Using pumping lemma, we can easily prove that the language L1 = {WcW^R|W ∈ {a,b}*}
is not a regular language. (the alphabet is {a,b,c}; W^R represents the reverse string W)
However, If we replace character c
with "x"(x ∈ {a,b}+)
, say, L2 = {WxW^R| x, W ∈ {a,b}^+}
, then L2 is a regular language.
Could you give me some ideas?
If we replace character c with x where (x ∈ {a,b}+), say, L2 = {WXWR| x, W ∈ {a,b}+}, then L2 is a regular language.
Yes, L2
is Regular Language :).
You can write regular expression for L2
too.
Language L2 = {WXWR| x, W ∈ {a,b}+} means:
- string should start any string consist of
a
andb
that isW
and end with reverse string WR. - notice: because W and WR are reverse of each other so string start and end with same symbol (that can be either
a
orb
) - And contain any string of
a
andb
in middle that isX
. (because of+
, length ofX
becomes greater than one|X| >= 1
)
Example of this kind of strings can be following:
aabababa, as follows:
a ababab a
-- -------- --
w X W^R
or it can be also:
babababb, as follows:
b ababab b
-- -------- --
w X W^R
See length of W
is not a constraint in language definition.
so any string WXWR can be assume equals to a(a + b)
+a
or b(a + b)
+b
a (a + b)+ a
--- -------- ---
W X W^R
or
b (a + b)+ b
--- -------- ---
W X W^R
And Regular Expression for this language is: a(a + b)
+a
+
b(a + b)
+b
Don't mix WXW
R with WCW
R, its X
with +
that makes language regular. Think by including X
that is (a + b)*
we can have finite choice for W
that is a
and b
(finite is regular).
Language WXW
R can be say: if start with a
ends with a
and if start with b
end with b
. so correspondingly we need two final states.
- Q6 if
W
isa
- Q5 if
W
isb
ITs DFA is as given below.
Any string in the language with |W| > 1 can be interpreted as a string in the language where |W| = 1. Thus, a string is in the language if it begins and ends with the same symbol. There are two symbols: a and b. So that language is equivalent to the language a(a+b)(a+b)*a + b(a+b)(a+b)*b
. To prove this, you should formalize the argument that "if y is in WxW, then y is in a(a+b)(a+b)*a + b(a+b)(a+b)*b; and if y is in a(a+b)(a+b)*a + b(a+b)(a+b)*b, then y is in WxW".
It doesn't work in the other case since c is a fixed symbol, and can't include all but the characters on the ends. As soon as you bound the length of "x" in your example, the language becomes non-regular.
The question says W ∈ {a,b}^+ , so a^n(a+b)a^n should be in the language L2. Now there is no such DFA that will accept the string a^n(a+b)a^n because, after accepting n number of a and (a+b)^+, there is no way for the dfa to remember exactly how many a it accepted in the begining, so L2 should not be regular.........But every where i search for this answer it says it is regular.....this bugs me
来源:https://stackoverflow.com/questions/14521300/why-l-wxwr-w-x-belongs-to-a-b-is-a-regular-language