本文整理汇总了Python中mystic.math.poly1d函数的典型用法代码示例。如果您正苦于以下问题:Python poly1d函数的具体用法?Python poly1d怎么用?Python poly1d使用的例子?那么恭喜您, 这里精选的函数代码示例或许可以为您提供帮助。
在下文中一共展示了poly1d函数的13个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于我们的系统推荐出更棒的Python代码示例。
示例1: main
def main():
solver = DifferentialEvolutionSolver(ND, NP)
solver.SetRandomInitialPoints()
solver.SetEvaluationLimits(generations=MAX_GENERATIONS)
solver.SetGenerationMonitor(VerboseMonitor(10))
#strategy = Best1Exp
#strategy = Best1Bin
#strategy = Best2Bin
strategy = Best2Exp
solver.Solve(ChebyshevCost, termination=VTR(0.0001), strategy=strategy, \
CrossProbability=1.0, ScalingFactor=0.6)
solution = solver.Solution()
print("\nsolved: ")
print(poly1d(solution))
print("\ntarget: ")
print(poly1d(Chebyshev16))
#print("actual coefficients vs computed:")
#for actual,computed in zip(Chebyshev16, solution):
# print("%f %f" % (actual, computed))
plot_solution(solution, Chebyshev16)
开发者ID:Magellen,项目名称:mystic,代码行数:25,代码来源:test_ffit2.py
示例2: plot_solution
def plot_solution(params):
import numpy
x = numpy.arange(-1.2, 1.2001, 0.01)
f = poly1d(params)
y = f(x)
pylab.plot(x,y,'y-')
pylab.legend(["Exact","Fitted"])
pylab.axis([-1.4,1.4,-2,8],'k-')
return
开发者ID:eriknw,项目名称:mystic,代码行数:9,代码来源:example09.py
示例3: plot_solution
def plot_solution(params,style='y-'):
import numpy
x = numpy.arange(-1.2, 1.2001, 0.01)
f = poly1d(params)
y = f(x)
plt.plot(x,y,style)
plt.legend(["Exact","Fitted"])
plt.axis([-1.4,1.4,-2,8],'k-')
plt.draw()
plt.pause(0.001)
return
开发者ID:uqfoundation,项目名称:mystic,代码行数:11,代码来源:example08.py
示例4: plot_solution
def plot_solution(func, benchmark=Chebyshev8):
try:
import pylab, numpy
x = numpy.arange(-1.2, 1.2001, 0.01)
x2 = numpy.array([-1.0, 1.0])
p = poly1d(func)
chebyshev = poly1d(benchmark)
y = p(x)
exact = chebyshev(x)
pylab.plot(x,y,'b-',linewidth=2)
pylab.plot(x,exact,'r-',linewidth=2)
pylab.plot(x,0*x-1,'k-')
pylab.plot(x2, 0*x2+1,'k-')
pylab.plot([-1.2, -1.2],[-1, 10],'k-')
pylab.plot([1.2, 1.2],[-1, 10],'k-')
pylab.plot([-1.0, -1.0],[1, 10],'k-')
pylab.plot([1.0, 1.0],[1, 10],'k-')
pylab.axis([-1.4, 1.4, -2, 8],'k-')
pylab.legend(('Fitted','Chebyshev'))
pylab.show()
except ImportError:
print "Install matplotlib/numpy for visualization"
pass
开发者ID:eriknw,项目名称:mystic,代码行数:23,代码来源:test_ffit.py
示例5: print_solution
def print_solution(func):
print poly1d(func)
return
开发者ID:agamdua,项目名称:mystic,代码行数:3,代码来源:ezmap_desolve.py
示例6: VerboseMonitor
# configure monitor
stepmon = VerboseMonitor(50)
# use DE to solve 8th-order Chebyshev coefficients
npop = 10*ndim
solver = DifferentialEvolutionSolver2(ndim,npop)
solver.SetRandomInitialPoints(min=[-100]*ndim, max=[100]*ndim)
solver.SetGenerationMonitor(stepmon)
solver.enable_signal_handler()
solver.Solve(chebyshev8cost, termination=VTR(0.01), strategy=Best1Exp, \
CrossProbability=1.0, ScalingFactor=0.9, \
sigint_callback=plot_solution)
solution = solver.Solution()
# use monitor to retrieve results information
iterations = len(stepmon)
cost = stepmon.y[-1]
print("Generation %d has best Chi-Squared: %f" % (iterations, cost))
# use pretty print for polynomials
print(poly1d(solution))
# compare solution with actual 8th-order Chebyshev coefficients
print("\nActual Coefficients:\n %s\n" % poly1d(chebyshev8coeffs))
# plot solution versus exact coefficients
plot_solution(solution)
getch()
# end of file
开发者ID:uqfoundation,项目名称:mystic,代码行数:30,代码来源:example08.py
示例7: _init
datefmt='%a, %d %b %Y %H:%M:%S')
def _init(self):
Script._init(self)
return
def help(self):
doc = """
# this will solve the default "example" problem
%(name)s
""" % {'name' : __file__}
paginate(doc)
return
# main
if __name__ == '__main__':
app = DerunApp()
app.run()
# Chebyshev8 polynomial (used with "dummy.py")
from mystic.models.poly import chebyshev8coeffs as target_coeffs
from mystic.math import poly1d
print "target:\n", poly1d(target_coeffs)
print "\nDE Solution:\n", poly1d(app.solution)
# End of file
开发者ID:cdeil,项目名称:mystic,代码行数:30,代码来源:derun.py
示例8: DifferentialEvolutionSolver2
# use DE to solve 8th-order Chebyshev coefficients
npop = 10*ndim
solver = DifferentialEvolutionSolver2(ndim,npop)
solver.SetRandomInitialPoints(min=[-100]*ndim, max=[100]*ndim)
solver.SetEvaluationLimits(generations=999)
solver.SetEvaluationMonitor(evalmon)
solver.SetGenerationMonitor(stepmon)
solver.enable_signal_handler()
solver.Solve(chebyshev8cost, termination=VTR(0.01), strategy=Best1Exp, \
CrossProbability=1.0, ScalingFactor=0.9)
solution = solver.bestSolution
# get solved coefficients and Chi-Squared (from solver members)
iterations = solver.generations
cost = solver.bestEnergy
print "Generation %d has best Chi-Squared: %f" % (iterations, cost)
print "Solved Coefficients:\n %s\n" % poly1d(solver.bestSolution)
# plot convergence of coefficients per iteration
plot_frame('iterations')
plot_params(stepmon)
getch()
# plot convergence of coefficients per function call
plot_frame('function calls')
plot_params(evalmon)
getch()
# end of file
开发者ID:eriknw,项目名称:mystic,代码行数:29,代码来源:example10.py
示例9: ForwardFactory
def ForwardFactory(self,coeffs):
"""generates a 1-D polynomial instance from a list of coefficients
using numpy.poly1d(coeffs)"""
self.__forward__ = poly1d(coeffs)
return self.__forward__
开发者ID:agamdua,项目名称:mystic,代码行数:5,代码来源:poly.py
示例10: chebyshev8cost
def chebyshev8cost(trial,M=61):
"""The costfunction for order-n Chebyshev fitting.
M evaluation points between [-1, 1], and two end points"""
from mystic.models.poly import chebyshev8coeffs as target
from mystic.math import polyeval
result=0.0
x=-1.0
dx = 2.0 / (M-1)
for i in range(M):
px = polyeval(trial, x)
if px<-1 or px>1:
result += (1 - px) * (1 - px)
x += dx
px = polyeval(trial, 1.2) - polyeval(target, 1.2)
if px<0: result += px*px
px = polyeval(trial, -1.2) - polyeval(target, -1.2)
if px<0: result += px*px
return result
if __name__=='__main__':
from mystic.models.poly import chebyshev8coeffs as target
from mystic.math import poly1d
print(poly1d(target))
print("")
print(chebyshev8cost(target))
开发者ID:uqfoundation,项目名称:mystic,代码行数:30,代码来源:raw_chebyshev8.py
示例11: NelderMeadSimplexSolver
solver = NelderMeadSimplexSolver(ndim)
solver.SetInitialPoints(x0)
solver.SetEvaluationLimits(generations=999)
solver.SetEvaluationMonitor(evalmon)
solver.SetGenerationMonitor(stepmon)
solver.SetStrictRanges(min_bounds,max_bounds)
solver.enable_signal_handler()
solver.Solve(chebyshev8cost, termination=CRT(1e-4,1e-4), \
sigint_callback=plot_solution)
solution = solver.bestSolution
# get solved coefficients and Chi-Squared (from solver members)
iterations = solver.generations
cost = solver.bestEnergy
print("Generation %d has best Chi-Squared: %f" % (iterations, cost))
print("Solved Coefficients:\n %s\n" % poly1d(solver.bestSolution))
# compare solution with actual 8th-order Chebyshev coefficients
print("Actual Coefficients:\n %s\n" % poly1d(chebyshev8coeffs))
# plot solution versus exact coefficients
plot_solution(solution)
getch()
# plot convergence of coefficients per iteration
plot_frame('iterations')
plot_params(stepmon)
getch()
# plot convergence of coefficients per function call
plot_frame('function calls')
开发者ID:Magellen,项目名称:mystic,代码行数:31,代码来源:example11.py
示例12: chebyshev8cost
"""
from mystic.models.poly import chebyshev8coeffs as target
from mystic.math import polyeval, poly1d
def chebyshev8cost(trial,M=61):
"""The costfunction for order-n Chebyshev fitting.
M evaluation points between [-1, 1], and two end points"""
result=0.0
x=-1.0
dx = 2.0 / (M-1)
for i in range(M):
px = polyeval(trial, x)
if px<-1 or px>1:
result += (1 - px) * (1 - px)
x += dx
px = polyeval(trial, 1.2) - polyeval(target, 1.2)
if px<0: result += px*px
px = polyeval(trial, -1.2) - polyeval(target, -1.2)
if px<0: result += px*px
return result
if __name__=='__main__':
print poly1d(target)
print ""
print chebyshev8cost(target)
开发者ID:agamdua,项目名称:mystic,代码行数:30,代码来源:raw_chebyshev8b.py
示例13: _init
datefmt='%a, %d %b %Y %H:%M:%S')
def _init(self):
Script._init(self)
return
def help(self):
doc = """
# this will solve the default "example" problem
%(name)s
""" % {'name' : __file__}
paginate(doc)
return
# main
if __name__ == '__main__':
app = DerunApp()
app.run()
# Chebyshev8 polynomial (used with "dummy.py")
from mystic.models.poly import chebyshev8coeffs as target_coeffs
from mystic.math import poly1d
print("target:\n%s" % poly1d(target_coeffs))
print("\nDE Solution:\n%s" % poly1d(app.solution))
# End of file
开发者ID:Magellen,项目名称:mystic,代码行数:30,代码来源:derun.py
注:本文中的mystic.math.poly1d函数示例由纯净天空整理自Github/MSDocs等源码及文档管理平台,相关代码片段筛选自各路编程大神贡献的开源项目,源码版权归原作者所有,传播和使用请参考对应项目的License;未经允许,请勿转载。 |
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