Just like your program, readers of your question have no way to guess what this byte is supposed to represent without additional context.
Unlike your program, however, human readers can help you resolve the problem in many cases, but they will need a fair bit of more information.
If all of the following is bewildering to you, today is the day when you should finally take the time to read Joel Spolsky's classic exposition The Absolute Minimum Every Software Developer Absolutely, Positively Must Know About Unicode and Character Sets (No Excuses!)
The following collects some hints about details which are useful to provide if you can.
What is the encoding you hope to end up working with?
- In other words, how is your system set up to display and manipulate text in a way which is suitable to your culture and locale?
- On Windows, what does
- On Unix-like systems, what's the output of
locale (in particular
- Or in more sophisticated cases, does your program (or your OS or programming language) need text to be represented in a particular encoding?
What is the encoding of the data you are trying to read?
If it is text, there is a large number of different ways to represent text, most of which are not strictly ASCII, but rather a superset or variant -- be as specific as you can.
In more detail, ASCII proper can only be used if there are no characters whose byte value is larger than 127 (hex 0x7f). It is only suitable for (a subset of) English, without "typographer's quotes" or many other characters which today we take for granted. If you think you have "ASCII" but it doesn't obey this constraint, it's not really ASCII. Perhaps you can find out what exactly it is, or at the very least help us help you figure it out by providing some samples?
"ANSI" in this context is not well-defined, though it will reveal that you are using Windows, and perhaps do not know what your locale settings are. In many Western locales, this means you are using Windows code page 1252, but in other locales, the default will be different, or perhaps you are not using the default code page. In Windows 10, you can finally configure the system to use code page 65001, which is convenient if you want to process text in UTF-8 encoding.
Many higher-level formats like XML, JSON, etc have an encoding (typically UTF-8) but also additional markup which has specific semantics. If you are processing something which is supposed to be JSON (or CSV, or FASTA, or binary formats like
pcap or MP3, or whatever), make sure you mention this.
Can you provide a small unambiguous sample with enough context?
- In many cases, just a few bytes around the problematic spot are enough to at least guess what's supposed to be there.
- Copy/pasting text in an unknown encoding is unlikely to be helpful. Use a well-defined, unambiguous representation. A hex dump of the individual bytes in the file or input stream is understandable to anyone with basic familiarity with computers and programming.
Here are a few examples to hopefully help you see this in concrete terms.
(Make sure your display is wide enough. There is text to the right of the hex.)
24CB016E0: 7472 6164 75ff f76f 2065 6d20 706f 7274 tradu..o em port
24CB016F0: 7567 7589 73 ugu.s
We still don't know what encoding this is, but somebody who speaks the language (or is good at googling) can guess that this is text in the Portuguese language, and that the correct rendering should be tradução em português. With enough broken samples, we can reconstruct enough of the encoding to fix all your sample data (assume
0xFF represents ç everywhere in the file, etc), even if we might never find out which actual encoding this was in.
24CB016E0: 6e75 6c6c 2c20 2276 616c 7565 223a 2031 null, "value": 1
24CB016F0: 3837 2c20 2261 73FF FFFF FFFF FFFF FFFF 87, "as.........
This looks like perfectly fine JSON data up until the corruption, and then clearly complete garbage after that. Maybe you can truncate the file to discard the garbage (taking care to reconstruct the required close brackets to make it valid JSON again), or see if you can remove it from the middle if there is good data again somewhere later in the file; or even better yet, obtain an uncorrupted copy of this file from wherever you got it in the first place.
24CB016E0: c383 c2a5 652c 67 ....e,g.
This is an example of mojibake: text was converted from one encoding to another on the mistaken assumption that it was in a third encoding, or perhaps mistakenly "converted" a second time when it had in fact already been converted. In this particular case, it happened multiple times, and it's probably almost impossible to reconstruct even if you know that the input was the Japanese text 日本
There's also an honorable mention for "we wanted to convert between encodings, but we made our own tool based on incorrect assumptions, and basically simply corrupted the data." The SEC Edgar data infamously has this problem, though the corruption is by and large recoverable if you know how.
(These hex dumps come from
xxd but there are many ways to obtain a hex dump. In many programming languages, it's straightforward to write your own hex dump program if you can't find a tool which works for you. Here's a random one in Perl. If you use Python, probably simply use the standard
repr() function to show (a subset of) your data in unambiguous form.)
If you can't provide some of these details, perhaps mention that you don't know; and perhaps even offer a qualified guess even if you can't know for sure. (But make sure you say when you are guessing. Don't state as fact something which might not be.)
The Stack Overflow
character-encoding tag info page has an overview of terminology and some guidance similar to what is summarized here.
Eventually, questions which fail to provide enough details should probably be closed as unclear or unreproducible.