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Week6: Wrap up: still the same error

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Eric Teunis de Boone 2 years ago
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commit
160abf9d46
  1. 88
      week6/ex1.py

88
week6/ex1.py

@ -2,30 +2,23 @@
import numpy as np
def pdeHyperbolic(a, x, t, f, g = None, dtype=np.float64):
def pdeHyperbolic(a, x, t, f, g, dtype=np.float64):
""" Solve a Hyperbolic Partial Differential using finite differences. """
m = len(x) # Amount of objects to track
n = len(t) # Length of Time Vector
# Determine stepsizes
h = 1
if m > 1:
h = x[0] - x[1]
k = 1
if n > 1:
k = t[0] - t[1]
h = x[0] - x[1]
k = t[0] - t[1]
λ_sq = (a*k/h)**2
# Create array to hold the solution
w = np.zeros((n,m), dtype=dtype)
# Create finite difference matrix
A = np.diag(m*[2*(1 - λ_sq)], k=0) + np.diag((m-1)*[λ_sq], k=-1) + np.diag((m-1)*[λ_sq], k=1)
print(A)
# Initialise first two timesteps
w[0] = f(x, t[0])
@ -38,16 +31,13 @@ def pdeHyperbolic(a, x, t, f, g = None, dtype=np.float64):
return w
def test_pdeHyperbolic_case1(m=1e2, n=1e3,l=1, T=1):
def test_pdeHyperbolic_case1(x_steps=1e2, t_steps=1e2, max_x=1, max_t=1):
a = 1 # from the Schroedinger Equation
# Setup spatial and time grids
x = np.linspace(0, l, m)
t = np.linspace(0, T, n)
x = np.linspace(0, max_x, x_steps)
t = np.linspace(0, max_t, t_steps)
# Boundary conditions
def f(x,t):
@ -60,43 +50,18 @@ def test_pdeHyperbolic_case1(m=1e2, n=1e3,l=1, T=1):
sol = pdeHyperbolic(a, x, t, f, g)
# Plot it with the exact solution
exact_sol = lambda x,t: np.sin(2*np.pi*x)*(np.cos(2*np.pi*t) + np.sin(2*np.pi*t))
t_high_res = np.linspace(0, T, n * 1e4)
exact_f = lambda x,t: np.sin(2*np.pi*x)*(np.cos(2*np.pi*t) + np.sin(2*np.pi*t))
from matplotlib import pyplot
from matplotlib import animation as anim
fig, _ = pyplot.subplots()
plot_animation(x, sol, func=exact_f)
if False:
for _, x_i in enumerate(x):
pyplot.plot(t_high_res, exact_sol(x_i, t_high_res), label="Exact")
pyplot.plot(t, sol[:,1], label="iter")
pyplot.grid()
pyplot.xlabel("t")
pyplot.ylabel("w")
else:
def animate(i):
pyplot.clf()
pyplot.ylim(-2, 2)
pyplot.grid()
pyplot.plot(x, exact_sol(x, t[i]), label="exact")
pyplot.plot(x, sol[i,:], label="iter")
frames = np.arange(1, n, dtype=np.int)
myAnim = anim.FuncAnimation(fig, animate, frames, interval = 10 )
pyplot.legend()
pyplot.show()
def test_pdeHyperbolic_case2(m=200, n=400, l=1, T=1):
def test_pdeHyperbolic_case2(x_steps=2e2, t_steps=4e2, max_x=1, max_t=1):
a = 1 # from the Schroedinger Equation
# Setup spatial and time grids
x = np.linspace(0, l, m)
t = np.linspace(0, T, n)
x = np.linspace(0, max_x, x_steps)
t = np.linspace(0, max_t, t_steps)
# Boundary conditions
def f(x,t):
@ -108,24 +73,37 @@ def test_pdeHyperbolic_case2(m=200, n=400, l=1, T=1):
# Solve it
sol = pdeHyperbolic(a, x, t, f, g)
plot_animation(x, sol)
def plot_animation(x, sol, func=None, interval = 10):
from matplotlib import pyplot
from matplotlib import animation as anim
fig, _ = pyplot.subplots()
def animate(i):
pyplot.clf()
pyplot.grid()
pyplot.ylim(-1.5,1.5)
pyplot.ylim(-1.5, 1.5)
pyplot.title('t = {}/{}'.format(i, len(sol)))
#if func is not None:
# pyplot.plot(x, func(x, sol[i]), label='exact')
pyplot.plot(x, sol[i,:], label="iter")
frames = np.arange(1, n)
myAnim = anim.FuncAnimation(fig, animate, frames, interval = 5 )
pyplot.legend()
pyplot.show()
frames = np.arange(0, len(sol))
try:
myAnim = anim.FuncAnimation(fig, animate, frames, interval = interval )
pyplot.legend()
pyplot.show()
except AttributeError:
# This final error is fugly
pass
if __name__ == "__main__":
#test_pdeHyperbolic_case1()
test_pdeHyperbolic_case2()
test_pdeHyperbolic_case1()
#test_pdeHyperbolic_case2()