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refactoring

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This commit is contained in:
evilchili 2023-12-22 13:36:45 -08:00
parent 0fd4a69980
commit fdbd96e9b1
1 changed files with 64 additions and 34 deletions
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98
rolltable/tables.py
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@ -67,6 +67,69 @@ class DataSource:
frequencies.update(**self.metadata['frequencies'])
self.frequencies = frequencies[self.frequency]
def random_frequencies(self, count: int = 1) -> list:
"""
Choose random option names from the frequency table.
"""
weights = []
options = []
for (option, weight) in self.frequencies.items():
weights.append(weight)
options.append(option)
return random.choices(options, weights=weights, k=count)
def random_values(self, count: int = 1) -> list:
"""
Return a list of random values from the data set, as a list of lists.
"""
return [
self._random_choice_from_option(option) for option in self.random_frequencies(count)
]
def _random_choice_from_option(self, option: str) -> list:
"""
Select a random item from the specified option in the data source, and return a flattened
list of the option, the select item, and the item's value (if any).
"""
# If there is no data for the specified option, stop now.
flattened = [option]
if not self.data[option]:
return flattened
if hasattr(self.data[option], 'keys'):
# if the option is a dict, we assume the values are lists; we select a random item
# and prepend the key to the value list as our random selection. For example, given:
#
# >>> self.data[option] == {'One': ['bar', 'baz'], 'Two': ['qaz', 'qux']}
#
# choice might then be: ['One', 'bar', 'baz']
#
k, v = random.choice(list(self.data[option].items()))
choice = [k] + v
else:
# If the option is either a list or a string, just select it.
choice = random.choice(self.data[option])
# If the randomly-selected choice is a dict, choose a random item and return a list consisting
# of the option name, the key, and the value, flattening the # value if it is also a list.
if hasattr(choice, 'keys'):
for (k, v) in choice.items():
if type(v) is list:
flattened.extend([k, *v])
else:
flattened.extend([k, v])
return flattened
# if the member is a list, return the flattened list
if type(choice) is list:
flattened.extend(choice)
return flattened
# otherwise, return a list consisting of option and choice
flattened.append(choice)
return flattened
class RollTable:
"""
@ -128,40 +191,7 @@ class RollTable:
@property
def _values(self) -> List:
if not self._generated_values:
def values_from_datasource(ds):
weights = []
options = []
for (option, weight) in ds.frequencies.items():
weights.append(weight)
options.append(option)
freqs = random.choices(options, weights=weights, k=self.die)
values = []
for option in freqs:
if not ds.data[option]:
values.append([option])
continue
if hasattr(ds.data[option], 'keys'):
k, v = random.choice(list(ds.data[option].items()))
choice = [k] + v
else:
choice = random.choice(ds.data[option])
if hasattr(choice, 'keys'):
c = [option]
for (k, v) in choice.items():
if type(v) is list:
c.extend([k, *v])
else:
c.extend([k, v])
values.append(c)
else:
if type(choice) is list:
values.append([option, *choice])
else:
values.append([option, choice])
return sorted(values)
ds_values = [values_from_datasource(t) for t in self._data]
ds_values = [t.random_values(self.die) for t in self._data]
self._generated_values = []
for face in range(self._die):
value = []