I wrote a small python program to iterate over data file (*input_file*) and perform calculations. If calculation result reaches certain states (*stateA* or *stateB*), information (*hits*) are extracted from the results. The hits to extract depend on parameters from three parameter sets.

I used a dictionary of dictionaries to store my parameter sets (*param_sets*) and a dictionary of lists to store the hits (*hits*). The dictionaries *param_sets* and *hits* have the same keys.

The problem is,

that the lists within the *hits* dictionary are somehow coupled. When one list changes (by calling *extract_hits* function), the others change, too.

Here, the (shortened) code:

```
import os, sys, csv, pdb
from operator import itemgetter
# define three parameter sets
param_sets = {
'A' : {'MIN_LEN' : 8, 'MAX_X' : 0, 'MAX_Z' : 0},
'B' : {'MIN_LEN' : 8, 'MAX_X' : 1, 'MAX_Z' : 5},
'C' : {'MIN_LEN' : 9, 'MAX_X' : 1, 'MAX_Z' : 5}}
# to store hits corresponding to each parameter set
hits = dict.fromkeys(param_sets, [])
# calculations
result = []
for input_values in input_file:
# do some calculations
result = do_some_calculations(result, input_values)
if result == stateA:
for key in param_sets.keys():
hits[key] = extract_hits(key, result,
hits[key],
param_sets[key]['MIN_LEN'],
param_sets[key]['MAX_X'],
param_sets[key]['MAX_Z'])
result = [] # discard results, start empty result list
elif result == stateB:
for key in param_sets.keys():
local_heli[key] = extract_hits(key,
result,
hits[key],
param_sets[key]['MIN_LEN'],
param_sets[key]['MAX_X'],
param_sets[key]['MAX_Z'])
result = [] # discard results
result = some_calculation(input_values) # start new result list
else:
result = some_other_calculation(result) # append result list
def extract_hits(k, seq, hits, min_len, max_au, max_gu):
max_len = len(seq)
for sub_seq_size in reversed(range(min_len, max_len+1)):
for start_pos in range(0,(max_len-sub_seq_size+1)):
from_inc = start_pos
to_exc = start_pos + sub_seq_size
sub_seq = seq[from_inc:to_exc]
# complete information about helical fragment sub_seq
helical_fragment = get_helix_data(sub_seq, max_au, max_gu)
if helical_fragment:
hits.append(helical_fragment)
# search seq regions left and right from sub_seq for further hits
left_seq = seq[0:from_inc]
right_seq = seq[to_exc:max_len]
if len(left_seq) >= min_len:
hits = sub_check_helical(left_seq, hits, min_len, max_au, max_gu)
if len(right_seq) >= min_len:
hits = sub_check_helical(right_seq, hits, min_len, max_au, max_gu)
print 'key', k # just for testing purpose
print 'new', hits # just for testing purpose
print 'frag', helical_fragment # just for testing purpose
pdb.set_trace() # just for testing purpose
return hits # appended
return hits # unchanged
```

here, some output from the python debugger:

```
key A
new ['x', 'x', 'x', {'y': 'GGCCGGGCUUGGU'}]
frag {'y': 'GGCCGGGCUUGGU'}
>
-> return hits
(Pdb) c
key B
new [{'y': 'GGCCGGGCUUGGU'}, {'y': 'CCGGCCCGAGCCG'}]
frag {'y': 'CCGGCCCGAGCCG'}
> extract_hits()
-> return hits
(Pdb) c
key C
new [{'y': 'GGCCGGGCUUGGU'}, {'y': 'CCGGCCCGAGCCG'}, {'y': 'CCGGCCCG'}]
frag {'y': 'CCGGCCCG'}
> extract_hits()
-> return hits
```

the elements from *key A* should not be present in *key B* and elements from key A and key B should not be present in *key C*.