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- """
- A module for postprocessing the numerical results from HDPG1d solver.
- """
- import matplotlib.pyplot as plt
- import numpy as np
- class utils(object):
- def __init__(self, solution):
- self.solution = solution
- exactNumEle = 200
- exactBasisFuncs = 5
- self.solution.coeff.numEle = exactNumEle
- self.solution.coeff.pOrder = exactBasisFuncs - 1
- self.solution.mesh = np.linspace(0, 1, exactNumEle + 1)
- # approximate the exact solution
- self.exactSol = self.solution.solveLocal(
- )[0][exactNumEle * exactBasisFuncs - 1]
- def errorL2(self):
- errorL2 = 0.
- numEle = self.solution.coeff.numEle
- numBasisFuncs = self.solution.coeff.pOrder + 1
- # solve on the uniform mesh
- self.solution.mesh = np.linspace(0, 1, numEle + 1)
- U = self.solution.solveLocal()[0]
- errorL2 = np.abs(U[numBasisFuncs * numEle - 1] - self.exactSol)
- return errorL2
- def uniConv(self):
- numBasisFuncs = np.arange(2, 3)
- numEle = 2**np.arange(1, 9)
- uniError = np.zeros((numEle.size, numBasisFuncs.size))
- for i in range(numBasisFuncs.size):
- self.solution.coeff.pOrder = numBasisFuncs[i] - 1
- for j, n in enumerate(numEle):
- self.solution.coeff.numEle = n
- uniError[j, i] = self.errorL2()
- return numEle, uniError
- def convHistory(self):
- """Plot the uniform and adaptive convergence history"""
- plt.figure(2)
- trueErrorList = self.solution.trueErrorList
- estErrorList = self.solution.estErrorList
- plt.loglog(trueErrorList[0],
- trueErrorList[1], '-ro')
- numEle, errorL2 = self.uniConv()
- plt.loglog(numEle, errorL2, '-o')
- plt.loglog(estErrorList[0],
- estErrorList[1], '--', color='#1f77b4')
- plt.xlabel('Number of elements', fontsize=17)
- plt.ylabel('Error', fontsize=17)
- plt.grid()
- plt.legend(('Adaptive', 'Uniform', 'Estimator'), loc=3, fontsize=15)
- plt.show()
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