None of these answers is particularly clear or simple.

Here is a clear, simple method that is guaranteed to work.

**accumulate_normalize_probabilities** takes a dictionary `p`

that maps symbols to probabilities **OR** frequencies. It outputs usable list of tuples from which to do selection.

```
def accumulate_normalize_values(p):
pi = p.items() if isinstance(p,dict) else p
accum_pi = []
accum = 0
for i in pi:
accum_pi.append((i[0],i[1]+accum))
accum += i[1]
if accum == 0:
raise Exception( "You are about to explode the universe. Continue ? Y/N " )
normed_a = []
for a in accum_pi:
normed_a.append((a[0],a[1]*1.0/accum))
return normed_a
```

Yields:

```
>>> accumulate_normalize_values( { 'a': 100, 'b' : 300, 'c' : 400, 'd' : 200 } )
[('a', 0.1), ('c', 0.5), ('b', 0.8), ('d', 1.0)]
```

**Why it works**

The **accumulation** step turns each symbol into an interval between itself and the previous symbols probability or frequency (or 0 in the case of the first symbol). These intervals can be used to select from (and thus sample the provided distribution) by simply stepping through the list until the random number in interval 0.0 -> 1.0 (prepared earlier) is less or equal to the current symbol's interval end-point.

The **normalization** releases us from the need to make sure everything sums to some value. After normalization the "vector" of probabilities sums to 1.0.

The *rest of the code* for selection and generating a arbitrarily long sample from the distribution is below :

```
def select(symbol_intervals,random):
print symbol_intervals,random
i = 0
while random > symbol_intervals[i][1]:
i += 1
if i >= len(symbol_intervals):
raise Exception( "What did you DO to that poor list?" )
return symbol_intervals[i][0]
def gen_random(alphabet,length,probabilities=None):
from random import random
from itertools import repeat
if probabilities is None:
probabilities = dict(zip(alphabet,repeat(1.0)))
elif len(probabilities) > 0 and isinstance(probabilities[0],(int,long,float)):
probabilities = dict(zip(alphabet,probabilities)) #ordered
usable_probabilities = accumulate_normalize_values(probabilities)
gen = []
while len(gen) < length:
gen.append(select(usable_probabilities,random()))
return gen
```

Usage :

```
>>> gen_random (['a','b','c','d'],10,[100,300,400,200])
['d', 'b', 'b', 'a', 'c', 'c', 'b', 'c', 'c', 'c'] #<--- some of the time
```

`random.choice()`

? You build the master list with the proper number of occurrences and choose one. This is a duplicate question, of course.9more comments