If I understood you correctly, you want to find the first index (or all indexes) of numbers in entries that are winning. If you want it, you can do that:

```
with open('winningnumbers.csv', 'rb') as wn:
reader = csv.reader(wn)
winningnumbers = list(reader)
with open('Entries#x.csv', 'rb') as en:
readere = csv.reader(en)
winning_number_index = -1 # Default value which we will print if nothing is found
current_index = 0 # Initial index
for line in readere: # Iterate over entries file
all_numbers_match = True # Default value that will be set to False if any of the elements doesn't match with winningnumbers
for i in range(len(line)):
if line[i] != winningnumbers[i]: # If values of current line and winningnumbers with matching indexes are not equal
all_numbers_match = False # Our default value is set to False
break # Exit "for" without finishing
if all_numbers_match == True: # If our default value is still True (which indicates that all numbers match)
winning_number_index = current_index # Current index is written to winning_number_index
break # Exit "for" without finishing
else: # Not all numbers match
current_index += 1
print(winning_number_index)
```

This will print the index of the first winning number in entries (if you want all the indexes, write about it in the comments).

Note: this is not the optimal code to solve your problem. It's just easier to undestand and debug if you're not familiar with Python's more advanced features.

You should probably consider not abbreviating your variables. `entries_reader`

takes just a second more to write and 5 seconds less to understand then `readere`

.

This is the variant that is faster, shorter and more memory efficient, but may be harder to understand:

```
with open('winningnumbers.csv', 'rb') as wn:
reader = csv.reader(wn)
winningnumbers = list(reader)
with open('Entries#x.csv', 'rb') as en:
readere = csv.reader(en)
for line_index, line in enumerate(readere):
if all((line[i] == winningnumbers[i] for i in xrange(len(line)))):
winning_number_index = line_index
break
else:
winning_number_index = -1
print(winning_number_index)
```

The features that might me unclear are probably `enumerate()`

, `any()`

and using `else`

in `for`

and not in `if`

. Let's go through all of them one by one.

To understand this usage of enumerate, you'll need to understand that syntax:

```
a, b = [1, 2]
```

Variables `a`

and `b`

will be assigned according values from the list. In this case `a`

will be 1 and `b`

will be 2. Using this syntax we can do that:

```
for a, b in [[1, 2], [2, 3], ['spam', 'eggs']]:
# do something with a and b
```

in each iteration, a and b will be 1 and 2, 2 and 3, 'spam' and 'eggs' accordingly.

Let's assume we have a list `a = ['spam', 'eggs', 'potatoes']`

. `enumerate()`

just returns a "list" like that: [(1, 'spam'), (2, 'eggs'), (3, 'potatoes')]. So, when we use it like that,

```
for line_index, line in enumerate(readere):
# Do something with line_index and line
```

`line_index`

will be 1, 2, 3, e.t.c.

`any()`

function accepts a sequence (list, tuple, e.t.c.) and returns `True`

if all the elements in it are equal to `True`

.

Generator expression `mylist = [line[i] == winningnumbers[i] for i in range(len(line))]`

returns a list and is similar to the following:

```
mylist = []
for i in range(len(line)):
mylist.append(line[i] == winningnumbers[i]) # a == b will return True if a is equal to b
```

So `any`

will return True only in cases when all the numbers from entry match the winning numbers.

Code in `else`

section of `for`

is called only when `for`

was not interrupted by `break`

, so in our situation it's good for setting a default index to return.