hpvsim.utils module

Numerical utilities for running hpvsim.

sample(dist=None, par1=None, par2=None, size=None, **kwargs)[source]

Draw a sample from the distribution specified by the input. The available distributions are:

  • ‘uniform’ : uniform distribution from low=par1 to high=par2; mean is equal to (par1+par2)/2

  • ‘normal’ : normal distribution with mean=par1 and std=par2

  • ‘lognormal’ : lognormal distribution with mean=par1 and std=par2 (parameters are for the lognormal distribution, not the underlying normal distribution)

  • ‘normal_pos’ : right-sided normal distribution (i.e. only positive values), with mean=par1 and std=par2 of the underlying normal distribution

  • ‘normal_int’ : normal distribution with mean=par1 and std=par2, returns only integer values

  • ‘lognormal_int’ : lognormal distribution with mean=par1 and std=par2, returns only integer values

  • ‘poisson’ : Poisson distribution with rate=par1 (par2 is not used); mean and variance are equal to par1

  • ‘neg_binomial’ : negative binomial distribution with mean=par1 and k=par2; converges to Poisson with k=∞

  • ‘beta’ : beta distribution with alpha=par1 and beta=par2;

  • ‘gamma’ : gamma distribution with shape=par1 and scale=par2;

Parameters:

  • dist (str) – the distribution to sample from

  • par1 (float) – the “main” distribution parameter (e.g. mean)

  • par2 (float) – the “secondary” distribution parameter (e.g. std)

  • size (int) – the number of samples (default=1)

  • kwargs (dict) – passed to individual sampling functions

Returns:

A length N array of samples

Examples:

hpv.sample() # returns Unif(0,1)
hpv.sample(dist='normal', par1=3, par2=0.5) # returns Normal(μ=3, σ=0.5)
hpv.sample(dist='lognormal_int', par1=5, par2=3) # returns a lognormally distributed set of values with mean 5 and std 3

Notes

Lognormal distributions are parameterized with reference to the underlying normal distribution (see: https://docs.scipy.org/doc/numpy-1.14.0/reference/generated/numpy.random.lognormal.html), but this function assumes the user wants to specify the mean and std of the lognormal distribution.

Negative binomial distributions are parameterized with reference to the mean and dispersion parameter k (see: https://en.wikipedia.org/wiki/Negative_binomial_distribution). The r parameter of the underlying distribution is then calculated from the desired mean and k. For a small mean (~1), a dispersion parameter of ∞ corresponds to the variance and standard deviation being equal to the mean (i.e., Poisson). For a large mean (e.g. >100), a dispersion parameter of 1 corresponds to the standard deviation being equal to the mean.

get_pdf(dist=None, par1=None, par2=None)[source]

Return a probability density function for the specified distribution. This is used for example by test_num to retrieve the distribution of times from symptom-to-swab for testing. For example, for Washington State, these values are dist=’lognormal’, par1=10, par2=170.

set_seed(seed=None)[source]

Reset the random seed. This function also resets Python’s built-in random number generated.

Parameters:

seed (int) – the random seed

n_binomial(prob, n)[source]

Perform multiple binomial (Bernolli) trials

Parameters:

  • prob (float) – probability of each trial succeeding

  • n (int) – number of trials (size of array)

Returns:

Boolean array of which trials succeeded

Example:

outcomes = hpv.n_binomial(0.5, 100) # Perform 100 coin-flips
binomial_filter(prob, arr)[source]

Binomial “filter” – the same as n_binomial, except return the elements of arr that succeeded.

Parameters:

  • prob (float) – probability of each trial succeeding

  • arr (array) – the array to be filtered

Returns:

Subset of array for which trials succeeded

Example:

inds = hpv.binomial_filter(0.5, np.arange(20)**2) # Return which values out of the (arbitrary) array passed the coin flip
binomial_arr(prob_arr)[source]

Binomial (Bernoulli) trials each with different probabilities.

Parameters:

prob_arr (array) – array of probabilities

Returns:

Boolean array of which trials on the input array succeeded

Example:

outcomes = hpv.binomial_arr([0.1, 0.1, 0.2, 0.2, 0.8, 0.8]) # Perform 6 trials with different probabilities
n_multinomial(probs, n)[source]

An array of multinomial trials.

Parameters:

  • probs (array) – probability of each outcome, which usually should sum to 1

  • n (int) – number of trials

Returns:

Array of integer outcomes

Example:

outcomes = hpv.n_multinomial(np.ones(6)/6.0, 50)+1 # Return 50 die-rolls
poisson(rate)[source]

A Poisson trial.

Parameters:

rate (float) – the rate of the Poisson process

Example:

outcome = hpv.poisson(100) # Single Poisson trial with mean 100
n_poisson(rate, n)[source]

An array of Poisson trials.

Parameters:

  • rate (float) – the rate of the Poisson process (mean)

  • n (int) – number of trials

Example:

outcomes = hpv.n_poisson(100, 20) # 20 Poisson trials with mean 100
n_neg_binomial(rate, dispersion, n, step=1)[source]

An array of negative binomial trials. See hpv.sample() for more explanation.

Parameters:

  • rate (float) – the rate of the process (mean, same as Poisson)

  • dispersion (float) – dispersion parameter; lower is more dispersion, i.e. 0 = infinite, ∞ = Poisson

  • n (int) – number of trials

  • step (float) – the step size to use if non-integer outputs are desired

Example:

outcomes = hpv.n_neg_binomial(100, 1, 50) # 50 negative binomial trials with mean 100 and dispersion roughly equal to mean (large-mean limit)
outcomes = hpv.n_neg_binomial(1, 100, 20) # 20 negative binomial trials with mean 1 and dispersion still roughly equal to mean (approximately Poisson)
choose(max_n, n)[source]

Choose a subset of items (e.g., people) without replacement.

Parameters:

  • max_n (int) – the total number of items

  • n (int) – the number of items to choose

Example:

choices = hpv.choose(5, 2) # choose 2 out of 5 people with equal probability (without repeats)
choose_r(max_n, n)[source]

Choose a subset of items (e.g., people), with replacement.

Parameters:

  • max_n (int) – the total number of items

  • n (int) – the number of items to choose

Example:

choices = hpv.choose_r(5, 10) # choose 10 out of 5 people with equal probability (with repeats)
choose_w(probs, n, unique=True)[source]

Choose n items (e.g. people), each with a probability from the distribution probs.

Parameters:

  • probs (array) – list of probabilities, should sum to 1

  • n (int) – number of samples to choose

  • unique (bool) – whether or not to ensure unique indices

Example:

choices = hpv.choose_w([0.2, 0.5, 0.1, 0.1, 0.1], 2) # choose 2 out of 5 people with nonequal probability.
true(arr)[source]

Returns the indices of the values of the array that are true: just an alias for arr.nonzero()[0].

Parameters:

arr (array) – any array

Example:

inds = hpv.true(np.array([1,0,0,1,1,0,1])) # Returns array([0, 3, 4, 6])
false(arr)[source]

Returns the indices of the values of the array that are false.

Parameters:

arr (array) – any array

Example:

inds = hpv.false(np.array([1,0,0,1,1,0,1]))
defined(arr)[source]

Returns the indices of the values of the array that are not-nan.

Parameters:

arr (array) – any array

Example:

inds = hpv.defined(np.array([1,np.nan,0,np.nan,1,0,1]))
undefined(arr)[source]

Returns the indices of the values of the array that are not-nan.

Parameters:

arr (array) – any array

Example:

inds = hpv.defined(np.array([1,np.nan,0,np.nan,1,0,1]))
itrue(arr, inds)[source]

Returns the indices that are true in the array – name is short for indices[true]

Parameters:

  • arr (array) – a Boolean array, used as a filter

  • inds (array) – any other array (usually, an array of indices) of the same size

Example:

inds = hpv.itrue(np.array([True,False,True,True]), inds=np.array([5,22,47,93]))
ifalse(arr, inds)[source]

Returns the indices that are true in the array – name is short for indices[false]

Parameters:

  • arr (array) – a Boolean array, used as a filter

  • inds (array) – any other array (usually, an array of indices) of the same size

Example:

inds = hpv.ifalse(np.array([True,False,True,True]), inds=np.array([5,22,47,93]))
idefined(arr, inds)[source]

Returns the indices that are defined in the array – name is short for indices[defined]

Parameters:

  • arr (array) – any array, used as a filter

  • inds (array) – any other array (usually, an array of indices) of the same size

Example:

inds = hpv.idefined(np.array([3,np.nan,np.nan,4]), inds=np.array([5,22,47,93]))
iundefined(arr, inds)[source]

Returns the indices that are undefined in the array – name is short for indices[undefined]

Parameters:

  • arr (array) – any array, used as a filter

  • inds (array) – any other array (usually, an array of indices) of the same size

Example:

inds = hpv.iundefined(np.array([3,np.nan,np.nan,4]), inds=np.array([5,22,47,93]))
itruei(arr, inds)[source]

Returns the indices that are true in the array – name is short for indices[true[indices]]

Parameters:

  • arr (array) – a Boolean array, used as a filter

  • inds (array) – an array of indices for the original array

Example:

inds = hpv.itruei(np.array([True,False,True,True,False,False,True,False]), inds=np.array([0,1,3,5]))
ifalsei(arr, inds)[source]

Returns the indices that are false in the array – name is short for indices[false[indices]]

Parameters:

  • arr (array) – a Boolean array, used as a filter

  • inds (array) – an array of indices for the original array

Example:

inds = hpv.ifalsei(np.array([True,False,True,True,False,False,True,False]), inds=np.array([0,1,3,5]))
idefinedi(arr, inds)[source]

Returns the indices that are defined in the array – name is short for indices[defined[indices]]

Parameters:

  • arr (array) – any array, used as a filter

  • inds (array) – an array of indices for the original array

Example:

inds = hpv.idefinedi(np.array([4,np.nan,0,np.nan,np.nan,4,7,4,np.nan]), inds=np.array([0,1,3,5]))
iundefinedi(arr, inds)[source]

Returns the indices that are undefined in the array – name is short for indices[defined[indices]]

Parameters:

  • arr (array) – any array, used as a filter

  • inds (array) – an array of indices for the original array

Example:

inds = hpv.iundefinedi(np.array([4,np.nan,0,np.nan,np.nan,4,7,4,np.nan]), inds=np.array([0,1,3,5]))
dtround(arr, dt, ceil=True)[source]

Rounds the values in the array to the nearest timestep

Parameters:

  • arr (array) – any array

  • dt (float) – float, usually representing a timestep in years

Example:

dtround = hpv.dtround(np.array([0.23,0.61,20.53])) # Returns array([0.2, 0.6, 20.6])
dtround = hpv.dtround(np.array([0.23,0.61,20.53]),ceil=True) # Returns array([0.4, 0.8, 20.6])
find_cutoff(duration_cutoffs, duration)[source]

Find which duration bin each ind belongs to.