Sparse assignment list in python
Dictionaries can be used as sparse lists. Whilst they will not provide the characteristics you are after (as you are not actually after a sparse list, all the list elements are complete references to None in a dynamically-sized Array), they act as a textbook sparse array.
sparse_vars = [(0,"Hi"), (10000,"Bye"), (20000,"Try")]
sparse_list = {}
for var in sparse_vars:
sparse_list[var[0]] = var[1]
>>> print sparse_list
{0: 'Hi', 10000: 'Bye', 20000: 'Try'}
>>> print sparse_list[20000]
'Try'
Here's minimal code to pass your given examples (with indispensable adjustments: you expect weird spacing and quoting, 'None' to be printed out at the prompt without a print
statement, etc etc):
class SparseList(list):
def __setitem__(self, index, value):
missing = index - len(self) + 1
if missing > 0:
self.extend([None] * missing)
list.__setitem__(self, index, value)
def __getitem__(self, index):
try: return list.__getitem__(self, index)
except IndexError: return None
__test__ = dict(allem='''
>>> l = SparseList()
>>> l
[]
>>> l[2] = "hello"
>>> l
[None, None, 'hello']
>>> print l[5]
None
>>> l[4] = 22
>>> l
[None, None, 'hello', None, 22]
>>> len(l)
5
>>> for i in l: print i
None
None
hello
None
22
''')
import doctest
doctest.testmod(verbose=1)
I imagine you'll want more (to support negative indices, slicing, and whatever else), but this is all your examples are implicitly specifying.