# https://pyrocko.org - GPLv3
#
# The Pyrocko Developers, 21st Century
# ---|P------/S----------~Lg----------
import os
import re
import numpy as num
from pyrocko.guts import Object, Float, Tuple, List
from pyrocko import util
[docs]class CPTLevel(Object):
vmin = Float.T()
vmax = Float.T()
color_min = Tuple.T(3, Float.T())
color_max = Tuple.T(3, Float.T())
[docs]class CPT(Object):
color_below = Tuple.T(3, Float.T(), optional=True)
color_above = Tuple.T(3, Float.T(), optional=True)
color_nan = Tuple.T(3, Float.T(), optional=True)
levels = List.T(CPTLevel.T())
@property
def vmin(self):
if self.levels:
return self.levels[0].vmin
else:
return None
@property
def vmax(self):
if self.levels:
return self.levels[-1].vmax
else:
return None
def scale(self, vmin, vmax):
vmin_old, vmax_old = self.levels[0].vmin, self.levels[-1].vmax
for level in self.levels:
level.vmin = (level.vmin - vmin_old) / (vmax_old - vmin_old) * \
(vmax - vmin) + vmin
level.vmax = (level.vmax - vmin_old) / (vmax_old - vmin_old) * \
(vmax - vmin) + vmin
def get_lut(self):
vs = []
colors = []
if self.color_below and self.levels:
vs.append(self.levels[0].vmin)
colors.append(self.color_below)
for level in self.levels:
vs.append(level.vmin)
vs.append(level.vmax)
colors.append(level.color_min)
colors.append(level.color_max)
if self.color_above and self.levels:
vs.append(self.levels[-1].vmax)
colors.append(self.color_above)
vs_lut = num.array(vs)
colors_lut = num.array(colors)
return vs_lut, colors_lut
def __call__(self, values):
vs_lut, colors_lut = self.get_lut()
colors = num.zeros((values.size, 3))
colors[:, 0] = num.interp(values, vs_lut, colors_lut[:, 0])
colors[:, 1] = num.interp(values, vs_lut, colors_lut[:, 1])
colors[:, 2] = num.interp(values, vs_lut, colors_lut[:, 2])
if self.color_nan:
cnan = num.zeros((1, 3))
cnan[0, :] = self.color_nan
colors[num.isnan(values), :] = cnan
return colors
@classmethod
def from_numpy(cls, colors):
nbins = colors.shape[0]
vs = num.linspace(0., 1., nbins)
cpt_data = num.hstack((num.atleast_2d(vs).T, colors))
return cls(
levels=[
CPTLevel(
vmin=a[0],
vmax=b[0],
color_min=[255*x for x in a[1:]],
color_max=[255*x for x in b[1:]])
for (a, b) in zip(cpt_data[:-1], cpt_data[1:])])
def get_cpt_path(name):
if os.path.exists(name):
return name
if not re.match(r'[A-Za-z0-9_]+', name):
raise Exception('invalid cpt name')
fn = util.data_file(os.path.join('colortables', '%s.cpt' % name))
if not os.path.exists(fn):
raise Exception('cpt file does not exist: %s' % fn)
return fn
def get_cpt(name):
return read_cpt(get_cpt_path(name))
class CPTParseError(Exception):
pass
def read_cpt(filename):
with open(filename) as f:
color_below = None
color_above = None
color_nan = None
levels = []
try:
for line in f:
line = line.strip()
toks = line.split()
if line.startswith('#'):
continue
elif line.startswith('B'):
color_below = tuple(map(float, toks[1:4]))
elif line.startswith('F'):
color_above = tuple(map(float, toks[1:4]))
elif line.startswith('N'):
color_nan = tuple(map(float, toks[1:4]))
else:
values = list(map(float, line.split()))
vmin = values[0]
color_min = tuple(values[1:4])
vmax = values[4]
color_max = tuple(values[5:8])
levels.append(CPTLevel(
vmin=vmin,
vmax=vmax,
color_min=color_min,
color_max=color_max))
except Exception:
raise CPTParseError()
return CPT(
color_below=color_below,
color_above=color_above,
color_nan=color_nan,
levels=levels)
def color_to_int(color):
return tuple(max(0, min(255, int(round(x)))) for x in color)
def write_cpt(cpt, filename):
with open(filename, 'w') as f:
for level in cpt.levels:
f.write(
'%e %i %i %i %e %i %i %i\n' %
((level.vmin, ) + color_to_int(level.color_min) +
(level.vmax, ) + color_to_int(level.color_max)))
if cpt.color_below:
f.write('B %i %i %i\n' % color_to_int(cpt.color_below))
if cpt.color_above:
f.write('F %i %i %i\n' % color_to_int(cpt.color_above))
if cpt.color_nan:
f.write('N %i %i %i\n' % color_to_int(cpt.color_nan))
def cpt_merge_wet_dry(wet, dry):
levels = []
for level in wet.levels:
if level.vmin < 0.:
if level.vmax > 0.:
level.vmax = 0.
levels.append(level)
for level in dry.levels:
if level.vmax > 0.:
if level.vmin < 0.:
level.vmin = 0.
levels.append(level)
combi = CPT(
color_below=wet.color_below,
color_above=dry.color_above,
color_nan=dry.color_nan,
levels=levels)
return combi
