReference(str):
"""
String subclass which references a current settings value. It's treated as
the value in memory but serializes to a settings.NAME attribute reference.
"""
def __new__(self, value, setting_name):
return str.__new__(self, value)
def __init__(self, value, setting_name):
self.setting_name = setting_name
class LazySettings(LazyObject):
"""
A lazy proxy for either global Django settings or a custom settings object.
The user can manually configure settings prior to using them. Otherwise,
Django uses the settings module pointed to by DJANGO_SETTINGS_MODULE.
"""
def _setup(self, name=None):
"""
Load the settings module pointed to by the environment variable. This
is used the first time settings are needed, if the user hasn't
configured settings manually.
"""
settings_module = os.environ.get(ENVIRONMENT_VARIABLE)
if not settings_module:
desc = ("setting %s" % name) if name else "settings"
raise ImproperlyConfigured(
"Requested %s, but settings are not configured. "
"You must either define the environment variable %s "
"or call settings.configure() before accessing settings."
% (desc, ENVIRONMENT_VARIABLE))
self._wrapped = Settings(settings_module)
def __repr__(self):
# Hardcode the class name as otherwise it yields 'Settings'.
if self._wrapped is empty:
return '<LazySettings [Unevaluated]>'
return '<LazySettings "%(settings_module)s">' % {
'settings_module': self._wrapped.SETTINGS_MODULE,
}
def __getattr__(self, name):
"""Return the value of a setting and cache it in self.__dict__."""
if self._wrapped is empty:
self._setup(name)
val = getattr(self._wrapped, name)
self.__dict__[name] = val
return val
def __setattr__(self, name, value):
"""
Set the value of setting. Clear all cached values if _wrapped changes
(@override_settings does this) or clear single values when set.
"""
if name == '_wrapped':
self.__dict__.clear()
else:
self.__dict__.pop(name, None)
super().__setattr__(name, value)
def __delattr__(self, name):
"""Delete a setting and clear it from cache if needed."""
super().__delattr__(name)
self.__dict__.pop(name, None)
def configure(self, default_settings=global_settings, **options):
"""
Called to manually configure the settings. The 'default_settings'
parameter sets where to retrieve any unspecified values from (its
argument must support attribute access (__getattr__)).
"""
if self._wrapped is not empty:
raise RuntimeError('Settings already configured.')
holder = UserSettingsHolder(default_settings)
for name, value in options.items():
if not name.isupper():
raise TypeError('Setting %r must be uppercase.' % name)
setattr(holder, name, value)
self._wrapped = holder
@property
def configured(self):
"""Return True if the settings have already been configured."""
return self._wrapped is not empty
@property
def FILE_CHARSET(self):
stack = traceback.extract_stack()
# Show a warning if the setting is used outside of Django.
# Stack index: -1 this line, -2 the caller.
filename, _line_number, _function_name, _text = stack[-2]
if not filename.startswith(os.path.dirname(django.__file__)):
warnings.warn(
FILE_CHARSET_DEPRECATED_MSG,
RemovedInDjango31Warning,
stacklevel=2,
)
return self.__getattr__('FILE_CHARSET')
class Settings:
def __init__(self, settings_module):
# update this dict from global settings (but only for ALL_CAPS settings)
for setting in dir(global_settings):
if setting.isupper():
setattr(self, setting, getattr(global_settings, setting))
# store the settings module in case someone later cares
self.SETTINGS_MODULE = settings_module
mod = importlib.import_module(self.SETTINGS_MODULE)
tuple_settings = (
"INSTALLED_APPS",
"TEMPLATE_DIRS",
"LOCALE_PATHS",
)
self._explicit_settings = set()
for setting in dir(mod):
if setting.isupper():
setting_value = getattr(mod, setting)
if (setting in tuple_settings and
not isinstance(setting_value, (list, tuple))):
raise ImproperlyConfigured("The %s setting must be a list or a tuple. " % setting)
setattr(self, setting, setting_value)
self._explicit_settings.add(setting)
if not self.SECRET_KEY:
raise ImproperlyConfigured("The SECRET_KEY setting must not be empty.")
if self.is_overridden('FILE_CHARSET'):
warnings.warn(FILE_CHARSET_DEPRECATED_MSG, RemovedInDjango31Warning)
if hasattr(time, 'tzset') and self.TIME_ZONE:
# When we can, attempt to validate the timezone. If we can't find
# this file, no check happens and it's harmless.
zoneinfo_root = Path('/usr/share/zoneinfo')
zone_info_file = zoneinfo_root.joinpath(*self.TIME_ZONE.split('/'))
if zoneinfo_root.exists() and not zone_info_file.exists():
raise ValueError("Incorrect timezone setting: %s" % self.TIME_ZONE)
# Move the time zone info into os.environ. See ticket #2315 for why
# we don't do this unconditionally (breaks Windows).
os.environ['TZ'] = self.TIME_ZONE
time.tzset()
def is_overridden(self, setting):
return setting in self._explicit_settings
def __repr__(self):
return '<%(cls)s "%(settings_module)s">' % {
'cls': self.__class__.__name__,
'settings_module': self.SETTINGS_MODULE,
}
class UserSettingsHolder:
"""Holder for user configured settings."""
# SETTINGS_MODULE doesn't make much sense in the manually configured
# (standalone) case.
SETTINGS_MODULE = None
def __init__(self, default_settings):
"""
Requests for configuration variables not in this class are satisfied
from the module specified in default_settings (if possible).
"""
self.__dict__['_deleted'] = set()
self.default_settings = default_settings
def __getattr__(self, name):
if not name.isupper() or name in self._deleted:
raise AttributeError
return getattr(self.default_settings, name)
def __setattr__(self, name, value):
self._deleted.discard(name)
if name == 'FILE_CHARSET':
warnings.warn(FILE_CHARSET_DEPRECATED_MSG, RemovedInDjango31Warning)
super().__setattr__(name, value)
def __delattr__(self, name):
self._deleted.add(name)
if hasattr(self, name):
super().__delattr__(name)
def __dir__(self):
return sorted(
s for s in [*self.__dict__, *dir(self.default_settings)]
if s not in self._deleted
)
def is_overridden(self, setting):
deleted = (setting in self._deleted)
set_locally = (setting in self.__dict__)
set_on_default = getattr(self.default_settings, 'is_overridden', lambda s: False)(setting)
return deleted or set_locally or set_on_default
def __repr__(self):
return '<%(cls)s>' % {
'cls': self.__class__.__name__,
}
settings = LazySettings()

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from django.contrib import admin
# Register your models here.

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from django.apps import AppConfig
class {{ camel_case_app_name }}Config(AppConfig):
name = '{{ app_name }}'

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from django.db import models
# Create your models here.

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from django.test import TestCase
# Create your tests here.

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from django.shortcuts import render
# Create your views here.

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"""
Default Django settings. Override these with settings in the module pointed to
by the DJANGO_SETTINGS_MODULE environment variable.
"""
# This is defined here as a do-nothing function because we can't import
# django.utils.translation -- that module depends on the settings.
def gettext_noop(s):
return s
####################
# CORE #
####################
DEBUG = False
# Whether the framework should propagate raw exceptions rather than catching
# them. This is useful under some testing situations and should never be used
# on a live site.
DEBUG_PROPAGATE_EXCEPTIONS = False
# People who get code error notifications.
# In the format [('Full Name', 'email@example.com'), ('Full Name', 'anotheremail@example.com')]
ADMINS = []
# List of IP addresses, as strings, that:
# * See debug comments, when DEBUG is true
# * Receive x-headers
INTERNAL_IPS = []
# Hosts/domain names that are valid for this site.
# "*" matches anything, ".example.com" matches example.com and all subdomains
ALLOWED_HOSTS = []
# Local time zone for this installation. All choices can be found here:
# https://en.wikipedia.org/wiki/List_of_tz_zones_by_name (although not all
# systems may support all possibilities). When USE_TZ is True, this is
# interpreted as the default user time zone.
TIME_ZONE = 'America/Chicago'
# If you set this to True, Django will use timezone-aware datetimes.
USE_TZ = False
# Language code for this installation. All choices can be found here:
# http://www.i18nguy.com/unicode/language-identifiers.html
LANGUAGE_CODE = 'en-us'
# Languages we provide translations for, out of the box.
LANGUAGES = [
('af', gettext_noop('Afrikaans')),
('ar', gettext_noop('Arabic')),
('ast', gettext_noop('Asturian')),
('az', gettext_noop('Azerbaijani')),
('bg', gettext_noop('Bulgarian')),
('be', gettext_noop('Belarusian')),
('bn', gettext_noop('Bengali')),
('br', gettext_noop('Breton')),
('bs', gettext_noop('Bosnian')),
('ca', gettext_noop('Catalan')),
('cs', gettext_noop('Czech')),
('cy', gettext_noop('Welsh')),
('da', gettext_noop('Danish')),
('de', gettext_noop('German')),
('dsb', gettext_noop('Lower Sorbian')),
('el', gettext_noop('Greek')),
('en', gettext_noop('English')),
('en-au', gettext_noop('Australian English')),
('en-gb', gettext_noop('British English')),
('eo', gettext_noop('Esperanto')),
('es', gettext_noop('Spanish')),
('es-ar', gettext_noop('Argentinian Spanish')),
('es-co', gettext_noop('Colombian Spanish')),
('es-mx', gettext_noop('Mexican Spanish')),
('es-ni', gettext_noop('Nicaraguan Spanish')),
('es-ve', gettext_noop('Venezuelan Spanish')),
('et', gettext_noop('Estonian')),
('eu', gettext_noop('Basque')),
('fa', gettext_noop('Persian')),
('fi', gettext_noop('Finnish')),
('fr', gettext_noop('French')),
('fy', gettext_noop('Frisian')),
('ga', gettext_noop('Irish')),
('gd', gettext_noop('Scottish Gaelic')),
('gl', gettext_noop('Galician')),
('he', gettext_noop('Hebrew')),
('hi', gettext_noop('Hindi')),
('hr', gettext_noop('Croatian')),
('hsb', gettext_noop('Upper Sorbian')),
('hu', gettext_noop('Hungarian')),
('hy', gettext_noop('Armenian')),
('ia', gettext_noop('Interlingua')),
('id', gettext_noop('Indonesian')),
('io', gettext_noop('Ido')),
('is', gettext_noop('Icelandic')),
('it', gettext_noop('Italian')),
('ja', gettext_noop('Japanese')),
('ka', gettext_noop('Georgian')),
('kab', gettext_noop('Kabyle')),
('kk', gettext_noop('Kazakh')),
('km', gettext_noop('Khmer')),
('kn', gettext_noop('Kannada')),
('ko', gettext_noop('Korean')),
('lb', gettext_noop('Luxembourgish')),
('lt', gettext_noop('Lithuanian')),
('lv', gettext_noop('Latvian')),
('mk', gettext_noop('Macedonian')),
('ml', gettext_noop('Malayalam')),
('mn', gettext_noop('Mongolian')),
('mr', gettext_noop('Marathi')),
('my', gettext_noop('Burmese')),
('nb', gettext_noop('Norwegian Bokmål')),
('ne', gettext_noop('Nepali')),
('nl', gettext_noop('Dutch')),
('nn', gettext_noop('Norwegian Nynorsk')),
('os', gettext_noop('Ossetic')),
('pa', gettext_noop('Punjabi')),
('pl', gettext_noop('Polish')),
('pt', gettext_noop('Portuguese')),
('pt-br', gettext_noop('Brazilian Portuguese')),
('ro', gettext_noop('Romanian')),
('ru', gettext_noop('Russian')),
('sk', gettext_noop('Slovak')),
('sl', gettext_noop('Slovenian')),
('sq', gettext_noop('Albanian')),
('sr', gettext_noop('Serbian')),
('sr-latn', gettext_noop('Serbian Latin')),
('sv', gettext_noop('Swedish')),
('sw', gettext_noop('Swahili')),
('ta', gettext_noop('Tamil')),
('te', gettext_noop('Telugu')),
('th', gettext_noop('Thai')),
('tr', gettext_noop('Turkish')),
('tt', gettext_noop('Tatar')),
('udm', gettext_noop('Udmurt')),
('uk', gettext_noop('Ukrainian')),
('ur', gettext_noop('Urdu')),
('uz', gettext_noop('Uzbek')),
('vi', gettext_noop('Vietnamese')),
('zh-hans', gettext_noop('Simplified Chinese')),
('zh-hant', gettext_noop('Traditional Chinese')),
]
# Languages using BiDi (right-to-left) layout
LANGUAGES_BIDI = ["he", "ar", "fa", "ur"]
# If you set this to False, Django will make some optimizations so as not
# to load the internationalization machinery.
USE_I18N = True
LOCALE_PATHS = []
# Settings for language cookie
LANGUAGE_COOKIE_NAME = 'django_language'
LANGUAGE_COOKIE_AGE = None
LANGUAGE_COOKIE_DOMAIN = None
LANGUAGE_COOKIE_PATH = '/'
LANGUAGE_COOKIE_SECURE = False
LANGUAGE_COOKIE_HTTPONLY = False
LANGUAGE_COOKIE_SAMESITE = None
# If you set this to True, Django will format dates, numbers and calendars
# according to user current locale.
USE_L10N = False
# Not-necessarily-technical managers of the site. They get broken link
# notifications and other various emails.
MANAGERS = ADMINS
# Default charset to use for all HttpResponse objects, if a MIME type isn't
# manually specified. It's used to construct the Content-Type header.
DEFAULT_CHARSET = 'utf-8'
# Encoding of files read from disk (template and initial SQL files).
FILE_CHARSET = 'utf-8'
# Email address that error messages come from.
SERVER_EMAIL = 'root@localhost'
# Database connection info. If left empty, will default to the dummy backend.
DATABASES = {}
# Classes used to implement DB routing behavior.
DATABASE_ROUTERS = []
# The email backend to use. For possible shortcuts see django.core.mail.
# The default is to use the SMTP backend.
# Third-party backends can be specified by providing a Python path
# to a module that defines an EmailBackend class.
EMAIL_BACKEND = 'django.core.mail.backends.smtp.EmailBackend'
# Host for sending email.
EMAIL_HOST = 'localhost'
# Port for sending email.
EMAIL_PORT = 25
# Whether to send SMTP 'Date' header in the local time zone or in UTC.
EMAIL_USE_LOCALTIME = False
# Optional SMTP authentication information for EMAIL_HOST.
EMAIL_HOST_USER = ''
EMAIL_HOST_PASSWORD = ''
EMAIL_USE_TLS = False
EMAIL_USE_SSL = False
EMAIL_SSL_CERTFILE = None
EMAIL_SSL_KEYFILE = None
EMAIL_TIMEOUT = None
# List of strings representing installed apps.
INSTALLED_APPS = []
TEMPLATES = []
# Default form rendering class.
FORM_RENDERER = 'django.forms.renderers.DjangoTemplates'
# Default email address to use for various automated correspondence from
# the site managers.
DEFAULT_FROM_EMAIL = 'webmaster@localhost'
# Subject-line prefix for email messages send with django.core.mail.mail_admins
# or ...mail_managers. Make sure to include the trailing space.
EMAIL_SUBJECT_PREFIX = '[Django] '
# Whether to append trailing slashes to URLs.
APPEND_SLASH = True
# Whether to prepend the "www." subdomain to URLs that don't have it.
PREPEND_WWW = False
# Override the server-derived value of SCRIPT_NAME
FORCE_SCRIPT_NAME = None
# List of compiled regular expression objects representing User-Agent strings
# that are not allowed to visit any page, systemwide. Use this for bad
# robots/crawlers. Here are a few examples:
# import re
# DISALLOWED_USER_AGENTS = [
# re.compile(r'^NaverBot.*'),
# re.compile(r'^EmailSiphon.*'),
# re.compile(r'^SiteSucker.*'),
# re.compile(r'^sohu-search'),
# ]
DISALLOWED_USER_AGENTS = []
ABSOLUTE_URL_OVERRIDES = {}
# List of compiled regular expression objects representing URLs that need not
# be reported by BrokenLinkEmailsMiddleware. Here are a few examples:
# import re
# IGNORABLE_404_URLS = [
# re.compile(r'^/apple-touch-icon.*\.png$'),
# re.compile(r'^/favicon.ico$'),
# re.compile(r'^/robots.txt$'),
# re.compile(r'^/phpmyadmin/'),
# re.compile(r'\.(cgi|php|pl)$'),
# ]
IGNORABLE_404_URLS = []
# A secret key for this particular Django installation. Used in secret-key
# hashing algorithms. Set this in your settings, or Django will complain
# loudly.
SECRET_KEY = ''
# Default file storage mechanism that holds media.
DEFAULT_FILE_STORAGE = 'django.core.files.storage.FileSystemStorage'
# Absolute filesystem path to the directory that will hold user-uploaded files.
# Example: "/var/www/example.com/media/"
MEDIA_ROOT = ''
# URL that handles the media served from MEDIA_ROOT.
# Examples: "http://example.com/media/", "http://media.example.com/"
MEDIA_URL = ''
# Absolute path to the directory static files should be collected to.
# Example: "/var/www/example.com/static/"
STATIC_ROOT = None
# URL that handles the static files served from STATIC_ROOT.
# Example: "http://example.com/static/", "http://static.example.com/"
STATIC_URL = None
# List of upload handler classes to be applied in order.
FILE_UPLOAD_HANDLERS = [
'django.core.files.uploadhandler.MemoryFileUploadHandler',
'django.core.files.uploadhandler.TemporaryFileUploadHandler',
]
# Maximum size, in bytes, of a request before it will be streamed to the
# file system instead of into memory.
FILE_UPLOAD_MAX_MEMORY_SIZE = 2621440 # i.e. 2.5 MB
# Maximum size in bytes of request data (excluding file uploads) that will be
# read before a SuspiciousOperation (RequestDataTooBig) is raised.
DATA_UPLOAD_MAX_MEMORY_SIZE = 2621440 # i.e. 2.5 MB
# Maximum number of GET/POST parameters that will be read before a
# SuspiciousOperation (TooManyFieldsSent) is raised.
DATA_UPLOAD_MAX_NUMBER_FIELDS = 1000
# Directory in which upload streamed files will be temporarily saved. A value of
# `None` will make Django use the operating system's default temporary directory
# (i.e. "/tmp" on *nix systems).
FILE_UPLOAD_TEMP_DIR = None
# The numeric mode to set newly-uploaded files to. The value should be a mode
# you'd pass directly to os.chmod; see https://docs.python.org/library/os.html#files-and-directories.
FILE_UPLOAD_PERMISSIONS = 0o644
# The numeric mode to assign to newly-created directories, when uploading files.
# The value should be a mode as you'd pass to os.chmod;
# see https://docs.python.org/library/os.html#files-and-directories.
FILE_UPLOAD_DIRECTORY_PERMISSIONS = None
# Python module path where user will place custom format definition.
# The directory where this setting is pointing should contain subdirectories
# named as the locales, containing a formats.py file
# (i.e. "myproject.locale" for myproject/locale/en/formats.py etc. use)
FORMAT_MODULE_PATH = None
# Default formatting for date objects. See all available format strings here:
# https://docs.djangoproject.com/en/dev/ref/templates/builtins/#date
DATE_FORMAT = 'N j, Y'
# Default formatting for datetime objects. See all available format strings here:
# https://docs.djangoproject.com/en/dev/ref/templates/builtins/#date
DATETIME_FORMAT = 'N j, Y, P'
# Default formatting for time objects. See all available format strings here:
# https://docs.djangoproject.com/en/dev/ref/templates/builtins/#date
TIME_FORMAT = 'P'
# Default formatting for date objects when only the year and month are relevant.
# See all available format strings here:
# https://docs.djangoproject.com/en/dev/ref/templates/builtins/#date
YEAR_MONTH_FORMAT = 'F Y'
# Default formatting for date objects when only the month and day are relevant.
# See all available format strings here:
# https://docs.djangoproject.com/en/dev/ref/templates/builtins/#date
MONTH_DAY_FORMAT = 'F j'
# Default short formatting for date objects. See all available format strings here:
# https://docs.djangoproject.com/en/dev/ref/templates/builtins/#date
SHORT_DATE_FORMAT = 'm/d/Y'
# Default short formatting for datetime objects.
# See all available format strings here:
# https://docs.djangoproject.com/en/dev/ref/templates/builtins/#date
SHORT_DATETIME_FORMAT = 'm/d/Y P'
# Default formats to be used when parsing dates from input boxes, in order
# See all available format string here:
# https://docs.python.org/library/datetime.html#strftime-behavior
# * Note that these format strings are different from the ones to display dates
DATE_INPUT_FORMATS = [
'%Y-%m-%d', '%m/%d/%Y', '%m/%d/%y', # '2006-10-25', '10/25/2006', '10/25/06'
'%b %d %Y', '%b %d, %Y', # 'Oct 25 2006', 'Oct 25, 2006'
'%d %b %Y', '%d %b, %Y', # '25 Oct 2006', '25 Oct, 2006'
'%B %d %Y', '%B %d, %Y', # 'October 25 2006', 'October 25, 2006'
'%d %B %Y', '%d %B, %Y', # '25 October 2006', '25 October, 2006'
]
# Default formats to be used when parsing times from input boxes, in order
# See all available format string here:
# https://docs.python.org/library/datetime.html#strftime-behavior
# * Note that these format strings are different from the ones to display dates
TIME_INPUT_FORMATS = [
'%H:%M:%S', # '14:30:59'
'%H:%M:%S.%f', # '14:30:59.000200'
'%H:%M', # '14:30'
]
# Default formats to be used when parsing dates and times from input boxes,
# in order
# See all available format string here:
# https://docs.python.org/library/datetime.html#strftime-behavior
# * Note that these format strings are different from the ones to display dates
DATETIME_INPUT_FORMATS = [
'%Y-%m-%d %H:%M:%S', # '2006-10-25 14:30:59'
'%Y-%m-%d %H:%M:%S.%f', # '2006-10-25 14:30:59.000200'
'%Y-%m-%d %H:%M', # '2006-10-25 14:30'
'%Y-%m-%d', # '2006-10-25'
'%m/%d/%Y %H:%M:%S', # '10/25/2006 14:30:59'
'%m/%d/%Y %H:%M:%S.%f', # '10/25/2006 14:30:59.000200'
'%m/%d/%Y %H:%M', # '10/25/2006 14:30'
'%m/%d/%Y', # '10/25/2006'
'%m/%d/%y %H:%M:%S', # '10/25/06 14:30:59'
'%m/%d/%y %H:%M:%S.%f', # '10/25/06 14:30:59.000200'
'%m/%d/%y %H:%M', # '10/25/06 14:30'
'%m/%d/%y', # '10/25/06'
]
# First day of week, to be used on calendars
# 0 means Sunday, 1 means Monday...
FIRST_DAY_OF_WEEK = 0
# Decimal separator symbol
DECIMAL_SEPARATOR = '.'
# Boolean that sets whether to add thousand separator when formatting numbers
USE_THOUSAND_SEPARATOR = False
# Number of digits that will be together, when splitting them by
# THOUSAND_SEPARATOR. 0 means no grouping, 3 means splitting by thousands...
NUMBER_GROUPING = 0
# Thousand separator symbol
THOUSAND_SEPARATOR = ','
# The tablespaces to use for each model when not specified otherwise.
DEFAULT_TABLESPACE = ''
DEFAULT_INDEX_TABLESPACE = ''
# Default X-Frame-Options header value
X_FRAME_OPTIONS = 'DENY'
USE_X_FORWARDED_HOST = False
USE_X_FORWARDED_PORT = False
# The Python dotted path to the WSGI application that Django's internal server
# (runserver) will use. If `None`, the return value of
# 'django.core.wsgi.get_wsgi_application' is used, thus preserving the same
# behavior as previous versions of Django. Otherwise this should point to an
# actual WSGI application object.
WSGI_APPLICATION = None
# If your Django app is behind a proxy that sets a header to specify secure
# connections, AND that proxy ensures that user-submitted headers with the
# same name are ignored (so that people can't spoof it), set this value to
# a tuple of (header_name, header_value). For any requests that come in with
# that header/value, request.is_secure() will return True.
# WARNING! Only set this if you fully understand what you're doing. Otherwise,
# you may be opening yourself up to a security risk.
SECURE_PROXY_SSL_HEADER = None
##############
# MIDDLEWARE #
##############
# List of middleware to use. Order is important; in the request phase, these
# middleware will be applied in the order given, and in the response
# phase the middleware will be applied in reverse order.
MIDDLEWARE = []
############
# SESSIONS #
############
# Cache to store session data if using the cache session backend.
SESSION_CACHE_ALIAS = 'default'
# Cookie name. This can be whatever you want.
SESSION_COOKIE_NAME = 'sessionid'
# Age of cookie, in seconds (default: 2 weeks).
SESSION_COOKIE_AGE = 60 * 60 * 24 * 7 * 2
# A string like "example.com", or None for standard domain cookie.
SESSION_COOKIE_DOMAIN = None
# Whether the session cookie should be secure (https:// only).
SESSION_COOKIE_SECURE = False
# The path of the session cookie.
SESSION_COOKIE_PATH = '/'
# Whether to use the HttpOnly flag.
SESSION_COOKIE_HTTPONLY = True
# Whether to set the flag restricting cookie leaks on cross-site requests.
# This can be 'Lax', 'Strict', or None to disable the flag.
SESSION_COOKIE_SAMESITE = 'Lax'
# Whether to save the session data on every request.
SESSION_SAVE_EVERY_REQUEST = False
# Whether a user's session cookie expires when the Web browser is closed.
SESSION_EXPIRE_AT_BROWSER_CLOSE = False
# The module to store session data
SESSION_ENGINE = 'django.contrib.sessions.backends.db'
# Directory to store session files if using the file session module. If None,
# the backend will use a sensible default.
SESSION_FILE_PATH = None
# class to serialize session data
SESSION_SERIALIZER = 'django.contrib.sessions.serializers.JSONSerializer'
#########
# CACHE #
#########
# The cache backends to use.
CACHES = {
'default': {
'BACKEND': 'django.core.cache.backends.locmem.LocMemCache',
}
}
CACHE_MIDDLEWARE_KEY_PREFIX = ''
CACHE_MIDDLEWARE_SECONDS = 600
CACHE_MIDDLEWARE_ALIAS = 'default'
##################
# AUTHENTICATION #
##################
AUTH_USER_MODEL = 'auth.User'
AUTHENTICATION_BACKENDS = ['django.contrib.auth.backends.ModelBackend']
LOGIN_URL = '/accounts/login/'
LOGIN_REDIRECT_URL = '/accounts/profile/'
LOGOUT_REDIRECT_URL = None
# The number of days a password reset link is valid for
PASSWORD_RESET_TIMEOUT_DAYS = 3
# the first hasher in this list is the preferred algorithm. any
# password using different algorithms will be converted automatically
# upon login
PASSWORD_HASHERS = [
'django.contrib.auth.hashers.PBKDF2PasswordHasher',
'django.contrib.auth.hashers.PBKDF2SHA1PasswordHasher',
'django.contrib.auth.hashers.Argon2PasswordHasher',
'django.contrib.auth.hashers.BCryptSHA256PasswordHasher',
]
AUTH_PASSWORD_VALIDATORS = []
###########
# SIGNING #
###########
SIGNING_BACKEND = 'django.core.signing.TimestampSigner'
########
# CSRF #
########
# Dotted path to callable to be used as view when a request is
# rejected by the CSRF middleware.
CSRF_FAILURE_VIEW = 'django.views.csrf.csrf_failure'
# Settings for CSRF cookie.
CSRF_COOKIE_NAME = 'csrftoken'
CSRF_COOKIE_AGE = 60 * 60 * 24 * 7 * 52
CSRF_COOKIE_DOMAIN = None
CSRF_COOKIE_PATH = '/'
CSRF_COOKIE_SECURE = False
CSRF_COOKIE_HTTPONLY = False
CSRF_COOKIE_SAMESITE = 'Lax'
CSRF_HEADER_NAME = 'HTTP_X_CSRFTOKEN'
CSRF_TRUSTED_ORIGINS = []
CSRF_USE_SESSIONS = False
############
# MESSAGES #
############
# Class to use as messages backend
MESSAGE_STORAGE = 'django.contrib.messages.storage.fallback.FallbackStorage'
# Default values of MESSAGE_LEVEL and MESSAGE_TAGS are defined within
# django.contrib.messages to avoid imports in this settings file.
###########
# LOGGING #
###########
# The callable to use to configure logging
LOGGING_CONFIG = 'logging.config.dictConfig'
# Custom logging configuration.
LOGGING = {}
# Default exception reporter filter class used in case none has been
# specifically assigned to the HttpRequest instance.
DEFAULT_EXCEPTION_REPORTER_FILTER = 'django.views.debug.SafeExceptionReporterFilter'
###########
# TESTING #
###########
# The name of the class to use to run the test suite
TEST_RUNNER = 'django.test.runner.DiscoverRunner'
# Apps that don't need to be serialized at test database creation time
# (only apps with migrations are to start with)
TEST_NON_SERIALIZED_APPS = []
############
# FIXTURES #
############
# The list of directories to search for fixtures
FIXTURE_DIRS = []
###############
# STATICFILES #
###############
# A list of locations of additional static files
STATICFILES_DIRS = []
# The default file storage backend used during the build process
STATICFILES_STORAGE = 'django.contrib.staticfiles.storage.StaticFilesStorage'
# List of finder classes that know how to find static files in
# various locations.
STATICFILES_FINDERS = [
'django.contrib.staticfiles.finders.FileSystemFinder',
'django.contrib.staticfiles.finders.AppDirectoriesFinder',
# 'django.contrib.staticfiles.finders.DefaultStorageFinder',
]
##############
# MIGRATIONS #
##############
# Migration module overrides for apps, by app label.
MIGRATION_MODULES = {}
#################
# SYSTEM CHECKS #
#################
# List of all issues generated by system checks that should be silenced. Light
# issues like warnings, infos or debugs will not generate a message. Silencing
# serious issues like errors and criticals does not result in hiding the
# message, but Django will not stop you from e.g. running server.
SILENCED_SYSTEM_CHECKS = []
#######################
# SECURITY MIDDLEWARE #
#######################
SECURE_BROWSER_XSS_FILTER = False
SECURE_CONTENT_TYPE_NOSNIFF = True
SECURE_HSTS_INCLUDE_SUBDOMAINS = False
SECURE_HSTS_PRELOAD = False
SECURE_HSTS_SECONDS = 0
SECURE_REDIRECT_EXEMPT = []
SECURE_REFERRER_POLICY = None
SECURE_SSL_HOST = None
SECURE_SSL_REDIRECT = False

View File

@ -1,581 +0,0 @@
"""
LANG_INFO is a dictionary structure to provide meta information about languages.
About name_local: capitalize it as if your language name was appearing
inside a sentence in your language.
The 'fallback' key can be used to specify a special fallback logic which doesn't
follow the traditional 'fr-ca' -> 'fr' fallback logic.
"""
LANG_INFO = {
'af': {
'bidi': False,
'code': 'af',
'name': 'Afrikaans',
'name_local': 'Afrikaans',
},
'ar': {
'bidi': True,
'code': 'ar',
'name': 'Arabic',
'name_local': 'العربيّة',
},
'ast': {
'bidi': False,
'code': 'ast',
'name': 'Asturian',
'name_local': 'asturianu',
},
'az': {
'bidi': True,
'code': 'az',
'name': 'Azerbaijani',
'name_local': 'Azərbaycanca',
},
'be': {
'bidi': False,
'code': 'be',
'name': 'Belarusian',
'name_local': 'беларуская',
},
'bg': {
'bidi': False,
'code': 'bg',
'name': 'Bulgarian',
'name_local': 'български',
},
'bn': {
'bidi': False,
'code': 'bn',
'name': 'Bengali',
'name_local': 'বাংলা',
},
'br': {
'bidi': False,
'code': 'br',
'name': 'Breton',
'name_local': 'brezhoneg',
},
'bs': {
'bidi': False,
'code': 'bs',
'name': 'Bosnian',
'name_local': 'bosanski',
},
'ca': {
'bidi': False,
'code': 'ca',
'name': 'Catalan',
'name_local': 'català',
},
'cs': {
'bidi': False,
'code': 'cs',
'name': 'Czech',
'name_local': 'česky',
},
'cy': {
'bidi': False,
'code': 'cy',
'name': 'Welsh',
'name_local': 'Cymraeg',
},
'da': {
'bidi': False,
'code': 'da',
'name': 'Danish',
'name_local': 'dansk',
},
'de': {
'bidi': False,
'code': 'de',
'name': 'German',
'name_local': 'Deutsch',
},
'dsb': {
'bidi': False,
'code': 'dsb',
'name': 'Lower Sorbian',
'name_local': 'dolnoserbski',
},
'el': {
'bidi': False,
'code': 'el',
'name': 'Greek',
'name_local': 'Ελληνικά',
},
'en': {
'bidi': False,
'code': 'en',
'name': 'English',
'name_local': 'English',
},
'en-au': {
'bidi': False,
'code': 'en-au',
'name': 'Australian English',
'name_local': 'Australian English',
},
'en-gb': {
'bidi': False,
'code': 'en-gb',
'name': 'British English',
'name_local': 'British English',
},
'eo': {
'bidi': False,
'code': 'eo',
'name': 'Esperanto',
'name_local': 'Esperanto',
},
'es': {
'bidi': False,
'code': 'es',
'name': 'Spanish',
'name_local': 'español',
},
'es-ar': {
'bidi': False,
'code': 'es-ar',
'name': 'Argentinian Spanish',
'name_local': 'español de Argentina',
},
'es-co': {
'bidi': False,
'code': 'es-co',
'name': 'Colombian Spanish',
'name_local': 'español de Colombia',
},
'es-mx': {
'bidi': False,
'code': 'es-mx',
'name': 'Mexican Spanish',
'name_local': 'español de Mexico',
},
'es-ni': {
'bidi': False,
'code': 'es-ni',
'name': 'Nicaraguan Spanish',
'name_local': 'español de Nicaragua',
},
'es-ve': {
'bidi': False,
'code': 'es-ve',
'name': 'Venezuelan Spanish',
'name_local': 'español de Venezuela',
},
'et': {
'bidi': False,
'code': 'et',
'name': 'Estonian',
'name_local': 'eesti',
},
'eu': {
'bidi': False,
'code': 'eu',
'name': 'Basque',
'name_local': 'Basque',
},
'fa': {
'bidi': True,
'code': 'fa',
'name': 'Persian',
'name_local': 'فارسی',
},
'fi': {
'bidi': False,
'code': 'fi',
'name': 'Finnish',
'name_local': 'suomi',
},
'fr': {
'bidi': False,
'code': 'fr',
'name': 'French',
'name_local': 'français',
},
'fy': {
'bidi': False,
'code': 'fy',
'name': 'Frisian',
'name_local': 'frysk',
},
'ga': {
'bidi': False,
'code': 'ga',
'name': 'Irish',
'name_local': 'Gaeilge',
},
'gd': {
'bidi': False,
'code': 'gd',
'name': 'Scottish Gaelic',
'name_local': 'Gàidhlig',
},
'gl': {
'bidi': False,
'code': 'gl',
'name': 'Galician',
'name_local': 'galego',
},
'he': {
'bidi': True,
'code': 'he',
'name': 'Hebrew',
'name_local': 'עברית',
},
'hi': {
'bidi': False,
'code': 'hi',
'name': 'Hindi',
'name_local': 'हिंदी',
},
'hr': {
'bidi': False,
'code': 'hr',
'name': 'Croatian',
'name_local': 'Hrvatski',
},
'hsb': {
'bidi': False,
'code': 'hsb',
'name': 'Upper Sorbian',
'name_local': 'hornjoserbsce',
},
'hu': {
'bidi': False,
'code': 'hu',
'name': 'Hungarian',
'name_local': 'Magyar',
},
'hy': {
'bidi': False,
'code': 'hy',
'name': 'Armenian',
'name_local': 'հայերեն',
},
'ia': {
'bidi': False,
'code': 'ia',
'name': 'Interlingua',
'name_local': 'Interlingua',
},
'io': {
'bidi': False,
'code': 'io',
'name': 'Ido',
'name_local': 'ido',
},
'id': {
'bidi': False,
'code': 'id',
'name': 'Indonesian',
'name_local': 'Bahasa Indonesia',
},
'is': {
'bidi': False,
'code': 'is',
'name': 'Icelandic',
'name_local': 'Íslenska',
},
'it': {
'bidi': False,
'code': 'it',
'name': 'Italian',
'name_local': 'italiano',
},
'ja': {
'bidi': False,
'code': 'ja',
'name': 'Japanese',
'name_local': '日本語',
},
'ka': {
'bidi': False,
'code': 'ka',
'name': 'Georgian',
'name_local': 'ქართული',
},
'kab': {
'bidi': False,
'code': 'kab',
'name': 'Kabyle',
'name_local': 'taqbaylit',
},
'kk': {
'bidi': False,
'code': 'kk',
'name': 'Kazakh',
'name_local': 'Қазақ',
},
'km': {
'bidi': False,
'code': 'km',
'name': 'Khmer',
'name_local': 'Khmer',
},
'kn': {
'bidi': False,
'code': 'kn',
'name': 'Kannada',
'name_local': 'Kannada',
},
'ko': {
'bidi': False,
'code': 'ko',
'name': 'Korean',
'name_local': '한국어',
},
'lb': {
'bidi': False,
'code': 'lb',
'name': 'Luxembourgish',
'name_local': 'Lëtzebuergesch',
},
'lt': {
'bidi': False,
'code': 'lt',
'name': 'Lithuanian',
'name_local': 'Lietuviškai',
},
'lv': {
'bidi': False,
'code': 'lv',
'name': 'Latvian',
'name_local': 'latviešu',
},
'mk': {
'bidi': False,
'code': 'mk',
'name': 'Macedonian',
'name_local': 'Македонски',
},
'ml': {
'bidi': False,
'code': 'ml',
'name': 'Malayalam',
'name_local': 'Malayalam',
},
'mn': {
'bidi': False,
'code': 'mn',
'name': 'Mongolian',
'name_local': 'Mongolian',
},
'mr': {
'bidi': False,
'code': 'mr',
'name': 'Marathi',
'name_local': 'मराठी',
},
'my': {
'bidi': False,
'code': 'my',
'name': 'Burmese',
'name_local': 'မြန်မာဘာသာ',
},
'nb': {
'bidi': False,
'code': 'nb',
'name': 'Norwegian Bokmal',
'name_local': 'norsk (bokmål)',
},
'ne': {
'bidi': False,
'code': 'ne',
'name': 'Nepali',
'name_local': 'नेपाली',
},
'nl': {
'bidi': False,
'code': 'nl',
'name': 'Dutch',
'name_local': 'Nederlands',
},
'nn': {
'bidi': False,
'code': 'nn',
'name': 'Norwegian Nynorsk',
'name_local': 'norsk (nynorsk)',
},
'no': {
'bidi': False,
'code': 'no',
'name': 'Norwegian',
'name_local': 'norsk',
},
'os': {
'bidi': False,
'code': 'os',
'name': 'Ossetic',
'name_local': 'Ирон',
},
'pa': {
'bidi': False,
'code': 'pa',
'name': 'Punjabi',
'name_local': 'Punjabi',
},
'pl': {
'bidi': False,
'code': 'pl',
'name': 'Polish',
'name_local': 'polski',
},
'pt': {
'bidi': False,
'code': 'pt',
'name': 'Portuguese',
'name_local': 'Português',
},
'pt-br': {
'bidi': False,
'code': 'pt-br',
'name': 'Brazilian Portuguese',
'name_local': 'Português Brasileiro',
},
'ro': {
'bidi': False,
'code': 'ro',
'name': 'Romanian',
'name_local': 'Română',
},
'ru': {
'bidi': False,
'code': 'ru',
'name': 'Russian',
'name_local': 'Русский',
},
'sk': {
'bidi': False,
'code': 'sk',
'name': 'Slovak',
'name_local': 'Slovensky',
},
'sl': {
'bidi': False,
'code': 'sl',
'name': 'Slovenian',
'name_local': 'Slovenščina',
},
'sq': {
'bidi': False,
'code': 'sq',
'name': 'Albanian',
'name_local': 'shqip',
},
'sr': {
'bidi': False,
'code': 'sr',
'name': 'Serbian',
'name_local': 'српски',
},
'sr-latn': {
'bidi': False,
'code': 'sr-latn',
'name': 'Serbian Latin',
'name_local': 'srpski (latinica)',
},
'sv': {
'bidi': False,
'code': 'sv',
'name': 'Swedish',
'name_local': 'svenska',
},
'sw': {
'bidi': False,
'code': 'sw',
'name': 'Swahili',
'name_local': 'Kiswahili',
},
'ta': {
'bidi': False,
'code': 'ta',
'name': 'Tamil',
'name_local': 'தமிழ்',
},
'te': {
'bidi': False,
'code': 'te',
'name': 'Telugu',
'name_local': 'తెలుగు',
},
'th': {
'bidi': False,
'code': 'th',
'name': 'Thai',
'name_local': 'ภาษาไทย',
},
'tr': {
'bidi': False,
'code': 'tr',
'name': 'Turkish',
'name_local': 'Türkçe',
},
'tt': {
'bidi': False,
'code': 'tt',
'name': 'Tatar',
'name_local': 'Татарча',
},
'udm': {
'bidi': False,
'code': 'udm',
'name': 'Udmurt',
'name_local': 'Удмурт',
},
'uk': {
'bidi': False,
'code': 'uk',
'name': 'Ukrainian',
'name_local': 'Українська',
},
'ur': {
'bidi': True,
'code': 'ur',
'name': 'Urdu',
'name_local': 'اردو',
},
'uz': {
'bidi': False,
'code': 'uz',
'name': 'Uzbek',
'name_local': 'oʻzbek tili',
},
'vi': {
'bidi': False,
'code': 'vi',
'name': 'Vietnamese',
'name_local': 'Tiếng Việt',
},
'zh-cn': {
'fallback': ['zh-hans'],
},
'zh-hans': {
'bidi': False,
'code': 'zh-hans',
'name': 'Simplified Chinese',
'name_local': '简体中文',
},
'zh-hant': {
'bidi': False,
'code': 'zh-hant',
'name': 'Traditional Chinese',
'name_local': '繁體中文',
},
'zh-hk': {
'fallback': ['zh-hant'],
},
'zh-mo': {
'fallback': ['zh-hant'],
},
'zh-my': {
'fallback': ['zh-hans'],
},
'zh-sg': {
'fallback': ['zh-hans'],
},
'zh-tw': {
'fallback': ['zh-hant'],
},
}

View File

@ -1,21 +0,0 @@
# This file is distributed under the same license as the Django package.
#
# The *_FORMAT strings use the Django date format syntax,
# see https://docs.djangoproject.com/en/dev/ref/templates/builtins/#date
DATE_FORMAT = 'j F، Y'
TIME_FORMAT = 'g:i A'
# DATETIME_FORMAT =
YEAR_MONTH_FORMAT = 'F Y'
MONTH_DAY_FORMAT = 'j F'
SHORT_DATE_FORMAT = 'd/m/Y'
# SHORT_DATETIME_FORMAT =
# FIRST_DAY_OF_WEEK =
# The *_INPUT_FORMATS strings use the Python strftime format syntax,
# see https://docs.python.org/library/datetime.html#strftime-strptime-behavior
# DATE_INPUT_FORMATS =
# TIME_INPUT_FORMATS =
# DATETIME_INPUT_FORMATS =
DECIMAL_SEPARATOR = ','
THOUSAND_SEPARATOR = '.'
# NUMBER_GROUPING =

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