"""
This module contains the instantiations of color mapping classes
"""
import colors
from matplotlib import verbose
from matplotlib import rcParams
from matplotlib.numerix import asarray
from numerix import nx
import numerix.ma as ma
from cbook import iterable
from _cm import *
def get_cmap(name=None, lut=None):
"""
Get a colormap instance, defaulting to rc values if name is None
"""
if name is None: name = rcParams['image.cmap']
if lut is None: lut = rcParams['image.lut']
assert(name in datad.keys())
return colors.LinearSegmentedColormap(name, datad[name], lut)
class ScalarMappable:
"""
This is a mixin class to support scalar -> RGBA mapping. Handles
normalization and colormapping
"""
def __init__(self, norm=None, cmap=None):
"""
norm is a colors.Norm instance to map luminance to 0-1
cmap is a cm colormap instance
"""
if cmap is None: cmap = get_cmap()
if norm is None: norm = colors.Normalize()
self._A = None
self.norm = norm
self.cmap = cmap
self.observers = []
self.colorbar = None
def set_colorbar(self, im, ax):
'set the colorbar image and axes associated with mappable'
self.colorbar = im, ax
def to_rgba(self, x, alpha=1.0):
'''Return a normalized rgba array corresponding to x.
If x is already an rgb or rgba array, return it unchanged.
'''
if hasattr(x, 'shape') and len(x.shape)>2: return x
x = ma.asarray(x)
x = self.norm(x)
x = self.cmap(x, alpha)
return x
def set_array(self, A):
'Set the image array from numeric/numarray A'
from numerix import typecode, typecodes
if typecode(A) in typecodes['Float']:
self._A = A.astype(nx.Float32)
else:
self._A = A.astype(nx.Int16)
def get_array(self):
'Return the array'
return self._A
def get_clim(self):
'return the min, max of the color limits for image scaling'
return self.norm.vmin, self.norm.vmax
def set_clim(self, vmin=None, vmax=None):
"""
set the norm limits for image scaling; if vmin is a length2
sequence, interpret it as (vmin, vmax) which is used to
support setp
ACCEPTS: a length 2 sequence of floats
"""
if vmin is not None and vmax is None and iterable(vmin) and len(vmin)==2:
vmin, vmax = vmin
if vmin is not None: self.norm.vmin = vmin
if vmax is not None: self.norm.vmax = vmax
self.changed()
def set_cmap(self, cmap):
"""
set the colormap for luminance data
ACCEPTS: a colormap
"""
if cmap is None: cmap = get_cmap()
self.cmap = cmap
self.changed()
def set_norm(self, norm):
'set the normalization instance'
if norm is None: norm = colors.Normalize()
self.norm = norm
self.changed()
def autoscale(self):
"""
Autoscale the scalar limits on the norm instance using the
current array
"""
if self._A is None:
raise TypeError('You must first set_array for mappable')
self.norm.autoscale(self._A)
self.changed()
def add_observer(self, mappable):
"""
whenever the norm, clim or cmap is set, call the notify
instance of the mappable observer with self.
This is designed to allow one image to follow changes in the
cmap of another image
"""
self.observers.append(mappable)
try:
self.add_callback(mappable.notify)
except AttributeError:
pass
def notify(self, mappable):
"""
If this is called then we are pegged to another mappable.
Update our cmap, norm, alpha from the other mappable.
"""
self.set_cmap(mappable.cmap)
self.set_norm(mappable.norm)
try:
self.set_alpha(mappable.get_alpha())
except AttributeError:
pass
def changed(self):
"""
Call this whenever the mappable is changed so observers can
update state
"""
for observer in self.observers:
observer.notify(self)
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