# check if letters of a string are in sequential order in another string

If it were just checking whether letters in a test_string are also in a control_string,

I would not have had this problem.

I will simply use the code below.

``````if set(test_string.lower()) <= set(control_string.lower()):
return True
``````

But I also face a rather convoluted task of discerning whether the overlapping letters in the

control_string are in the same sequential order as those in test_string.

For example,

``````test_string = 'Dih'
control_string = 'Danish'
True

test_string = 'Tbl'
control_string = 'Bottle'
False
``````

I thought of using the for iterator to compare the indices of the alphabets, but it is quite hard to think of the appropriate algorithm.

``````for i in test_string.lower():
for j in control_string.lower():
if i==j:
index_factor = control_string.index(j)
``````

My plan is to compare the primary index factor to the next factor, and if primary index factor turns out to be larger than the other, the function returns False.

I am stuck on how to compare those index_factors in a for loop.

How should I approach this problem?

You can use `find(letter, last_index)` to find occurence of desired letter after processed letters.

``````def same_order_in(test, control):
index = 0
control = control.lower()
for i in test.lower():
index = control.find(i, index)
if index == -1:
return False
# index += 1 # uncomment to check multiple occurrences of same letter in test string
return True
``````

If test string have duplicate letters like:

``````test_string = 'Diih'
control_string = 'Danish'
``````

With commented line `same_order_in(test_string, control_string) == True`

and with uncommented line `same_order_in(test_string, control_string) == False`

You could just `join` the characters in your `test` string to a regular expression, allowing for any other characters `.*` in between, and then `re.search` that pattern in the `control` string.

``````>>> test, control = "Dih", "Danish"
>>> re.search('.*'.join(test), control) is not None
True
>>> test, control = "Tbl", "Bottle"
>>> re.search('.*'.join(test), control) is not None
False
``````

Without using regular expressions, you can create an `iter` from the `control` string and use two nested loops,1) `break`ing from the inner loop and `else` returning `False` until all the characters in `test` are found in `control`. It is important to create the `iter`, even though `control` is already iterable, so that the inner loop will continue where it last stopped.

``````def check(test, control):
it = iter(control)
for a in test:
for b in it:
if a == b:
break
else:
return False
return True
``````

You could even do this in one (well, two) lines using `all` and `any`:

``````def check(test, control):
it = iter(control)
return all(any(a == b for b in it) for a in test)
``````

Complexity for both approaches should be O(n), with n being the max number of characters.

1) This is conceptually similar to what @jpp does, but IMHO a bit clearer.

Here's one solution. The idea is to iterate through the `control` string first and yield a value if it matches the next `test` character. If the total number of matches equals the length of `test`, then your condition is satisfied.

``````def yield_in_order(x, y):
iterstr = iter(x)
current = next(iterstr)
for i in y:
if i == current:
yield i
current = next(iterstr)

def checker(test, control):
x = test.lower()
return sum(1 for _ in zip(x, yield_in_order(x, control.lower()))) == len(x)

test1, control1 = 'Tbl', 'Bottle'
test2, control2 = 'Dih', 'Danish'

print(checker(test1, control1))  # False
print(checker(test2, control2))  # True
``````

@tobias_k's answer has cleaner version of this. If you want some additional information, e.g. how many letters align before there's a break found, you can trivially adjust the `checker` function to return `sum(1 for _ in zip(x, yield_in_order(...)))`.

• This is actually close to my 2nd solution (did not see it), but seems overly complcated. Why `yield i` and compare to `j`? You already know they are equal. Can't you just check the number of elements yielded? – tobias_k Nov 14 at 13:55
• @tobias_k, Good point. I did try `sum(1 for _ in yield_in_order(x, control.lower())) == len(x)` but I get `DeprecationWarning: generator 'yield_in_order' raised StopIteration` [which I don't understand] even though the results are correct. – jpp Nov 14 at 13:57
• I guess that's the case when it tries to match more characters after `iterstr` is exhausted. Zipping with `x` limits the number of items asked from the generator. So it kind of makes sense to `zip` them, but the `==` is still redundant. – tobias_k Nov 14 at 14:00
• @tobias_k, Yup took a min but figured it out.. can just `sum(1 for ...)`. Your solution clearer though. – jpp Nov 14 at 14:02

Recursion is the best way to solve such problems. Here's one that checks for sequential ordering.

``````def sequentialOrder(test_string, control_string, len1, len2):

if len1 == 0:     # base case 1
return True

if len2 == 0:     # base case 2
return False

if test_string[len1 - 1] == control_string[len2 - 1]:
return sequentialOrder(test_string, control_string, len1 - 1, len2 - 1)  # Recursion

return sequentialOrder(test_string, control_string, len1, len2-1)

test_string = 'Dih'
control_string = 'Danish'

print(isSubSequence(test_string, control_string, len(test_string), len(control_string)))
``````

Outputs:

``````True
``````

and `False` for

``````test_string = 'Tbl'
control_string = 'Bottle'
``````

Here's an Iterative approach that does the same thing,

``````def sequentialOrder(test_string,control_string,len1,len2):

i = 0
j = 0

while j < len1 and i < len2:
if test_string[j] == control_string[i]:
j = j + 1
i = i + 1

return j==len1

test_string = 'Dih'
control_string = 'Danish'

print(sequentialOrder(test_string,control_string,len(test_string) ,len(control_string)))
``````
• Do you mind elaborating on the functions of len1 and len2? I just started out learning python and I am not familiar with recursions. – V Anon Nov 14 at 11:32
• Recursions aren't specific to python. They are a type of approach. I'll also write it in iterative approach in a min. – Vineeth Sai Nov 14 at 11:34
• @VAnon Updated my answer. – Vineeth Sai Nov 14 at 11:40

An elegant solution using a generator:

``````def foo(test_string, control_string):
if all(c in control_string for c in test_string):
gen = (char for char in control_string if char in test_string)
if all(x == test_string[i] for i, x in enumerate(gen)):
return True
return False

print(foo('Dzn','Dahis')) # False
print(foo('Dsi','Dahis')) # False
print(foo('Dis','Dahis')) # True
``````

First check if all the letters in the `test_string` are contained in the `control_string`. Then check if the order is similar to the `test_string` order.

• Why would the function return ('Ce', 'Arsenic') as True? Shouldn't it return false as order is the other way around (ec)? – V Anon Nov 14 at 12:19
• Have you tested this? It actually returns False. – b-fg Nov 14 at 12:20
• Indeed it returns False! I think I had the previous execution running. – V Anon Nov 14 at 12:22
• One issue with this solution is the repeated `if _ in test_string`.. maybe use `set` to make it O(1)? – jpp Nov 14 at 12:26
• What you you mean `set`? – b-fg Nov 14 at 12:45

A simple way is making use of the `key` argument in `sorted`, which serves as a key for the sort comparison:

``````def seq_order(l1, l2):
intersection = ''.join(sorted(set(l1) & set(l2), key = l2.index))
return True if intersection == l1 else False
``````

Thus this is computing the intersection of the two sets and sorting it according to the longer string. Having done so you only need to compare the result with the shorter string to see if they are the same.

The function returns True or False accordingly. Using your examples:

``````seq_order('Dih', 'Danish')
#True

seq_order('Tbl', 'Bottle')
#False

seq_order('alp','apple')
#False
``````
• There was a bug in the previous version @VAnon , this simple method should do what you're asking for. – nixon Nov 14 at 13:41