197 lines
6.2 KiB
Python
197 lines
6.2 KiB
Python
import yaml
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import random
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from typing import Optional, List, IO
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class DataSource:
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"""
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Represents a yaml data source used to generate roll tables.
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Attributes:
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source - the IO source to parse
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frequency - the frequency distribution to apply
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headers - an array of header strings
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data - The parsed YAML data
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Methods:
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load_source - Read and parse the source, populating the attributes
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"""
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def __init__(self, source: IO, frequency: str = 'default') -> None:
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"""
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Initialize a DataSource instance.
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Args:
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source - an IO object to read source from
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frequency - the name of the frequency distribution to use; must
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be defined in the source file's metadata.
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"""
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self.source = source
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self.frequency = frequency
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self.headers = []
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self.frequencies = None
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self.data = None
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self.load_source()
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def load_source(self) -> None:
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"""
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Cache the yaml source and the parsed or generated metadata.
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"""
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if self.data:
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return
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self.data = yaml.safe_load(self.source)
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metadata = self.data.pop('metadata', {})
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num_keys = len(self.data.keys())
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default_freq = num_keys / 100
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if 'headers' in metadata:
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self.headers = metadata['headers']
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frequencies = {
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'default': dict([(k, default_freq) for k in self.data.keys()])
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}
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if 'frequencies' in metadata:
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frequencies.update(**metadata['frequencies'])
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self.frequencies = frequencies[self.frequency]
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class RollTable:
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"""
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Generate a roll table using weighted distributions of random options.
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Instance Attributes:
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sources - One or more yaml strings to parse as data sources
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frequency - The frequency distribution to apply when populating the table
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die - The size of the die for which to create a table (default: 20)
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headers - An array of header strings
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rows - An array of table headers and rows
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expanded_rows - An array of table headers and rows, one per die roll value
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Usage:
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table = RollTable(['source.yaml'], die=4)
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print(table)
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>>> Roll Item
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d1 Foo
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d2-d4 Bar
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"""
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def __init__(self, sources: List[str], frequency: str = 'default',
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die: Optional[int] = 20) -> None:
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self._sources = sources
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self._frequency = frequency
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self._die = die
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self._data = None
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self._rows = None
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self._headers = None
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self._header_excludes = None
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self._generated_values = None
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self._config()
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@property
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def die(self) -> int:
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return self._die
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@property
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def headers(self) -> List:
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return self._headers
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@property
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def _values(self) -> List:
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if not self._generated_values:
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def values_from_datasource(ds):
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weights = []
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options = []
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for (option, weight) in ds.frequencies.items():
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weights.append(weight)
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options.append(option)
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freqs = random.choices(options, weights=weights, k=self.die)
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values = []
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for option in freqs:
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choice = random.choice(ds.data[option])
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if hasattr(choice, 'keys'):
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c = [option]
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for (k, v) in choice.items():
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c.extend([k, v])
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values.append(c)
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else:
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values.append([option, choice])
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return sorted(values)
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ds_values = [values_from_datasource(t) for t in self._data]
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self._generated_values = []
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for face in range(self._die):
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value = []
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for index, ds in enumerate(ds_values):
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value += ds_values[index][face]
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self._generated_values.append(value)
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return self._generated_values
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@property
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def rows(self) -> List:
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def formatted(lastrow, offset, row, i):
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fmt = f'd{i}' if offset + 1 == i else f'd{offset+1}-d{i}'
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return self._column_filter([fmt] + lastrow)
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lastrow = None
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offset = 0
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self._rows = [self._column_filter(['Roll'] + self.headers)]
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for face in range(self._die):
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row = self._values[face]
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if not lastrow:
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lastrow = row
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offset = face
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continue
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if row != lastrow:
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self._rows.append(formatted(lastrow, offset, row, face))
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lastrow = row
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offset = face
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self._rows.append(formatted(lastrow, offset, row, face+1))
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return self._rows
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@property
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def expanded_rows(self) -> List:
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self._rows = [self._column_filter(['Roll'] + self.headers)]
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for face in range(self._die):
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row = self._values[face]
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self._rows.append(self._column_filter([f'd{face+1}'] + row))
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return self._rows
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def _config(self):
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"""
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Parse data sources, generate headers, and create the column filters
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"""
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# create the datasource objects
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self._data = []
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for src in self._sources:
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ds = DataSource(src, frequency=self._frequency)
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ds.load_source()
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self._data.append(ds)
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# merge the headers
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self._headers = []
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for ds in self._data:
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self._headers += ds.headers
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# identify which columsn to hide in the output by recording where a
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# None header appears
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self._header_excludes = []
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for i in range(len(self._headers)):
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if self.headers[i] is None:
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self._header_excludes.append(i+1) # +1 to account for the 'Roll' column
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def _column_filter(self, row):
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return [col for (pos, col) in enumerate(row) if pos not in self._header_excludes]
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def __repr__(self) -> str:
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rows = list(self.rows)
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str_format = '\t'.join(['{:10s}'] * len(rows[0]))
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return "\n".join([str_format.format(*row) for row in rows])
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