#!/usr/bin/env python3
# -*- coding: utf-8 -*-
+# © Copyright 2021-2022, Scott Gasch
+
"""A text-based simple histogram helper class."""
import math
"""A collection of details about the internal histogram buckets."""
num_populated_buckets: int = 0
+ """Count of populated buckets"""
+
max_population: Optional[int] = None
+ """The max population in a bucket currently"""
+
last_bucket_start: Optional[int] = None
+ """The last bucket starting point"""
+
lowest_start: Optional[int] = None
+ """The lowest populated bucket's starting point"""
+
highest_end: Optional[int] = None
+ """The highest populated bucket's ending point"""
+
max_label_width: Optional[int] = None
+ """The maximum label width (for display purposes)"""
class SimpleHistogram(Generic[T]):
NEGATIVE_INFINITY = -math.inf
def __init__(self, buckets: List[Tuple[Bound, Bound]]):
+ """C'tor.
+
+ Args:
+ buckets: a list of [start..end] tuples that define the
+ buckets we are counting population in. See also
+ :meth:`n_evenly_spaced_buckets` to generate these
+ buckets more easily.
+ """
from math_utils import NumericPopulation
self.buckets: Dict[Tuple[Bound, Bound], Count] = {}
max_bound: T,
n: int,
) -> List[Tuple[int, int]]:
+ """A helper method for generating the buckets argument to
+ our c'tor provided that you want N evenly spaced buckets.
+
+ Args:
+ min_bound: the minimum possible value
+ max_bound: the maximum possible value
+ n: how many buckets to create
+
+ Returns:
+ A list of bounds that define N evenly spaced buckets
+ """
ret: List[Tuple[int, int]] = []
stride = int((max_bound - min_bound) / n)
if stride <= 0:
return ret
def _get_bucket(self, item: T) -> Optional[Tuple[int, int]]:
+ """Given an item, what bucket is it in?"""
for start_end in self.buckets:
if start_end[0] <= item < start_end[1]:
return start_end
return None
def add_item(self, item: T) -> bool:
+ """Adds a single item to the histogram (reculting in us incrementing
+ the population in the correct bucket.
+
+ Args:
+ item: the item to be added
+
+ Returns:
+ True if the item was successfully added or False if the item
+ is not within the bounds established during class construction.
+ """
bucket = self._get_bucket(item)
if bucket is None:
return False
return True
def add_items(self, lst: Iterable[T]) -> bool:
+ """Adds a collection of items to the histogram and increments
+ the correct bucket's population for each item.
+
+ Args:
+ lst: An iterable of items to be added
+
+ Returns:
+ True if all items were added successfully or False if any
+ item was not able to be added because it was not within the
+ bounds established at object construction.
+ """
all_true = True
for item in lst:
all_true = all_true and self.add_item(item)
return all_true
- def get_bucket_details(self, label_formatter: str) -> BucketDetails:
+ def _get_bucket_details(self, label_formatter: str) -> BucketDetails:
+ """Get the details about one bucket."""
details = BucketDetails()
for (start, end), pop in sorted(self.buckets.items(), key=lambda x: x[0]):
if pop > 0:
return details
def __repr__(self, *, width: int = 80, label_formatter: str = '%d') -> str:
+ """Returns a pretty (text) representation of the histogram and
+ some vital stats about the population in it (min, max, mean,
+ median, mode, stdev, etc...)
+ """
from text_utils import bar_graph
- details = self.get_bucket_details(label_formatter)
+ details = self._get_bucket_details(label_formatter)
txt = ""
if details.num_populated_buckets == 0:
return txt