I wrote the following piece of code:

```
def all_di(fl):
dmm = {}
for k in range(2):
for i in fl:
for m in range (len(i)-1):
temp = i[m:m+k+1]
if temp in dmm:
dmm[temp] += 1.0
else:
dmm[temp] = 1.0
## return dmm
p = raw_input("Enter a 2 AA long seq:")
sum = 0
for x,y in dmm.iteritems():
if x == p:
n1 = y
for l,m in dmm.iteritems():
if l[0] == p[0]:
sum = sum + m
print float(n1)/float(sum)
all_di(inh)
```

if inh = `{'VE':16,'GF':19,'VF':23,'GG' :2}`

The code works as follows:

```
Enter a 2 AA long seq: VE
```

result will be = `16/(16+23)`

= `0.41`

How it works: the function searches the dictionary `dmm`

for the key similar to the one entered in `input`

(example taken here 'VE'). It stores its value and then searches for all the key-value pairs that have the 1st letter in common and adds all its values and returns a fraction.

```
VE = 16
**V**E + **V**F = 39
= 16/39 = 0.41
```

What I want: keeping the function intact, I want to have a secondary dictionary that iterates for every key-value pair in the dictionary and stores the fractional values of it in a different dictionary such that:

```
new_dict = {'VE' : 0.41, 'GF':0.90,'VF':0.51, 'GG': 0.09}
```

I don't want to remove the `print`

statement as it is the output for my program. I however need the `new_dict`

for further work.