matplotlib.scale
#
Scales define the distribution of data values on an axis, e.g. a log scaling.
They are defined as subclasses of ScaleBase
.
See also axes.Axes.set_xscale
and the scales examples in the documentation.
See Custom scale for a full example of defining a custom scale.
Matplotlib also supports non-separable transformations that operate on both
Axis
at the same time. They are known as projections, and defined in
matplotlib.projections
.
- class matplotlib.scale.AsinhScale(axis, *, linear_width=1.0, base=10, subs='auto', **kwargs)[source]#
Bases:
ScaleBase
A quasi-logarithmic scale based on the inverse hyperbolic sine (asinh)
For values close to zero, this is essentially a linear scale, but for large magnitude values (either positive or negative) it is asymptotically logarithmic. The transition between these linear and logarithmic regimes is smooth, and has no discontinuities in the function gradient in contrast to the
SymmetricalLogScale
("symlog") scale.Specifically, the transformation of an axis coordinate \(a\) is \(a \rightarrow a_0 \sinh^{-1} (a / a_0)\) where \(a_0\) is the effective width of the linear region of the transformation. In that region, the transformation is \(a \rightarrow a + \mathcal{O}(a^3)\). For large values of \(a\) the transformation behaves as \(a \rightarrow a_0 \, \mathrm{sgn}(a) \ln |a| + \mathcal{O}(1)\).
Note
This API is provisional and may be revised in the future based on early user feedback.
- Parameters:
- linear_widthfloat, default: 1
The scale parameter (elsewhere referred to as \(a_0\)) defining the extent of the quasi-linear region, and the coordinate values beyond which the transformation becomes asymptotically logarithmic.
- baseint, default: 10
The number base used for rounding tick locations on a logarithmic scale. If this is less than one, then rounding is to the nearest integer multiple of powers of ten.
- subssequence of int
Multiples of the number base used for minor ticks. If set to 'auto', this will use built-in defaults, e.g. (2, 5) for base=10.
- auto_tick_multipliers = {3: (2,), 4: (2,), 5: (2,), 8: (2, 4), 10: (2, 5), 16: (2, 4, 8), 64: (4, 16), 1024: (256, 512)}#
- property linear_width#
- name = 'asinh'#
- class matplotlib.scale.AsinhTransform(linear_width)[source]#
Bases:
Transform
Inverse hyperbolic-sine transformation used by
AsinhScale
- Parameters:
- shorthand_namestr
A string representing the "name" of the transform. The name carries no significance other than to improve the readability of
str(transform)
when DEBUG=True.
- has_inverse = True#
True if this transform has a corresponding inverse transform.
- input_dims = 1#
The number of input dimensions of this transform. Must be overridden (with integers) in the subclass.
- inverted()[source]#
Return the corresponding inverse transformation.
It holds
x == self.inverted().transform(self.transform(x))
.The return value of this method should be treated as temporary. An update to self does not cause a corresponding update to its inverted copy.
- is_separable = True#
True if this transform is separable in the x- and y- dimensions.
- output_dims = 1#
The number of output dimensions of this transform. Must be overridden (with integers) in the subclass.
- transform_non_affine(values)[source]#
Apply only the non-affine part of this transformation.
transform(values)
is always equivalent totransform_affine(transform_non_affine(values))
.In non-affine transformations, this is generally equivalent to
transform(values)
. In affine transformations, this is always a no-op.- Parameters:
- valuesarray
The input values as an array of length
input_dims
or shape (N,input_dims
).
- Returns:
- array
The output values as an array of length
output_dims
or shape (N,output_dims
), depending on the input.
- class matplotlib.scale.FuncScale(axis, functions)[source]#
Bases:
ScaleBase
Provide an arbitrary scale with user-supplied function for the axis.
- Parameters:
- axis
Axis
The axis for the scale.
- functions(callable, callable)
two-tuple of the forward and inverse functions for the scale. The forward function must be monotonic.
Both functions must have the signature:
def forward(values: array-like) -> array-like
- axis
- get_transform()[source]#
Return the
FuncTransform
associated with this scale.
- name = 'function'#
- class matplotlib.scale.FuncScaleLog(axis, functions, base=10)[source]#
Bases:
LogScale
Provide an arbitrary scale with user-supplied function for the axis and then put on a logarithmic axes.
- Parameters:
- axis
Axis
The axis for the scale.
- functions(callable, callable)
two-tuple of the forward and inverse functions for the scale. The forward function must be monotonic.
Both functions must have the signature:
def forward(values: array-like) -> array-like
- basefloat, default: 10
Logarithmic base of the scale.
- axis
- property base#
- name = 'functionlog'#
- class matplotlib.scale.FuncTransform(forward, inverse)[source]#
Bases:
Transform
A simple transform that takes and arbitrary function for the forward and inverse transform.
- Parameters:
- forwardcallable
The forward function for the transform. This function must have an inverse and, for best behavior, be monotonic. It must have the signature:
def forward(values: array-like) -> array-like
- inversecallable
The inverse of the forward function. Signature as
forward
.
- has_inverse = True#
True if this transform has a corresponding inverse transform.
- input_dims = 1#
The number of input dimensions of this transform. Must be overridden (with integers) in the subclass.
- inverted()[source]#
Return the corresponding inverse transformation.
It holds
x == self.inverted().transform(self.transform(x))
.The return value of this method should be treated as temporary. An update to self does not cause a corresponding update to its inverted copy.
- is_separable = True#
True if this transform is separable in the x- and y- dimensions.
- output_dims = 1#
The number of output dimensions of this transform. Must be overridden (with integers) in the subclass.
- transform_non_affine(values)[source]#
Apply only the non-affine part of this transformation.
transform(values)
is always equivalent totransform_affine(transform_non_affine(values))
.In non-affine transformations, this is generally equivalent to
transform(values)
. In affine transformations, this is always a no-op.- Parameters:
- valuesarray
The input values as an array of length
input_dims
or shape (N,input_dims
).
- Returns:
- array
The output values as an array of length
output_dims
or shape (N,output_dims
), depending on the input.
- class matplotlib.scale.InvertedAsinhTransform(linear_width)[source]#
Bases:
Transform
Hyperbolic sine transformation used by
AsinhScale
- Parameters:
- shorthand_namestr
A string representing the "name" of the transform. The name carries no significance other than to improve the readability of
str(transform)
when DEBUG=True.
- has_inverse = True#
True if this transform has a corresponding inverse transform.
- input_dims = 1#
The number of input dimensions of this transform. Must be overridden (with integers) in the subclass.
- inverted()[source]#
Return the corresponding inverse transformation.
It holds
x == self.inverted().transform(self.transform(x))
.The return value of this method should be treated as temporary. An update to self does not cause a corresponding update to its inverted copy.
- is_separable = True#
True if this transform is separable in the x- and y- dimensions.
- output_dims = 1#
The number of output dimensions of this transform. Must be overridden (with integers) in the subclass.
- transform_non_affine(values)[source]#
Apply only the non-affine part of this transformation.
transform(values)
is always equivalent totransform_affine(transform_non_affine(values))
.In non-affine transformations, this is generally equivalent to
transform(values)
. In affine transformations, this is always a no-op.- Parameters:
- valuesarray
The input values as an array of length
input_dims
or shape (N,input_dims
).
- Returns:
- array
The output values as an array of length
output_dims
or shape (N,output_dims
), depending on the input.
- class matplotlib.scale.InvertedLogTransform(base)[source]#
Bases:
Transform
- Parameters:
- shorthand_namestr
A string representing the "name" of the transform. The name carries no significance other than to improve the readability of
str(transform)
when DEBUG=True.
- has_inverse = True#
True if this transform has a corresponding inverse transform.
- input_dims = 1#
The number of input dimensions of this transform. Must be overridden (with integers) in the subclass.
- inverted()[source]#
Return the corresponding inverse transformation.
It holds
x == self.inverted().transform(self.transform(x))
.The return value of this method should be treated as temporary. An update to self does not cause a corresponding update to its inverted copy.
- is_separable = True#
True if this transform is separable in the x- and y- dimensions.
- output_dims = 1#
The number of output dimensions of this transform. Must be overridden (with integers) in the subclass.
- transform_non_affine(values)[source]#
Apply only the non-affine part of this transformation.
transform(values)
is always equivalent totransform_affine(transform_non_affine(values))
.In non-affine transformations, this is generally equivalent to
transform(values)
. In affine transformations, this is always a no-op.- Parameters:
- valuesarray
The input values as an array of length
input_dims
or shape (N,input_dims
).
- Returns:
- array
The output values as an array of length
output_dims
or shape (N,output_dims
), depending on the input.
- class matplotlib.scale.InvertedSymmetricalLogTransform(base, linthresh, linscale)[source]#
Bases:
Transform
- Parameters:
- shorthand_namestr
A string representing the "name" of the transform. The name carries no significance other than to improve the readability of
str(transform)
when DEBUG=True.
- has_inverse = True#
True if this transform has a corresponding inverse transform.
- input_dims = 1#
The number of input dimensions of this transform. Must be overridden (with integers) in the subclass.
- inverted()[source]#
Return the corresponding inverse transformation.
It holds
x == self.inverted().transform(self.transform(x))
.The return value of this method should be treated as temporary. An update to self does not cause a corresponding update to its inverted copy.
- is_separable = True#
True if this transform is separable in the x- and y- dimensions.
- output_dims = 1#
The number of output dimensions of this transform. Must be overridden (with integers) in the subclass.
- transform_non_affine(values)[source]#
Apply only the non-affine part of this transformation.
transform(values)
is always equivalent totransform_affine(transform_non_affine(values))
.In non-affine transformations, this is generally equivalent to
transform(values)
. In affine transformations, this is always a no-op.- Parameters:
- valuesarray
The input values as an array of length
input_dims
or shape (N,input_dims
).
- Returns:
- array
The output values as an array of length
output_dims
or shape (N,output_dims
), depending on the input.
- class matplotlib.scale.LinearScale(axis)[source]#
Bases:
ScaleBase
The default linear scale.
- get_transform()[source]#
Return the transform for linear scaling, which is just the
IdentityTransform
.
- name = 'linear'#
- class matplotlib.scale.LogScale(axis, *, base=10, subs=None, nonpositive='clip')[source]#
Bases:
ScaleBase
A standard logarithmic scale. Care is taken to only plot positive values.
- Parameters:
- axis
Axis
The axis for the scale.
- basefloat, default: 10
The base of the logarithm.
- nonpositive{'clip', 'mask'}, default: 'clip'
Determines the behavior for non-positive values. They can either be masked as invalid, or clipped to a very small positive number.
- subssequence of int, default: None
Where to place the subticks between each major tick. For example, in a log10 scale,
[2, 3, 4, 5, 6, 7, 8, 9]
will place 8 logarithmically spaced minor ticks between each major tick.
- axis
- property base#
- get_transform()[source]#
Return the
LogTransform
associated with this scale.
- name = 'log'#
- class matplotlib.scale.LogTransform(base, nonpositive='clip')[source]#
Bases:
Transform
- Parameters:
- shorthand_namestr
A string representing the "name" of the transform. The name carries no significance other than to improve the readability of
str(transform)
when DEBUG=True.
- has_inverse = True#
True if this transform has a corresponding inverse transform.
- input_dims = 1#
The number of input dimensions of this transform. Must be overridden (with integers) in the subclass.
- inverted()[source]#
Return the corresponding inverse transformation.
It holds
x == self.inverted().transform(self.transform(x))
.The return value of this method should be treated as temporary. An update to self does not cause a corresponding update to its inverted copy.
- is_separable = True#
True if this transform is separable in the x- and y- dimensions.
- output_dims = 1#
The number of output dimensions of this transform. Must be overridden (with integers) in the subclass.
- transform_non_affine(values)[source]#
Apply only the non-affine part of this transformation.
transform(values)
is always equivalent totransform_affine(transform_non_affine(values))
.In non-affine transformations, this is generally equivalent to
transform(values)
. In affine transformations, this is always a no-op.- Parameters:
- valuesarray
The input values as an array of length
input_dims
or shape (N,input_dims
).
- Returns:
- array
The output values as an array of length
output_dims
or shape (N,output_dims
), depending on the input.
- class matplotlib.scale.LogisticTransform(nonpositive='mask')[source]#
Bases:
Transform
- Parameters:
- shorthand_namestr
A string representing the "name" of the transform. The name carries no significance other than to improve the readability of
str(transform)
when DEBUG=True.
- has_inverse = True#
True if this transform has a corresponding inverse transform.
- input_dims = 1#
The number of input dimensions of this transform. Must be overridden (with integers) in the subclass.
- inverted()[source]#
Return the corresponding inverse transformation.
It holds
x == self.inverted().transform(self.transform(x))
.The return value of this method should be treated as temporary. An update to self does not cause a corresponding update to its inverted copy.
- is_separable = True#
True if this transform is separable in the x- and y- dimensions.
- output_dims = 1#
The number of output dimensions of this transform. Must be overridden (with integers) in the subclass.
- class matplotlib.scale.LogitScale(axis, nonpositive='mask', *, one_half='\\frac{1}{2}', use_overline=False)[source]#
Bases:
ScaleBase
Logit scale for data between zero and one, both excluded.
This scale is similar to a log scale close to zero and to one, and almost linear around 0.5. It maps the interval ]0, 1[ onto ]-infty, +infty[.
- Parameters:
- axis
Axis
Currently unused.
- nonpositive{'mask', 'clip'}
Determines the behavior for values beyond the open interval ]0, 1[. They can either be masked as invalid, or clipped to a number very close to 0 or 1.
- use_overlinebool, default: False
Indicate the usage of survival notation (overline{x}) in place of standard notation (1-x) for probability close to one.
- one_halfstr, default: r"frac{1}{2}"
The string used for ticks formatter to represent 1/2.
- axis
- get_transform()[source]#
Return the
LogitTransform
associated with this scale.
- limit_range_for_scale(vmin, vmax, minpos)[source]#
Limit the domain to values between 0 and 1 (excluded).
- name = 'logit'#
- class matplotlib.scale.LogitTransform(nonpositive='mask')[source]#
Bases:
Transform
- Parameters:
- shorthand_namestr
A string representing the "name" of the transform. The name carries no significance other than to improve the readability of
str(transform)
when DEBUG=True.
- has_inverse = True#
True if this transform has a corresponding inverse transform.
- input_dims = 1#
The number of input dimensions of this transform. Must be overridden (with integers) in the subclass.
- inverted()[source]#
Return the corresponding inverse transformation.
It holds
x == self.inverted().transform(self.transform(x))
.The return value of this method should be treated as temporary. An update to self does not cause a corresponding update to its inverted copy.
- is_separable = True#
True if this transform is separable in the x- and y- dimensions.
- output_dims = 1#
The number of output dimensions of this transform. Must be overridden (with integers) in the subclass.
- class matplotlib.scale.ScaleBase(axis)[source]#
Bases:
object
The base class for all scales.
Scales are separable transformations, working on a single dimension.
Subclasses should override
name
The scale's name.
get_transform()
A method returning a
Transform
, which converts data coordinates to scaled coordinates. This transform should be invertible, so that e.g. mouse positions can be converted back to data coordinates.set_default_locators_and_formatters()
A method that sets default locators and formatters for an
Axis
that uses this scale.limit_range_for_scale()
An optional method that "fixes" the axis range to acceptable values, e.g. restricting log-scaled axes to positive values.
Construct a new scale.
Notes
The following note is for scale implementers.
For back-compatibility reasons, scales take an
Axis
object as first argument. However, this argument should not be used: a single scale object should be usable by multipleAxis
es at the same time.
- class matplotlib.scale.SymmetricalLogScale(axis, *, base=10, linthresh=2, subs=None, linscale=1)[source]#
Bases:
ScaleBase
The symmetrical logarithmic scale is logarithmic in both the positive and negative directions from the origin.
Since the values close to zero tend toward infinity, there is a need to have a range around zero that is linear. The parameter linthresh allows the user to specify the size of this range (-linthresh, linthresh).
- Parameters:
- basefloat, default: 10
The base of the logarithm.
- linthreshfloat, default: 2
Defines the range
(-x, x)
, within which the plot is linear. This avoids having the plot go to infinity around zero.- subssequence of int
Where to place the subticks between each major tick. For example, in a log10 scale:
[2, 3, 4, 5, 6, 7, 8, 9]
will place 8 logarithmically spaced minor ticks between each major tick.- linscalefloat, optional
This allows the linear range
(-linthresh, linthresh)
to be stretched relative to the logarithmic range. Its value is the number of decades to use for each half of the linear range. For example, when linscale == 1.0 (the default), the space used for the positive and negative halves of the linear range will be equal to one decade in the logarithmic range.
Construct a new scale.
Notes
The following note is for scale implementers.
For back-compatibility reasons, scales take an
Axis
object as first argument. However, this argument should not be used: a single scale object should be usable by multipleAxis
es at the same time.- property base#
- get_transform()[source]#
Return the
SymmetricalLogTransform
associated with this scale.
- property linscale#
- property linthresh#
- name = 'symlog'#
- class matplotlib.scale.SymmetricalLogTransform(base, linthresh, linscale)[source]#
Bases:
Transform
- Parameters:
- shorthand_namestr
A string representing the "name" of the transform. The name carries no significance other than to improve the readability of
str(transform)
when DEBUG=True.
- has_inverse = True#
True if this transform has a corresponding inverse transform.
- input_dims = 1#
The number of input dimensions of this transform. Must be overridden (with integers) in the subclass.
- inverted()[source]#
Return the corresponding inverse transformation.
It holds
x == self.inverted().transform(self.transform(x))
.The return value of this method should be treated as temporary. An update to self does not cause a corresponding update to its inverted copy.
- is_separable = True#
True if this transform is separable in the x- and y- dimensions.
- output_dims = 1#
The number of output dimensions of this transform. Must be overridden (with integers) in the subclass.
- transform_non_affine(values)[source]#
Apply only the non-affine part of this transformation.
transform(values)
is always equivalent totransform_affine(transform_non_affine(values))
.In non-affine transformations, this is generally equivalent to
transform(values)
. In affine transformations, this is always a no-op.- Parameters:
- valuesarray
The input values as an array of length
input_dims
or shape (N,input_dims
).
- Returns:
- array
The output values as an array of length
output_dims
or shape (N,output_dims
), depending on the input.