vyznev/dice_roll.py

## dice_roll.py
def dice_roll(die, count = 1, select = None):
    """Generate all possible results of rolling `die` `count` times, sorting
    the results (according to the order of the sides on the die) and selecting
    the first `select` elements of it.

    The yielded results are tuples of the form `(roll, prob)`, where `roll` is a
    sorted tuple of `select` values and `prob` is the probability of the result.

    The first argument can be either a custom die, i.e. a tuple of `(side, prob)`
    pairs, where `prob` is the probability of rolling `side` on the die, or just
    a simple integer, which will be passed to `make_simple_die`.

    Keyword arguments:
    die -- a custom die or an integer
    count -- the number of dice to roll (default 1)
    select -- the number of results to select (set equal to count if omitted)
    """

    # cannot select more dice than there are in the pool
    if select is None or select > count:
        select = count
    # for convienience, allow simple dice to be given as plain numbers
    die = make_simple_die(die) if isinstance(die, int) else tuple(die)

    if len(die) == 1:
        # base case: a one-sided die has only one possible result
        yield ((die[0][0],) * select, die[0][1]**count)
    elif len(die) > 1:
        # split off the first side of the die, normalize the rest
        side, p_side = die[0]
        rest = tuple((side, prob / (1-p_side)) for side, prob in die[1:])
        p_sum = 0 # probability of rolling this side less than select times
        for i in range(0, select):
            # probability of rolling this side exactly i times
            p_i = binomial(count, i) * p_side**i * (1-p_side)**(count-i)
            p_sum += p_i
            # recursively generate combinations
            for roll, p_roll in dice_roll(rest, count-i, select-i):
                yield ((side,) * i + roll, p_i * p_roll)
        # final case: all selected dice (and possibly more) roll this side
        yield ((side,) * select, 1-p_sum)

_factorials = [1]
def binomial(n, k):
    """Helper function to efficiently compute the binomial coefficient."""
    while len(_factorials) <= n:
        _factorials.append(_factorials[-1] * len(_factorials))
    return _factorials[n] / _factorials[k] / _factorials[n-k]

def make_simple_die(n):
    """Generate a simple n-sided die with sides listed in decreasing order."""
    return tuple((i, 1.0/n) for i in range(n, 0, -1))

def explode(die, count=2):
    """Make an "exploding die" where the first (=highest) side is rerolled up to
    count times.
    """
    die = make_simple_die(die) if isinstance(die, int) else tuple(die)
    exploded = die
    for i in range(count):
        top, p_top = exploded[0]
        exploded = tuple((side + top, prob * p_top) for side, prob in die) + exploded[1:]
    return exploded

def sum_roll(die, count = 1, select = None, ascending=False):
    """Convenience function to sum the results of `dice_roll()`. Takes the same
    parameters as `dice_roll()`, returns a list of `(sum, prob)` pairs sorted in
    descending order by sum (and thus suitable for use as a new custom die). The
    optional parameter `ascending=True` can be used to change the sort order.
    """
    from collections import defaultdict
    summary = defaultdict(float)
    for roll, prob in dice_roll(die, count, select):
        summary[sum(roll)] += prob
    return tuple(sorted(summary.items(), reverse = not ascending))
	def dice_roll(die, count = 1, select = None):
	"""Generate all possible results of rolling `die` `count` times, sorting
	the results (according to the order of the sides on the die) and selecting
	the first `select` elements of it.

	The yielded results are tuples of the form `(roll, prob)`, where `roll` is a
	sorted tuple of `select` values and `prob` is the probability of the result.

	The first argument can be either a custom die, i.e. a tuple of `(side, prob)`
	pairs, where `prob` is the probability of rolling `side` on the die, or just
	a simple integer, which will be passed to `make_simple_die`.

	Keyword arguments:
	die -- a custom die or an integer
	count -- the number of dice to roll (default 1)
	select -- the number of results to select (set equal to count if omitted)
	"""

	# cannot select more dice than there are in the pool
	if select is None or select > count:
	select = count
	# for convienience, allow simple dice to be given as plain numbers
	die = make_simple_die(die) if isinstance(die, int) else tuple(die)

	if len(die) == 1:
	# base case: a one-sided die has only one possible result
	yield ((die[0][0],) * select, die[0][1]**count)
	elif len(die) > 1:
	# split off the first side of the die, normalize the rest
	side, p_side = die[0]
	rest = tuple((side, prob / (1-p_side)) for side, prob in die[1:])
	p_sum = 0 # probability of rolling this side less than select times
	for i in range(0, select):
	# probability of rolling this side exactly i times
	p_i = binomial(count, i) * p_side*i (1-p_side)**(count-i)
	p_sum += p_i
	# recursively generate combinations
	for roll, p_roll in dice_roll(rest, count-i, select-i):
	yield ((side,) * i + roll, p_i * p_roll)
	# final case: all selected dice (and possibly more) roll this side
	yield ((side,) * select, 1-p_sum)

	_factorials = [1]
	def binomial(n, k):
	"""Helper function to efficiently compute the binomial coefficient."""
	while len(_factorials) <= n:
	_factorials.append(_factorials[-1] * len(_factorials))
	return _factorials[n] / _factorials[k] / _factorials[n-k]

	def make_simple_die(n):
	"""Generate a simple n-sided die with sides listed in decreasing order."""
	return tuple((i, 1.0/n) for i in range(n, 0, -1))

	def explode(die, count=2):
	"""Make an "exploding die" where the first (=highest) side is rerolled up to
	count times.
	"""
	die = make_simple_die(die) if isinstance(die, int) else tuple(die)
	exploded = die
	for i in range(count):
	top, p_top = exploded[0]
	exploded = tuple((side + top, prob * p_top) for side, prob in die) + exploded[1:]
	return exploded

	def sum_roll(die, count = 1, select = None, ascending=False):
	"""Convenience function to sum the results of `dice_roll()`. Takes the same
	parameters as `dice_roll()`, returns a list of `(sum, prob)` pairs sorted in
	descending order by sum (and thus suitable for use as a new custom die). The
	optional parameter `ascending=True` can be used to change the sort order.
	"""
	from collections import defaultdict
	summary = defaultdict(float)
	for roll, prob in dice_roll(die, count, select):
	summary[sum(roll)] += prob
	return tuple(sorted(summary.items(), reverse = not ascending))