Module sverchok.utils.curve.rbf
Expand source code
import numpy as np
from sverchok.utils.curve import SvCurve
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# #
# Curves #
# #
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class SvRbfCurve(SvCurve):
"""
RBF-based interpolation curve
"""
def __init__(self, rbf, u_bounds):
self.rbf = rbf
self.u_bounds = u_bounds
self.tangent_delta = 0.0001
def get_u_bounds(self):
return self.u_bounds
def evaluate(self, t):
v = self.rbf(t)
return v
def evaluate_array(self, ts):
vs = self.rbf(ts)
return vs
def tangent(self, t, tangent_delta=None):
h = self.get_tangent_delta(tangent_delta)
point = self.rbf(t)
point_h = self.rbf(t+h)
return (point_h - point) / h
def tangent_array(self, ts, tangent_delta=None):
h = self.get_tangent_delta(tangent_delta)
points = self.rbf(ts)
points_h = self.rbf(ts+h)
return (points_h - points) / hClasses
class SvRbfCurve (rbf, u_bounds)-
RBF-based interpolation curve
Expand source code
class SvRbfCurve(SvCurve): """ RBF-based interpolation curve """ def __init__(self, rbf, u_bounds): self.rbf = rbf self.u_bounds = u_bounds self.tangent_delta = 0.0001 def get_u_bounds(self): return self.u_bounds def evaluate(self, t): v = self.rbf(t) return v def evaluate_array(self, ts): vs = self.rbf(ts) return vs def tangent(self, t, tangent_delta=None): h = self.get_tangent_delta(tangent_delta) point = self.rbf(t) point_h = self.rbf(t+h) return (point_h - point) / h def tangent_array(self, ts, tangent_delta=None): h = self.get_tangent_delta(tangent_delta) points = self.rbf(ts) points_h = self.rbf(ts+h) return (points_h - points) / hAncestors
Inherited members