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Merge pull request #2797 from InspectorCaracal/namegen-contrib

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Add name generator contrib
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# Random Name Generator
Contribution by InspectorCaracal (2022)
A module for generating random names, both real-world and fantasy. Real-world
names can be generated either as first (personal) names, family (last) names, or
full names (first, optional middles, and last). The name data is from [Behind the Name](https://www.behindthename.com/)
and used under the [CC BY-SA 4.0 license](https://creativecommons.org/licenses/by-sa/4.0/).
Fantasy names are generated from basic phonetic rules, using CVC syllable syntax.
Both real-world and fantasy name generation can be extended to include additional
information via your game's `settings.py`
## Installation
This is a stand-alone utility. Just import this module (`from evennia.contrib.utils import name_generator`) and use its functions wherever you like.
## Usage
Import the module where you need it with the following:
```py
from evennia.contrib.utils.name_generator import namegen
```
By default, all of the functions will return a string with one generated name.
If you specify more than one, or pass `return_list=True` as a keyword argument, the returned value will be a list of strings.
The module is especially useful for naming newly-created NPCs, like so:
```py
npc_name = namegen.full_name()
npc_obj = create_object(key=npc_name, typeclass="typeclasses.characters.NPC")
```
## Available Settings
These settings can all be defined in your game's `server/conf/settings.py` file.
- `NAMEGEN_FIRST_NAMES` adds a new list of first (personal) names.
- `NAMEGEN_LAST_NAMES` adds a new list of last (family) names.
- `NAMEGEN_REPLACE_LISTS` - set to `True` if you want to use only the names defined in your settings.
- `NAMEGEN_FANTASY_RULES` lets you add new phonetic rules for generating entirely made-up names. See the section "Custom Fantasy Name style rules" for details on how this should look.
Examples:
```py
NAMEGEN_FIRST_NAMES = [
("Evennia", 'mf'),
("Green Tea", 'f'),
]
NAMEGEN_LAST_NAMES = [ "Beeblebrox", "Son of Odin" ]
NAMEGEN_FANTASY_RULES = {
"example_style": {
"syllable": "(C)VC",
"consonants": [ 'z','z','ph','sh','r','n' ],
"start": ['m'],
"end": ['x','n'],
"vowels": [ "e","e","e","a","i","i","u","o", ],
"length": (2,4),
}
}
```
## Generating Real Names
The contrib offers three functions for generating random real-world names:
`first_name()`, `last_name()`, and `full_name()`. If you want more than one name
generated at once, you can use the `num` keyword argument to specify how many.
Example:
```
>>> namegen.first_name(num=5)
['Genesis', 'Tali', 'Budur', 'Dominykas', 'Kamau']
>>> namegen.first_name(gender='m')
'Blanchard'
```
The `first_name` function also takes a `gender` keyword argument to filter names
by gender association. 'f' for feminine, 'm' for masculine, 'mf' for feminine
_and_ masculine, or the default `None` to match any gendering.
The `full_name` function also takes the `gender` keyword, as well as `parts` which
defines how many names make up the full name. The minimum is two: a first name and
a last name. You can also generate names with the family name first by setting
the keyword arg `surname_first` to `True`
Example:
```
>>> namegen.full_name()
'Keeva Bernat'
>>> namegen.full_name(parts=4)
'Suzu Shabnam Kafka Baier'
>>> namegen.full_name(parts=3, surname_first=True)
'Ó Muircheartach Torunn Dyson'
>>> namegen.full_name(gender='f')
'Wikolia Ó Deasmhumhnaigh'
```
### Adding your own names
You can add additional names with the settings `NAMEGEN_FIRST_NAMES` and
`NAMEGEN_LAST_NAMES`
`NAMEGEN_FIRST_NAMES` should be a list of tuples, where the first value is the name
and then second value is the gender flag - 'm' for masculine-only, 'f' for feminine-
only, and 'mf' for either one.
`NAMEGEN_LAST_NAMES` should be a list of strings, where each item is an available
surname.
Examples:
```py
NAMEGEN_FIRST_NAMES = [
("Evennia", 'mf'),
("Green Tea", 'f'),
]
NAMEGEN_LAST_NAMES = [ "Beeblebrox", "Son of Odin" ]
```
Set `NAMEGEN_REPLACE_LISTS = True` if you want your custom lists above to entirely replace the built-in lists rather than extend them.
## Generating Fantasy Names
Generating completely made-up names is done with the `fantasy_name` function. The
contrib comes with three built-in styles of names which you can use, or you can
put a dictionary of custom name rules into `settings.py`
Generating a fantasy name takes the ruleset key as the "style" keyword, and can
return either a single name or multiple names. By default, it will return a
single name in the built-in "harsh" style. The contrib also comes with "fluid" and "alien" styles.
```py
>>> namegen.fantasy_name()
'Vhon'
>>> namegen.fantasy_name(num=3, style="harsh")
['Kha', 'Kizdhu', 'Godögäk']
>>> namegen.fantasy_name(num=3, style="fluid")
['Aewalisash', 'Ayi', 'Iaa']
>>> namegen.fantasy_name(num=5, style="alien")
["Qz'vko'", "Xv'w'hk'hxyxyz", "Wxqv'hv'k", "Wh'k", "Xbx'qk'vz"]
```
### Multi-Word Fantasy Names
The `fantasy_name` function will only generate one name-word at a time, so for multi-word names
you'll need to combine pieces together. Depending on what kind of end result you want, there are
several approaches.
#### The simple approach
If all you need is for it to have multiple parts, you can generate multiple names at once and `join` them.
```py
>>> name = " ".join(namegen.fantasy_name(num=2))
>>> name
'Dezhvözh Khäk'
```
If you want a little more variation between first/last names, you can also generate names for
different styles and then combine them.
```py
>>> first = namegen.fantasy_name(style="fluid")
>>> last = namegen.fantasy_name(style="harsh")
>>> name = f"{first} {last}"
>>> name
'Ofasa Käkudhu'
```
#### "Nakku Silversmith"
One common fantasy name practice is profession- or title-based surnames. To achieve this effect,
you can use the `last_name` function with a custom list of last names and combine it with your generated
fantasy name.
Example:
```py
NAMEGEN_LAST_NAMES = [ "Silversmith", "the Traveller", "Destroyer of Worlds" ]
NAMEGEN_REPLACE_LISTS = True
>>> first = namegen.fantasy_name()
>>> last = namegen.last_name()
>>> name = f"{first} {last}"
>>> name
'Tözhkheko the Traveller'
```
#### Elarion d'Yrinea, Thror Obinson
Another common flavor of fantasy names is to use a surname suffix or prefix. For that, you'll
need to add in the extra bit yourself.
Examples:
```py
>>> names = namegen.fantasy_name(num=2)
>>> name = f"{names[0]} za'{names[1]}"
>>> name
"Tithe za'Dhudozkok"
>>> names = namegen.fantasy_name(num=2)
>>> name = f"{names[0]} {names[1]}son"
>>> name
'Kön Ködhöddoson'
```
### Custom Fantasy Name style rules
The style rules are contained in a dictionary of dictionaries, where the style name
is the key and the style rules are the dictionary value.
The following is how you would add a custom style to `settings.py`:
```py
NAMEGEN_FANTASY_RULES = {
"example_style": {
"syllable": "(C)VC",
"consonants": [ 'z','z','ph','sh','r','n' ],
"start": ['m'],
"end": ['x','n'],
"vowels": [ "e","e","e","a","i","i","u","o", ],
"length": (2,4),
}
}
```
Then you could generate names following that ruleset with `namegen.fantasy_name(style="example_style")`.
The keys `syllable`, `consonants`, `vowels`, and `length` must be present, and `length` must be the minimum and maximum syllable counts. `start` and `end` are optional.
#### syllable
The "syllable" field defines the structure of each syllable. C is consonant, V is vowel,
and parentheses mean it's optional. So, the example `(C)VC` means that every syllable
will always have a vowel followed by a consonant, and will *sometimes* have another
consonant at the beginning. e.g. `en`, `bak`
*Note:* While it's not standard, the contrib lets you nest parentheses, with each layer
being less likely to show up. Additionally, any other characters put into the syllable
structure - e.g. an apostrophe - will be read and inserted as written. The
"alien" style rules in the module gives an example of both: the syllable structure is `C(C(V))(')(C)`
which results in syllables such as `khq`, `xho'q`, and `q'` with a much lower frequency of vowels than
`C(C)(V)(')(C)` would have given.
#### consonants
A simple list of consonant phonemes that can be chosen from. Multi-character strings are
perfectly acceptable, such as "th", but each one will be treated as a single consonant.
The function uses a naive form of weighting, where you make a phoneme more likely to
occur by putting more copies of it into the list.
#### start and end
These are **optional** lists for the first and last letters of a syllable, if they're
a consonant. You can add on additional consonants which can only occur at the beginning
or end of a syllable, or you can add extra copies of already-defined consonants to
increase the frequency of them at the start/end of syllables.
For example, in the `example_style` above, we have a `start` of m, and `end` of x and n.
Taken with the rest of the consonants/vowels, this means you can have the syllables of `mez`
but not `zem`, and you can have `phex` or `phen` but not `xeph` or `neph`.
They can be left out of custom rulesets entirely.
#### vowels
Vowels is a simple list of vowel phonemes - exactly like consonants, but instead used for the
vowel selection. Single-or multi-character strings are equally fine. It uses the same naive weighting system
as consonants - you can increase the frequency of any given vowel by putting it into the list multiple times.
#### length
A tuple with the minimum and maximum number of syllables a name can have.
When setting this, keep in mind how long your syllables can get! 4 syllables might
not seem like very many, but if you have a (C)(V)VC structure with one- and
two-letter phonemes, you can get up to eight characters per syllable.

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"""
Random Name Generator
Contribution by InspectorCaracal (2022)
A module for generating random names, both real-world and fantasy. Real-world
names can be generated either as first (personal) names, family (last) names, or
full names (first, optional middles, and last). The name data is from [Behind the Name](https://www.behindthename.com/)
and used under the [CC BY-SA 4.0 license](https://creativecommons.org/licenses/by-sa/4.0/).
Fantasy names are generated from basic phonetic rules, using CVC syllable syntax.
Both real-world and fantasy name generation can be extended to include additional
information via your game's `settings.py`
Available Methods:
first_name - Selects a random a first (personal) name from the name lists.
last_name - Selects a random last (family) name from the name lists.
full_name - Generates a randomized full name, optionally including middle names, by selecting first/last names from the name lists.
fantasy_name - Generates a completely new made-up name based on phonetic rules.
Method examples:
>>> namegen.first_name(num=5)
['Genesis', 'Tali', 'Budur', 'Dominykas', 'Kamau']
>>> namegen.full_name(parts=3, surname_first=True)
'Ó Muircheartach Torunn Dyson'
>>> namegen.full_name(gender='f')
'Wikolia Ó Deasmhumhnaigh'
>>> namegen.fantasy_name(num=3, style="fluid")
['Aewalisash', 'Ayi', 'Iaa']
Available Settings (define these in your `settings.py`)
NAMEGEN_FIRST_NAMES - Option to add a new list of first (personal) names.
NAMEGEN_LAST_NAMES - Option to add a new list of last (family) names.
NAMEGEN_REPLACE_LISTS - Set to True if you want to use ONLY your name lists and not the ones that come with the contrib.
NAMEGEN_FANTASY_RULES - Option to add new fantasy-name style rules.
Must be a dictionary that includes "syllable", "consonants", "vowels", and "length" - see the example.
"start" and "end" keys are optional.
Settings examples:
NAMEGEN_FIRST_NAMES = [
("Evennia", 'mf'),
("Green Tea", 'f'),
]
NAMEGEN_LAST_NAMES = [ "Beeblebrox", "Son of Odin" ]
NAMEGEN_FANTASY_RULES = {
"example_style": {
"syllable": "(C)VC",
"consonants": [ 'z','z','ph','sh','r','n' ],
"start": ['m'],
"end": ['x','n'],
"vowels": [ "e","e","e","a","i","i","u","o", ],
"length": (2,4),
}
}
"""
import random
import re
from os import path
from django.conf import settings
from evennia.utils.utils import is_iter
# Load name data from Behind the Name lists
dirpath = path.dirname(path.abspath(__file__))
_FIRSTNAME_LIST = []
with open(path.join(dirpath, "btn_givennames.txt"),'r', encoding='utf-8') as file:
_FIRSTNAME_LIST = [ line.strip().rsplit(" ") for line in file if line and not line.startswith("#") ]
_SURNAME_LIST = []
with open(path.join(dirpath, "btn_surnames.txt"),'r', encoding='utf-8') as file:
_SURNAME_LIST = [ line.strip() for line in file if line and not line.startswith("#") ]
_REQUIRED_KEYS = { "syllable", "consonants", "vowels", "length" }
# Define phoneme structure for built-in fantasy name generators.
_FANTASY_NAME_STRUCTURES = {
"harsh": {
"syllable": "CV(C)",
"consonants": [ "k", "k", "k", "z", "zh", "g", "v", "t", "th", "w", "n", "d", "d", ],
"start": ["dh", "kh", "kh", "kh", "vh", ],
"end": ["n", "x", ],
"vowels": [ "o", "o", "o", "a", "y", "u", "u", "u", "ä", "ö", "e", "i", "i", ],
"length": (1,3),
},
"fluid": {
"syllable": "V(C)",
"consonants": [ 'r','r','l','l','l','l','s','s','s','sh','m','n','n','f','v','w','th' ],
"start": [],
"end": [],
"vowels": [ "a","a","a","a","a","e","i","i","i","y","u","o", ],
"length": (3,5),
},
"alien": {
"syllable": "C(C(V))(')(C)",
"consonants": [ 'q','q','x','z','v','w','k','h','b' ],
"start": ['x',],
"end": [],
"vowels": [ 'y','w','o','y' ],
"length": (1,5),
},
}
_RE_DOUBLES = re.compile(r'(\w)\1{2,}')
# Load in optional settings
custom_first_names = settings.NAMEGEN_FIRST_NAMES if hasattr(settings, "NAMEGEN_FIRST_NAMES") else []
custom_last_names = settings.NAMEGEN_LAST_NAMES if hasattr(settings, "NAMEGEN_LAST_NAMES") else []
if hasattr(settings, "NAMEGEN_FANTASY_RULES"):
_FANTASY_NAME_STRUCTURES |= settings.NAMEGEN_FANTASY_RULES
if hasattr(settings, "NAMEGEN_REPLACE_LISTS") and settings.NAMEGEN_REPLACE_LISTS:
_FIRSTNAME_LIST = custom_first_names or _FIRSTNAME_LIST
_SURNAME_LIST = custom_last_names or _SURNAME_LIST
else:
_FIRSTNAME_LIST += custom_first_names
_SURNAME_LIST += custom_last_names
def fantasy_name(num=1, style="harsh", return_list=False):
"""
Generate made-up names in one of a number of "styles".
Keyword args:
num (int) - How many names to return.
style (string) - The "style" of name. This references an existing algorithm.
return_list (bool) - Whether to always return a list. `False` by default,
which returns a string if there is only one value and a list if more.
"""
def _validate(style_name):
if style_name not in _FANTASY_NAME_STRUCTURES:
raise ValueError(f"Invalid style name: '{style_name}'. Available style names: {' '.join(_FANTASY_NAME_STRUCTURES.keys())}")
style_dict = _FANTASY_NAME_STRUCTURES[style_name]
if type(style_dict) is not dict:
raise ValueError(f"Style {style_name} must be a dictionary.")
keys = set(style_dict.keys())
missing_keys = _REQUIRED_KEYS - keys
if len(missing_keys):
raise KeyError(f"Style dictionary {style_name} is missing required keys: {' '.join(missing_keys)}")
if not (type(style_dict['consonants']) is list and type(style_dict['vowels']) is list):
raise TypeError(f"'consonants' and 'vowels' for style {style_name} must be lists.")
if not (is_iter(style_dict['length']) and len(style_dict['length']) == 2):
raise ValueError(f"'length' key for {style_name} must have a minimum and maximum number of syllables.")
return style_dict
# validate num first
num = int(num)
if num < 1:
raise ValueError("Number of names to generate must be positive.")
style_dict = _validate(style)
syllable = []
weight = 8
# parse out the syllable structure with weights
for key in style_dict["syllable"]:
# parentheses mean optional - allow nested parens
if key == "(":
weight = weight/2
elif key == ")":
weight = weight*2
else:
if key == "C":
sound_type = "consonants"
elif key == "V":
sound_type = "vowels"
else:
sound_type = key
# append the sound type and weight
syllable.append( (sound_type, int(weight)) )
name_list = []
# time to generate a name!
for n in range(num):
# build a list of syllables
length = random.randint(*style_dict['length'])
name = ""
for i in range(length):
# build the syllable itself
syll = ""
for sound, weight in syllable:
# random chance to skip this key; lower weights mean less likely
if random.randint(0,8) > weight:
continue
if sound not in style_dict:
# extra character, like apostrophes
syll += sound
continue
# get a random sound from the sound list
choices = list(style_dict[sound])
if sound == "consonants":
# if it's a starting consonant, add starting-sounds to the options
if not len(syll):
choices += style_dict.get('start',[])
# if it's an ending consonant, add ending-sounds to the options
elif i+1 == length:
choices += style_dict.get('end',[])
syll += random.choice(choices)
name += syll
# condense repeating letters down to a maximum of 2
name = _RE_DOUBLES.sub(lambda m: m.group(1)*2, name)
# capitalize the first letter
name = name[0].upper() + name[1:] if len(name) > 1 else name.upper()
name_list.append(name)
if len(name_list) == 1 and not return_list:
return name_list[0]
return name_list
def first_name(num=1, gender=None, return_list=False, ):
"""
Generate first names, also known as personal names.
Keyword args:
num (int) - How many names to return.
gender (str) - Restrict names by gender association. `None` by default, which selects from
all possible names. Set to "m" for masculine, "f" for feminine, "mf" for androgynous
return_list (bool) - Whether to always return a list. `False` by default,
which returns a string if there is only one value and a list if more.
"""
# validate num first
num = int(num)
if num < 1:
raise ValueError("Number of names to generate must be positive.")
if gender:
# filter the options by gender
name_options = [ name_data[0] for name_data in _FIRSTNAME_LIST if all([gender_key in gender for gender_key in name_data[1]])]
if not len(name_options):
raise ValueError(f"Invalid gender '{gender}'.")
else:
name_options = [ name_data[0] for name_data in _FIRSTNAME_LIST ]
# take a random selection of `num` names, without repeats
results = random.sample(name_options,num)
if len(results) == 1 and not return_list:
# return single value as a string
return results[0]
return results
def last_name(num=1, return_list=False):
"""
Generate family names, also known as surnames or last names.
Keyword args:
num (int) - How many names to return.
return_list (bool) - Whether to always return a list. `False` by default,
which returns a string if there is only one value and a list if more.
"""
# validate num first
num = int(num)
if num < 1:
raise ValueError("Number of names to generate must be positive.")
# take a random selection of `num` names, without repeats
results = random.sample(_SURNAME_LIST,num)
if len(results) == 1 and not return_list:
# return single value as a string
return results[0]
return results
def full_name(num=1, parts=2, gender=None, return_list=False, surname_first=False):
"""
Generate complete names with a personal name, family name, and optionally middle names.
Keyword args:
num (int) - How many names to return.
parts (int) - How many parts the name should have. By default two: first and last.
gender (str) - Restrict names by gender association. `None` by default, which selects from
all possible names. Set to "m" for masculine, "f" for feminine, "mf" for androgynous
return_list (bool) - Whether to always return a list. `False` by default,
which returns a string if there is only one value and a list if more.
surname_first (bool) - Default `False`. Set to `True` if you want the family name to be
placed at the beginning of the name instead of the end.
"""
# validate num first
num = int(num)
if num < 1:
raise ValueError("Number of names to generate must be positive.")
# validate parts next
parts = int(parts)
if parts < 2:
raise ValueError("Number of name parts to generate must be at least 2.")
name_lists = []
middle = parts-2
if middle:
# calculate "middle" names.
# we want them to be an intelligent mix of personal names and family names
# first, split the total number of middle-name parts into "personal" and "family" at a random point
total_mids = middle*num
personals = random.randint(1,total_mids)
familys = total_mids - personals
# then get the names for each
personal_mids = first_name(num=personals, gender=gender, return_list=True)
family_mids = last_name(num=familys, return_list=True) if familys else []
# splice them together according to surname_first....
middle_names = family_mids+personal_mids if surname_first else personal_mids+family_mids
# ...and then split into `num`-length lists to be used for the final names
name_lists = [ middle_names[num*i:num*(i+1)] for i in range(0,middle) ]
# get personal and family names
personal_names = first_name(num=num, gender=gender, return_list=True)
last_names = last_name(num=num, return_list=True)
# attach personal/family names to the list of name lists, according to surname_first
if surname_first:
name_lists = [last_names] + name_lists + [personal_names]
else:
name_lists = [personal_names] + name_lists + [last_names]
# lastly, zip them all up and join them together
names = list(zip(*name_lists))
names = [ " ".join(name) for name in names ]
if len(names) == 1 and not return_list:
# return single value as a string
return names[0]
return names

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"""
Tests for the Random Name Generator
"""
from evennia.utils.test_resources import BaseEvenniaTest
from evennia.contrib.utils.name_generator import namegen
_INVALID_STYLES = {
"missing_keys": {
"consonants": ['c','d'],
"length": (1,2),
},
"invalid_vowels": {
"syllable": "CVC",
"consonants": ['c','d'],
"vowels": "aeiou",
"length": (1,2),
},
"invalid_length": {
"syllable": "CVC",
"consonants": ['c','d'],
"vowels": ['a','e'],
"length": 2,
},
}
namegen._FANTASY_NAME_STRUCTURES |= _INVALID_STYLES
class TestNameGenerator(BaseEvenniaTest):
def test_fantasy_name(self):
"""
Verify output types and lengths.
fantasy_name() - str
fantasy_name(style="fluid") - str
fantasy_name(num=3) - list of length 3
fantasy_name(return_list=True) - list of length 1
raises KeyError on missing style or ValueError on num
"""
single_name = namegen.fantasy_name()
self.assertEqual(type(single_name), str)
fluid_name = namegen.fantasy_name(style="fluid")
self.assertEqual(type(fluid_name), str)
three_names = namegen.fantasy_name(num=3)
self.assertEqual(type(three_names), list)
self.assertEqual(len(three_names), 3)
single_list = namegen.fantasy_name(return_list=True)
self.assertEqual(type(single_list), list)
self.assertEqual(len(single_list), 1)
with self.assertRaises(ValueError):
namegen.fantasy_name(num=-1)
with self.assertRaises(ValueError):
namegen.fantasy_name(style="dummy")
def test_structure_validation(self):
"""
Verify that validation raises the correct errors for invalid inputs.
"""
with self.assertRaises(KeyError):
namegen.fantasy_name(style="missing_keys")
with self.assertRaises(TypeError):
namegen.fantasy_name(style="invalid_vowels")
with self.assertRaises(ValueError):
namegen.fantasy_name(style="invalid_length")
def test_first_name(self):
"""
Verify output types and lengths.
first_name() - str
first_name(num=3) - list of length 3
first_name(gender='f') - str
first_name(return_list=True) - list of length 1
"""
single_name = namegen.first_name()
self.assertEqual(type(single_name), str)
three_names = namegen.first_name(num=3)
self.assertEqual(type(three_names), list)
self.assertEqual(len(three_names), 3)
gendered_name = namegen.first_name(gender='f')
self.assertEqual(type(gendered_name), str)
single_list = namegen.first_name(return_list=True)
self.assertEqual(type(single_list), list)
self.assertEqual(len(single_list), 1)
with self.assertRaises(ValueError):
namegen.first_name(gender='x')
with self.assertRaises(ValueError):
namegen.first_name(num=-1)
def test_last_name(self):
"""
Verify output types and lengths.
last_name() - str
last_name(num=3) - list of length 3
last_name(return_list=True) - list of length 1
"""
single_name = namegen.last_name()
self.assertEqual(type(single_name), str)
three_names = namegen.last_name(num=3)
self.assertEqual(type(three_names), list)
self.assertEqual(len(three_names), 3)
single_list = namegen.last_name(return_list=True)
self.assertEqual(type(single_list), list)
self.assertEqual(len(single_list), 1)
with self.assertRaises(ValueError):
namegen.last_name(num=-1)
def test_full_name(self):
"""
Verify output types and lengths.
full_name() - str
full_name(num=3) - list of length 3
full_name(gender='f') - str
full_name(return_list=True) - list of length 1
"""
single_name = namegen.full_name()
self.assertEqual(type(single_name), str)
three_names = namegen.full_name(num=3)
self.assertEqual(type(three_names), list)
self.assertEqual(len(three_names), 3)
gendered_name = namegen.full_name(gender='f')
self.assertEqual(type(gendered_name), str)
single_list = namegen.full_name(return_list=True)
self.assertEqual(type(single_list), list)
self.assertEqual(len(single_list), 1)
parts_name = namegen.full_name(parts=4)
# a name made of 4 parts must have at least 3 spaces, but may have more
parts = parts_name.split(" ")
self.assertGreaterEqual(len(parts), 3)
with self.assertRaises(ValueError):
namegen.full_name(parts=1)
with self.assertRaises(ValueError):
namegen.full_name(num=-1)