If you're claiming/asking "The ideas are identical, but one can claim the details make them different...", then the former part of the claim is wrong, because the questions ask distinct things:
The general approach is "trick to convert an ASCII character into an integer index into an array (assuming it's guaranteed to be in-range)". Q2 is about subtracting '0' from char to get int (0..9) which is only meaningful on a character representing a digit; and Q1: subtracting 'a' from a char to get int (0..25) is only meaningful on a character representing a lowercase letter (anything else, e.g. 'b' - '0'
, '3' - 'a'
, 'A' - 'a'
are meaningless unless you're into the internals of ASCII. But let's assume the input is sane).
"How does subtracting '0' from char [representing a digit] to get int work?" is pretty much asking "What is ASCII code?" in every language which uses it to represent characters, which is most languages since the 1950s(?). [1]
- It's not asking "How to convert char to int?", to which the simple answer is "Subtract '0' from the char value (assuming the char represents an integer)"
- I don't think anyone cares deeper about why ASCII is laid out in the order it is (why the collating sequence it the way it is).
But the first question ("What does "charAt(i) - 'a'" mean in Trie structure?") is slightly different (and more confusing) for several reasons:
charAt(i)
is indexing into a string, rather than a single char.
- The "in Trie structure" context is needlessly confusing, not necessary and unhelpful, it should be scrubbed from both the title and code example. The code example should simply read
index = key.charAt(level) - 'a';
. Unless the question really meant "How do Tries work, oh and by the way, how does the key.charAt(level) - 'a';
trick work?" (In which case it's both badly-worded and def. not a duplicate.)
- A third nuance is in Tries, there is conceptually also a string, but it's understood to come from concatenating the constituent letters of each node in the pointer chain, rather than just a simple string like
s[0:n]
. So, again, the code is not a great example for a canonical.
Originally revisions #1..4 of your Meta question also asked "Does it make sense to make a cross-language dup-target?".
- But obviously we do not close Java askings into C answers, Python askings into Java answers. (for example the top answer on the Java question spends more time discussing Java annoyances like types, length, type coercion and unsignedness, than actually answering the question: "char's are actually of the same type / length as shorts... Because char is the same as short (although, an unsigned short), you can safely cast it to an int. And the casting is always done automatically if arithmetics are involved". These comments about type lengths are not even true for C, C++, Python (2 and 3). But anyway they're really distracting. So you need an asking that didn't have "Java: ..." embedded as the first word of the title, and answers that go light on language internals.
- Really you meant to say "Is it worth having a cross-language canonical for 'How to convert character to integer in different programming languages'?" (In my opinion: yes, great idea, do it!) and "If yes, which of these should be canonical" to which my answer is "Neither, so who cares about arguing if these are duplicates; they're both bad material for a canonical, so just pick/post a third asking, to make a canonical." But hey, this is Meta, so you'll get people gleefully drive-by downvoting a not-very-useful discussion, rather than writing something that proposes the improvement...
- So honestly please reinstate that part, the cross-language canonical suggestion is great, I support you.
Footnote:
[1] Very-strongly-typed languages like VHDL also use ASCII, but don't support '-' arithmetic operator on string types and thus the subtract trick for conversion to integer, that's why they're called Bondage & Discipline languages.