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4:39 AM
@sahasrara62 Traditional Unix tools are all really byte-based even where they claim to handle text. The terminal will typically default to utf-8 (perhaps with some escape sequences for illegal UTF-8 sequences) for input and display purposes, but.
(There's a reason there is no -e, --encoding flag.)
@PM2Ring I tend to think of "schwartzian transform" as referring to doing it yourself, completely eagerly/explicitly/manually, to work around the lack of a key option
@smci every cmp can be cmp-to-key'd, FWIW. You may also be interested in stackoverflow.com/a/75123782. (For the record, re the comments: fixes are no longer on my to-do list, or at least, I won't get around to them until I do an equivalent for Codidact)
 
5:07 AM
clickbait popular question lacking explanatory value; pulls attention away from other canonicals stackoverflow.com/questions/22633530
 
 
3 hours later…
7:54 AM
Hello, haven't talk here since more than two years :)
I have a casual question about good practices.
For a function that should return how many people are alive at the end of each year, taking a list of tuple (birth, death) years, I have two implementation for this (more in reality but those two are the most interresting) :

def living_at_end_of_years_1(population: Sequence[tuple[int, int]]) -> dict[int, int]:
"""
>>> living_at_end_of_years_1([(2000, 2002), (1998, 2001)])
{2000: 2, 2001: 1, 1998: 1, 1999: 1}
a style change for the last one that don't alter the ast could be better like this


return collections.Counter(
year
for birth, death in population
for year in range(birth, death)
)
 
@DorianTurba Welcome. You might want to check out the code formatting guide. Note that code and text generally don't mix well in chat.
 
Yes, I tried to format the text but it wasn't rendering properly
I think the way to go is to send text and code separately, do you confirm?
 
Yes.
 
8:41 AM
I honestly don't like either one because it took me way too long to understand what's going on. It should be more clearly documented what the input for the function is.
Out of the 2 options you've presented, I prefer the one with the Counter. But I'd write it like this, simply because it gives me a spot to put a comment:
def living_at_end_of_years_3(population: Sequence[tuple[int, int]]) -> MutableMapping[int, int]:
    population_per_year = collections.Counter()

    for birth_year, death_year in population:
        # In each year this person was alive, increase the population by 1
        population_per_year.update(range(birth_year, death_year))

    return population_per_year
 
9:00 AM
FWIW, I didn't get the (birth, death) format – I read that as births/deaths per year not years of births/deaths. The explicit naming as birth_year, death_year (as in Aran's code) makes it much easier to understand.
 
9:14 AM
Is there something like errno.errorcode for signal? I've got a couple of numeric signals and would like to get the canonical name of them.
For example, I've got 13 and want to get SIGPIPE. I've only found signal.strsignal(13) which gives a human readable description ("Broken pipe: 13").
 
# some ideas

# if you want types to help explain the code, use expressive types
Year = NewType('Year', int)
Lifespan = NewType('Lifespan', tuple[Year, Year])

# This could be shortened to just `range(*lifespan)` but these names explain purpose
# It incurs overhead, but clearer still is to use a namedtuple, dataclass or ordinary class
# to represent lifespans
def years_alive(lifespan: Lifespan):
    birth_year, death_year = lifespan
    return range(birth_year, death_year)

def census(population: Sequence[Lifespan]) -> MutableMapping[Year, int]:
finding places to put comments is never a real problem imx. better yet is to not need them due to the structure of the code.
 
@MisterMiyagi signal.Signals(13).name should work, although I don't have SIGPIPE on Windows
 
if we understand why the mapping is being constructed in the first place, the operational principle behind its construction seems clear enough to me already.
 
@Aran-Fey Indeed it does, thanks a lot!
 
it's straightforwardly a tally of all the events 'person x was alive in year y'
@Aran-Fey yeah, python stdlib stuff suffers from a confusion between reflecting the C interface and doing things the Python way
 
10:12 AM
@MisterMiyagi yes, birthyear and deatyear is a better naming I agree :)
@Aran-Fey I love this one, makes it very clear I think
@KarlKnechtel the types of the input data is a topic, for sure.
I prefer without the years_alive function as it's close to an over-abstraction to me.
range(lifespan) seems explicit enough to me.
Year = NewType('Year', int)
Lifespan = NewType('Lifespan', tuple[Year, Year])

def census(population: Sequence[Lifespan]) -> MutableMapping[Year, int]:
    return collections.Counter(
        year
        for lifespan in population
        for year in range(*lifespan)
    )
The issue with this is that it require more advanced knowledge of python, the unpacking syntax
 
You can always do for birth_year, death_year in population
 
 
2 hours later…
12:39 PM
@Aran-Fey sure
I was thinking about annotations. What I usually try to do is to be flexible about what I ask but strict on what I return.
Changing the code accordingly would result in the following code. What do you think?
import collections
import typing

Year = typing.NewType('Year', int)
Lifespan = typing.NewType('Lifespan', tuple[Year, Year])

def census(population: typing.Sequence[Lifespan]) -> collections.Counter[Year, int]:
    return collections.Counter(
        year
        for birth_year, death_year in population
        for year in range(birth_year, death_year)
    )
 
 
1 hour later…
1:55 PM
The type checker isn't happy about that :P
Deciding how generic to make my input/output types is something I still struggle with. I think returning a Counter is fine. I'd change the parameter to Iterable though
 
2:41 PM
@Aran-Fey I agree, population should be an iterable, sequence require len which isn't necessary
IIRC Iterable, Sequence and MutableMapping should be imported from collections.abc now
I'll check that
> Deprecated since version 3.9: collections.abc.MutableMapping now supports subscripting ([]). See PEP 585 and Generic Alias Type.
 
I still use all of that stuff from typing. Having a from typing import * # type: ignore in every file is already bad enough, I really don't need a from collections.abc import * # type: ignore on top of that
 
import collections.abc
import typing

Year = typing.NewType('Year', int)
Lifespan = typing.NewType('Lifespan', tuple[Year, Year])


def census(population: collections.abc.Iterable[Lifespan]) -> collections.Counter[int]:
    return collections.Counter(
        year
        for birth_year, death_year in population
        for year in range(birth_year, death_year)
    )
I fixed the counter annotation. Since a counter always has int as values, we need to fill the "key" type only
haha
On my side, I usually "just" import collection.abc and import typing, and in my annotation do as in the above code: "-> collection.Counter" or "typing.NewType"
 
I think type aliases would be preferable over NewTypes. Your function already takes Years as input but gives ints as output. More often than not, NewTypes just get in the way
 
I usually use from ... import ... in init.py only
@Aran-Fey I agree
Or we can do this
return collections.Counter(
    Year(year)
and annotate the return value as " -> collections.Counter[Year]:"
maybe the Year(year) is useless since we already stated that it's a Year in input annotation, but since we don"t have control over the input... IDK
Year: typing.TypeAlias = int
Lifespan: typing.TypeAlias = tuple[Year, Year]
seems better since it would be strict on the input, which I don't like
Or, we can merge both tools to make the counter more meaningful about its content
import collections.abc
import typing

Year = typing.NewType("Year", int)
Lifespan: typing.TypeAlias = tuple[int, int]


def census(population: collections.abc.Iterable[Lifespan]) -> collections.Counter[Year]:
    return collections.Counter(
        Year(year)
        for birth_year, death_year in population
        for year in range(birth_year, death_year)
    )


census([(1, 2), (2, 3), (3, 4)])
 
 
2 hours later…
5:04 PM
@roganjosh oops...I think I linked the dupe target rather than the newer question that I was asking to be closed.
so...nvm, I guess, since that was a few days ago now.
 
No worries, I was just very confused :)
 
¯\_(ツ)_/¯
 
5:21 PM
@DorianTurba I'd avoid NewTypes because their semantics usually don't work as they should. For example
reveal_type(Year(2000) + 3)  # int
reveal_type(Year(2000) + 3.5)  # float
reveal_type(Year(2000) + Year(3))  # int
I would either use a TypeAlias, or if that's not enough, a stub class
class Year:
    def __add__(self, how_many: int) -> Year: return self
    def __sub__(self, how_many: int) -> Year: return self

year2k: Year = cast(Year, 2000)

reveal_type(year2k + 3)  # Year
reveal_type(year2k + 3.5)  # error
reveal_type(year2k + year2k)  # error
You can even define a constructor to make Year(2000) work at runtime
def __new__(cls, year: int) -> Self:
    return year  # type: ignore
 
6:16 PM
Now I guess I see why rust can get so much traction
 
The Rust "newtypes" also need a lot of boilerplate but they prevent accidentally widening the type.
 
 
2 hours later…
8:31 PM
I wish there was a way to express "The variance doesn't matter". There's no reason why something like this shouldn't typecheck
def return_a_list_of_ints() -> list[int]:
    return [1, 2, 3]

list_of_floats: list[float] = return_a_list_of_ints()
 
@Aran-Fey If only def __add__(self, other: int) -> int: instead returned Self. However, I get the feeling CPython devs wouldn't be happy with such a change.
 
-> int is actually correct though, at least in CPython. Adding two instances of an int subclass will return a plain old int
 
Yeah, CPython doesn't like doing return type(self)(...) and return Self.
 
9:32 PM
Found a cool use for a nested function today. Want to write a recursive function, but you have a lot of parameters that you need to pass on? Worry not:
def to_json(
    data: JsonValue,
    indent: int = 4,
    ensure_ascii: bool = False,
) -> str:
    def recurse(data: JsonValue) -> str:
        return to_json(data, indent, ensure_ascii)

    if isinstance(data, list):
        return '[' + ', '.join(recurse(item) for item in data) + ']'
 
 
2 hours later…
11:28 PM
I understand, thanks for bringing that up.
About the stub class, I don't like this option, too boilerplate to me.
I think I would stick to TypeAlias, it's good enough fo rme
isn't partial made for that ?
"recurse = functools.partial(to_json, indent=indent, ensure_ascii=ensure_ascii)"
 

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