cool

ok new issue now I made a blog editor with django and it was working perfectly and now it wont make a post it says (Select a valid choice. That choice is not one of the available choices.) under the title place

@pedroechavarria We can't answer this without a minimal example of the code

morning cabbages

cbg

U+1D454 is same as UTF-32 (decimal) 119,892. But which number format is "U+1D454"

Good day guys

I think what you're saying is "hex 1D454 is decimal 119,892"

FWIW, UTF-32 is an encoding so it covers neither U+1D454 nor 119,892. It's a way to store glyph 𝑔 matching the ordinal 119892 corresponding to U+1D454 into bytes.

Thanks a lot @Aran-Fey and @MisterMiyagi. I'm very grateful, yea I get it now🙏

I don't think utf cares about glyphs? Mapping glyphs to code points is unicode's job, and mapping code points to bytes is utf's job

That's a valid point but I cannot nuke my comment anymore. :/

Looking at it like this, unicode seems kind of pointless. All it does is assign a number to a symbol? Why? Who has ever wanted to treat a symbol as a number? What's that good for, are you gonna add two symbols? Or maybe check if a symbol is divisible by three?

@Aran-Fey you mean the part that's a standard on which everyone agrees that a code point means one thing?

@Aran-Fey it's more like numbers being really great for lookup.

There's, like, tons of bells and whistles that belong to "numbers" as a concept that get conveniently swept under the rug during teaching.

It's the category theory mafia, I tell you!

@AndrasDeak--СлаваУкраїні Does unicode have any other parts? O.o

there's normalisation...

Hmm, true, and they made up some stuff about combining characters

In light of these new discoveries, I'm willing to tolerate the existence of unicode

hooray!

hello everyone, why is the following case statement captured? i.split() is a list of strings, but my case statement is a tuple of strings

random_list = ['foo', 'foo bar', 'foo baz', 'bar baz']
for i in random_list:
    match i.split():
        case ('foo', 'bar'):
            print('found')

structural pattern, so list and tuples are not the same structure, but why

@Aran-Fey I don't know, that's why I asked. It seems weird to me to question the utility of everyone agreeing that a given number means a given thing. You know, you can't really communicate if you don't agree on what letters mean.

since cases are similar to assignments, I would expect the () and [] syntax to mean the same thing.

unless you're being weirdly funny

@AndrasDeak--СлаваУкраїні That's the thing, you can just agree on the letters instead of the numbers ¯\_(ツ)_/¯

Letters how?

Spelling out the name instead of code points?

we can do that with '\N{}' and boy does that sound exciting :P

@MisterMiyagi ok that kind of makes sense, but why is case tuple(['foo', 'bar']): allowed? is there a place where this is useful

@Jake Python just has a sequence pattern, not specifically list or tuple patterns.

@Jake I assume that falls under the general class pattern.

@AndrasDeak--СлаваУкраїні Honestly, I'm not sure what letters and glyphs and symbols are. But conceptually, every character is defined by a set of metadata: The shape, the name, the description, stuff like that. All I'm saying is that there's no real reason to have a number in there as well

Well if you refer to each character with a label, the label might as well be something short like an integer.

I'm having serialization thoughts about this, to be clear. At the end of the day everything is numbers. You need something to tell you what numbers are. You said that's what utf does, but then what does utf tell you exactly? What's "a code point"?

@Jake Checking case tuple(['foo', 'bar']): with AST shows that it's indeed a Class match.

so if I want a "strict" match, I should use the class match syntax?

Doesn't that usually get handled based on attribute values and __match_args__ though? How does that work with lists and tuples?

@Jake I assume so but haven't really worked with patterns for builtins.

@AndrasDeak--СлаваУкраїні The code point is just the number that identifies a unicode letter. For example, the code point of a is 97. But I don't see how "everything" is a number. A letter isn't a number. Text isn't a number. Encoded text isn't a number.

@Aran-Fey that's the point. You need to go from "97" to "'LATIN SMALL LETTER A'" to make any sense of 97.

Otherwise you just have a bunch of numbers in a stream, not text.

@MisterMiyagi thanks MisterMiyagi

Or ascii art for that matter. Textness is somewhat irrelevant.

Why would you have a bunch of numbers in a stream?

The bytes? Decoded into code points, which are also numbers?

But that's only because the numbers exist. What do you gain by interpreting this stream of characters as a stream of numbers? Why does b'\x61' have to represent 97, why can't it represent "LATIN SMALL LETTER A"?

So are you suggesting that instead of 97 as label, we should use b'\x61' as label?

> What's "a code point"?

All getting very philosophical for a Monday morning. Cbg

What's a "label"? :P

cbg

We could have a rapid descent into nihilism here...

@Aran-Fey key in a dict that eats {thing} and gives you a text character or emoji or whatever you want

If I'm misrepresenting your point I have an alternate way to figure out how our understandings mismatch

Ok, in that case my answer is "yes"

Well, I guess it depends on what you mean by "we"

97 is pretty compact as labels go, even if it is extra to meaningful information about the shape of an a

@Aran-Fey OK. So it seems you have an issue with utf rather than unicode? :P

Representing a character as bytes is an encoding's job, right? So the "label" for "LATIN SMALL LETTER A" in utf-8 would be b'\x61', yes. But the label is tied to the encoding. There is no reason why the label has to be part of the unicode character definition

if I understand correctly, your preference would be to keep b'\xc5\x91' as one entity instead of 0x151/337.

@Aran-Fey OK, se let's try the other thing. Let's go step by step and tell me where we disagree.

1. a text file (for the sake of arguments) is just a bunch of bytes stored somewhere

2. when you read that file you somehow have to make sense of the bytes^[citation needed]

So far so good

3. utf8 tells you how those bytes should be translated to code points, whatever those are, and you're still happy with this step

No. utf8 tells you how those bytes should be translated to characters

So UTF8 tells me that b'\xc5\x91' is ő?

Yes

Then which part of "unicode that isn't utf8" is what you don't like? Or, perhaps conversely, how does UTF8 know that b'\xc5\x91' is ő if not for unicide unicode (heh)?

So let's say we have a way to identify letters. For example, if I say "LATIN SMALL LETTER A", you know what I mean, right?

yup

So a name is all the information we need to identify a character. Given that, why should we add any additional information? What do we achieve by assigning a unique number to the character?

It's like taking a database table that already has a primary key and adding a 2nd primary key

Yeah, OK. I suspect the main reason is practicality, and tradition going back to ASCII tables. Things have an ord().

And as I said, it's also easier to write weird characters with code points rather than their corresponding bytes or their full name.

But if UTF8 alone knows the full name then I understand your point.

Tbh I think what upsets me the most about this isn't that the number exists, but that it actually kind of makes sense for it to exist. Integers are easy to represent. Every computer and every programming language understands ints. It's easy for the decoder to spit out a bunch of ints and pass them to the renderer that turns them into pixels on your screen, even if they're written in different languages. If unicode characters were represented by an enum or whatever, this would be tricky.

But it still means that unicode is more or less 2 different standards rolled into one, and it's only necessary because our software still lives in the stone age

perhaps it's less "lives in the stone age" and more "tower of babel and the common denominator are ints"

I'm willing to compromise and call it the "int age" instead

Plus if you print the table out on paper, like in the stone age, you can easily find a character based on int index.

does "anti aliasing" when we smoothen jagged surfaces have anything to do with "aliasing" in python (when you have multiple names pointing to the same object)

@UmeshKonduru yes, aliasing is a more general concept when different things become indistinguishable en.wikipedia.org/wiki/Aliasing

thank you

you also have aliasing in discrete Fourier transforms when spurious frequency contributions start to overlap with the true signal components

I think this naming is less obvious with images, but it has the same source (there's probably a historical reason for the name)

oh I see, that's nice to know

Ah, it seems that's exactly what it's about, neat. Sharp edges correspond to high-frequency components, and smoothing them out removes some of those high frequencies, allowing a lower-resolution sample to work.

I'm 85% confident in that theory

do you mean it has something to do with drawing using Fourier Series

rotating vectors

no, I don't think so

what do you mean when you say sharp edges correspond to high frequency components, then?

bezier curves?

Drawing with rotating vectors uses the Fourier transform (well, Fourier series decomposition) of an X(t) and a Y(t) curve, two 1d datasets that together encode a line embedded in 2d. What I'm talking about is a 2d Fourier transform (think FFT) of a "dense" image. But the analogy with anti-aliasing is not very strict, don't be hung up on this. I'm mostly musing.

Certainly sounds plausible. I recall writing my own jpeg compressor many moons ago, works on cosine transforms along a line of pixels I seem to recall.

The history of the term sounds like something wikipedia would know a lot about.

Not sure where I was going with this but here's the zoomed FFT of a sharp and a blurred checkerboard:

I didn't expect so much small-scale structure, it's harder to say anything smart about this. I guess it's definitely helpful for sampling if the spectrum doesn't have these huge peaks in it scattered on a large frequency range.

let's see if the code fits in here:

import scipy.ndimage as ndi
import matplotlib.colors as colors

i, j = np.indices((6, 6))
checker = (i + j) % 2 == 0
img = np.kron(checker, np.full((200, 200), fill_value=255))
blurred = ndi.gaussian_filter(img, sigma=5)

fft_sharp = np.fft.fftshift(np.fft.fft2(img))
fft_blurred = np.fft.fftshift(np.fft.fft2(blurred))

fig, axs = plt.subplots(nrows=2, ncols=2)
axs[0, 0].imshow(img)
axs[0, 1].imshow(blurred)
hfs = axs[1, 0].imshow(abs(fft_sharp), norm=colors.SymLogNorm(10**-5))
hfb = axs[1, 1].imshow(abs(fft_blurred), norm=colors.SymLogNorm(10**-5))

hmm, close enough

Re: Unicode. I'm not sure that "a name is all the information we need to identify a character" is true in all cases. Not all Unicode characters have a unique name. For example, fileformat.info/info/unicode/char/000a/index.htm and fileformat.info/info/unicode/char/0007/index.htm say that "\a" and "\n" both have a name of "<control>". And Python's unicodedata.name method raises ValueError: no such name for both of them.

I'm not fond of no such name errors, and I would like to live in a world where all characters have a unique name. But for now, I'm gonna carry that weight.

Maybe a name alone isn't enough, but in any case the set of data points that uniquely identifies a character doesn't need to contain a number

Yes

I notice that "\a" and "\n" have an "old name" value of "BELL" and "LINE FEED (LF)". I wonder why they decided to change it.

Maybe there's some subtlety there about the distinction between a character/codepoint/glyph. Something like: "if you can't describe its appearance using pixels, it's not a glyph, and it shouldn't have a name"

Maybe they got strong-armed by the emoji industry to take the name "BELL" from "\a" and give it to U+1F514 🔔

Revoking the name of all non-bell control characters is just a distraction

Looks like many nameless characters have at least one 'Alias', which is guaranteed to be unique among all names and aliases. For example, "ALERT" and "BEL" are aliases for "\a".

I wonder if there are any characters with no name and no alias. It doesn't look like there are any guarantees.

@Kevin aliasing strikes again!

@roganjosh that's the issue i dont know where it may be

That's the purpose of a traceback. You must also logically know what displays the form you're trying to submit

If you don't know where it is, then we definitely cannot be expected to know that without even having a view on the code or any understanding of what the app is supposed to be doing

got it

Please see our formatting guide for correctly posting code snippets. Also, as per our room rules please host long code blocks off-site and link back here

→ 2 messages moved to Python Ouroboros - The Rotating Knives

→ 1 message moved to Python Ouroboros - The Rotating Knives

@Aran-Fey Reading up on the convo, wait wait, this is precisely the point. "Who has ever wanted to treat a symbol as a number?" - we do, because machines. "What's that good for.." - well, it's precisely the bytes at the end can be some function of the code point itself. this is huge, and it's what allows things like utf-8 to exist. it's like byte = func(code_point). Writing encodings like this means each encoding no longer needs to maintain how the glyphs are made, or even what they're called...

they just need to know how to translate between machine bytes and a machine-independent representation: which, if its a number, is much easier to deal with.

Functionally, if you know why LLVM is so revolutionary, then this is just like that. the code points act like an LLVM IR, it serves the same role. it's a consistent intermediate representation, from which all other downstream encodings can play ball without conflicts.

:54932841 ok >>>class post(models.Model):
    title = models.CharField(max_length=255)
    author = models.ForeignKey(User, on_delete=models.CASCADE)
    body = RichTextField(blank=True, null=True)
    #body = models.TextField()
    header_image = models.ImageField(null=True, blank=True, upload_to="images/")
    created_at = models.DateTimeField(default=datetime.now, blank=True)
    category = models.CharField(max_length=200, default="")
    snippet = models.CharField(max_length=200,)
    likes = models.ManyToManyField(User, related_name='blog_likes')

is this ok ?

@ParitoshSingh Practically speaking, not having code points will very easily lead to the same situation we had in the past: all encodings were indeed mapping glyphs/symbols/whatever to the bytes directly...except somewhere along the path, this maintenance went awry. So, the buy-in for unicode was the promise that we'll be able to store anything forever because numbers are infinite, whereas bytes are not.

to put it differently, if youre directly mapping glyphs to bytes, and your "system" of mapping runs into some kind of limitation, what do you do then? you cant just willy nilly break backward compat, do you just give up and say "that's all that fits?". well, that's what we had to deal with before unicode came along.

I suppose it's an added bonus that humanity, in one of those rare moments of brilliancy, actually adopted the system.

> your "system" of mapping runs into some kind of limitation

So this is an encoding that can't encode all unicode characters? How do the numbers help you in that case?

it's like adding an intermediate representation (which, by its very nature, is something extra) to neatly segregate concerns and the guarantee that even if we ever need to change what encodings our system uses (which, utf8 is king but not the only one) any encoding system derived from it only needs to figure out func(code_point)

@Aran-Fey we already have this btw, in terms of utf16 or utf32 or so on.

The point is, the tradeoffs between encodings dont have ramifications on what the truth about what symbol is what are, just in terms of what subset you can represent. as long as people stick to this code point IR

i suppose to phrase it differently, considering encodings need to emit bytes, it's much easier to deal with encodings when they're just a function from some numbers to some (possibly limited) numbers

this segregation and expression of encodings as a function of numbers is only possible because of code points, yeah?

(or some hypothetical system that would have let us do the same, but code points was it.) point being, introducing the intermediate step let us segregate concerns

and this intermediate step being numbers solved the problem of "running out" since it's not limited by anything as concrete as bytes

I think "some encodings can only represent a finite number of glyphs/symbols/whatever" is orthogonal to Aran-Fey's point.

well, i'd argue its not. because surely, otherwise we'd be using only utf8 (funnily enough, i wouldnt mind if that were the case) everywhere but we're not.

What concerns are we segregating here? One is the encoding (turning numbers/characters/whatevers into bytes), but what other "concerns" are there?

as long as multiple encodings exist, introducing an intermediate representation lets us bring some sense of sensibility back to this mess

@Aran-Fey hm, actually none. this is it. but it's like: making sure the design of bytes we chose doesnt break on addition of more symbols.

FWIW, utf-8 vs utf-32 is also about variable- vs fixed-width characters.

precisely. fixed width systems do offer some advantages, and so they still get used

Python's internal string format is also pretty interesting, using one of three different encodings per string instance as required.

but because of code points, using or maintaining these encodings becomes almost trivial, because making a function or algorithm that maps from numbers to numbers is easy

mapping bytes directly to glyphs requires maintenance for each such system that exists to make sure it doesnt fall out of sync

...which, our history taught us, they did. and boy oh they did.

I propose an encoding called KevinCode. It can represent any sequence of characters, and it is infinitely extendible. Its internal logic does not involve numbers at any point.

I'm sold.

As long as the world uses KevinCode, no IR is needed.

So Python4 is going to use KevinCode for strings and the DeakParser for integers then?

Sold!

So if I understand correctly, what it boils down to is that the numbers are a sort of universal IR that everyone (every PC, every programming language) understands. And I do sort of understand how that is useful. But at the same time, I don't. Like, are we really too stupid to exchange characters and/or strings unless we can map each character to an int? Seriously?

to be honest, thinking through this conversation makes me realise how ridiculously powerful IRs can be

past us have been stupid enough for sure. Perhaps today us would be wiser, but..let's just say i've learnt that humans have great capacity to be stupid.

The full specification of KevinCode: every character in existence has exactly one unique name, spelled with capital letters and space. The name for "a" is "LATIN CAPITAL LETTER A". The name for "☃" is "SNOWMAN". A valid KevinCode string literal is, any number of names surrounded by curly brackets. For example, "{SNOWMAN}{LATIN CAPITAL LETTER A}{SNOWMAN}" represents "A☃A".

Hmm. I think overlooked that exchanging strings between programs is indeed not easy without unicode.

I'd say the challenge of exchange is bytes < unsigned integers <<< strings

Imagine if people didnt buy into unicode...i am both terrified but almost intrigued to find out how the world of strings and bytes would have looked then

Strings are meat bag data

It is possible to write a KevinCode engine in Python without making use of numbers at any point. You can open a file containing the exact byte sequence {SNOWMAN}{LATIN CAPITAL LETTER A}{SNOWMAN}, parse it into three names, and draw three symbols onto the window, without ever needing a mapping that converts "{SNOWMAN}" into an ordinal value

You can of course exchange strings between two programs without converting each character to an int, but then both programs need to agree on an encoding. So it makes sense for unicode to define such an encoding (the numbers)

All of my programs agree to use KevinCode, naturally

@Aran-Fey indeed. the unicode side of things made it so tempting and convenient to just let "them" maintain this set (again, re it being a number, downstream manipulation or creation of bytes), that we ended up going for it.

KevinCode's primary drawback, I feel, is space efficiency. A conventional system can store "A☃A" in an array that's four bytes large. KevinCode would need 36 bytes -- 7 for each SNOWMAN, and 22 for LATIN CAPITAL LETTER A.

Thinking about it some more, do we even use the code points like that? If program A wants to send a character or a string to program B, does it send a (bunch of) int(s)? No, it sends encoded bytes. So... what's the code point good for again?

Oops, I just noticed I've been writing A☃A everywhere that I meant to write ☃A☃.

I'm not trying to be ironic or anything by implying that a latin capital letter A can be drawn in the shape of a snowman because written language is all made up. I just typed it out wrong.

@Aran-Fey internal conversion. you can store small code points as ints of various lengths.

I suppose encodings are easy to implement if all they have to do is convert an int to a byte sequence, but they could just make up their own code points. And converting bytes to an int isn't even the end goal. It has to convert bytes to a character, however the programming language represents those

that's what Python does.

so if all your code points are < 256 you're looking at a uint8 array, if all are < 65535 a uint16 array is sufficient, and uint32 is the nuclear option if all else fails.

Conversion? From what to what?

from narrow to broader or back again.

Ok, but you can always make up your own system of mapping characters to ints. What's the benefit of having this mapping defined in the unicode standard?

so that you don't have to make up your own :P

That's it? That's all there is to it? I guess I can live with that

I would also guess that the unicode mapping matches character frequency for common payloads.

As in, most computer text is in the narrow range and only little text is in the broadest range.

which is also why utf-8 works so well.

I guess in some ways I've been arguing from hindsight. It's easy to look at the current state of things and say "programs never exchange code points, only encoded text", but they had no way of knowing that at the time

On considering what a mess it was, it's certainly better to err on the side of standardizing too much rather than too little

is there any subtle difference between f and g?

or are both ways of defining the function equivalent?

equivalent, except if i see g in my codebase, i'll probably be very mad at someone for a bit.

so not that equivalent after all i suppose.

why is g frowned upon?

just readability purposes?

essentially yes.

f also offers the opportunity to add docstrings if needed. and lambdas are usually a soft signal that this function is "throwaway" or one time use. if then, it turns out that such a function is being assigned, then the question is, why wasnt it a normal function in the first place.

the only reason to use lambdas is for it's anonymous nature. take that away, and then its just a less readable way to write a normal function

ah alright

@UmeshKonduru lambda and def are just different syntax for the same thing, and in that regard they are equivalent. However, the different syntax means you cannot provide the same data and so a "lambda function" generally lacks some bells and whistels of a "def function" – most prominently a canonical name which is often very useful to have.

what's a canonical name?

in the above example, the first function knows it is called f. Even if you assign it to an additional name, it still knows itself as f.

This will turn up in tracebacks, for example.

Why isn't that the case with g

g also knows it's called g, right?

Because lambda does not allow to specify a name for the function you create.

That you assign it to some variable after creating the function doesn't retroactively change that.

oh I see

in what context would this difference show up?

is there some test I can run to see how f and g are different?

You can look at their __qualname__, __name__ and __module__ attributes.

The __annotations__ attribute would also differ if you would have annotated f.

ah alright

the module attribute seems to be the same

that means both objects are in the same scope?

same module, which roughly means the same file.

okay

@Aran-Fey Before Unicode, computer representation of characters was a mess. There were 2 dominant encodings, ASCII and EBCDIC, both related to ancient Teletype and punch card encodings. EBCDIC was pretty rare on microcomputers, but it was popular on IBM mainframes. ASCII is a 7 bit encoding, but there are a plethora of 8 bit extensions.

Many programmers (especially in the English-speaking world) were oblivious to issues related to character encoding. They just worked with plain ASCII, or perhaps one of its extensions. But some coders did have to deal with the various incompatible extensions, and it wasn't fun. And it was obvious that systems based on sets of 256 characters were inadequate for handling Chinese, etc.

In that environment, the very idea of a 16 bit encoding was mind-blowing. Surely that was more than anyone would ever need? Also, it seemed a bit extravagant. You don't like to waste bytes when RAM is $100 per megabyte...

Unicode didn't pop into existence fully formed. It grew over several years, and perhaps some of the decisions made along the way were... sub-optimal. Microsoft was an enthusiastic early adopter of Unicode. But they developed a whole lot of stuff that assumed Unicode was a 16 bit encoding, and kind of painted themselves into a corner.

They're still in the process of escaping from that. You can read a bit about it here: en.wikipedia.org/wiki/UTF-16

@PM2Ring good ol' EBCDIC... :p

@UmeshKonduru I suspect you may find this helpful: nedbatchelder.com/text/names.html

16 bits probably would've been enough they'd stuck to just text, and not shapes and emojis and god knows what else they have in there

Always fun when you forgot to enable translation between ASCII/EBCDIC using those bloomin' tapes :p

@JonClements I used it a bit in the early to mid '70s. One annoying "feature" of EBCDID that it inherited from the Hollerith punch card code is that '/' is inside the alphabet range, just before 'S'. The IBM 360 I used didnt have lower-case letters.

@Aran-Fey Maybe.

Things get complicated enough just trying to support all of the world's writing systems.

past and present

Alphabets are relatively simple, although you do have the issue of handling accented characters: should they be separate chars, or should they be built from components? Why not both?

But there are plenty of languages that don't use alphabets, they use syllable-based systems, with arcane rules for building and combining syllable components into words.

unicode actually does both, right? re separate chars vs building from components

probably, yeah

And then you have more complex and largervsystems, like Chinese (which is also borrowed extensively by various Asian languages). And Ancient Egyptian hieroglyphics.

Generally speaking it does both, but for any given character it might only do one...

@ParitoshSingh Definitely.

I assume there are accented characters that are compatible with combining characters (or whatevers) and others that are so hipster that they have to be defined as-is

Unicode wants to be a universal character superset, so it has to support whatever pre-exising encodings did.

these get rendered identically in my terminal, but the combining character one is completely broken in my browser:

>>> '\u030bo', 'ő'
('̋o', 'ő')

The Samsung browser doesn't like \u030bo either.

same for opera mobile

In other news, I recently wrote a program that uses JPL Horizons data to plot orbits of multiple Solar system bodies, in 3D. astronomy.stackexchange.com/a/49823/16685

@PM2Ring lol that was cool