mpl_toolkits.axisartist.grid_finder.MaxNLocator

class mpl_toolkits.axisartist.grid_finder.MaxNLocator(nbins=10, steps=None, trim=True, integer=False, symmetric=False, prune=None)[source]

Bases: matplotlib.ticker.MaxNLocator

Parameters
nbinsint or 'auto', default: 10

Maximum number of intervals; one less than max number of ticks. If the string 'auto', the number of bins will be automatically determined based on the length of the axis.

stepsarray-like, optional

Sequence of nice numbers starting with 1 and ending with 10; e.g., [1, 2, 4, 5, 10], where the values are acceptable tick multiples. i.e. for the example, 20, 40, 60 would be an acceptable set of ticks, as would 0.4, 0.6, 0.8, because they are multiples of 2. However, 30, 60, 90 would not be allowed because 3 does not appear in the list of steps.

integerbool, default: False

If True, ticks will take only integer values, provided at least min_n_ticks integers are found within the view limits.

symmetricbool, default: False

If True, autoscaling will result in a range symmetric about zero.

prune{'lower', 'upper', 'both', None}, default: None

Remove edge ticks -- useful for stacked or ganged plots where the upper tick of one axes overlaps with the lower tick of the axes above it, primarily when rcParams["axes.autolimit_mode"] (default: 'data') is 'round_numbers'. If prune=='lower', the smallest tick will be removed. If prune == 'upper', the largest tick will be removed. If prune == 'both', the largest and smallest ticks will be removed. If prune is None, no ticks will be removed.

min_n_ticksint, default: 2

Relax nbins and integer constraints if necessary to obtain this minimum number of ticks.

__call__(v1, v2)[source]

Return the locations of the ticks.

Examples using mpl_toolkits.axisartist.grid_finder.MaxNLocator