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Commit 581100ec by Jigyasa Watwani
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fixed linear growth

parent 2ef9e252
Inline Side-by-side
Showing with 35 additions and 14 deletions
growing_domain/diffusion_on_growing_domain.py
......@@ -13,22 +13,27 @@ class GrowthDiffusion(object):
for key in parameters:
setattr(self, key, parameters[key])
# choose growth model
if self.growth=='none':
self.sigma = df.Constant(0.0)
elif self.growth=='linear':
self.sigma = df.Expression('b/(L0 + b*t)',
b=self.growth_parameter, L0=self.system_size, degree=1)
elif self.growth=='exponential':
self.sigma = df.Constant(self.growth_parameter)
# set up mesh
# and define the growth velocity field
if self.dimension==1:
self.velocity = df.Expression(('s*x[0]',), s=self.sigma, degree=1)
if self.growth=='none':
self.velocity = df.Expression(('s*x[0]',), s=df.Constant(0), t=0, degree=0)
if self.growth == 'linear':
self.velocity = df.Expression(('b*x[0]/(L0 + b*t)',), b = self.growth_parameter, L0=self.system_size, t=0, degree=0)
if self.growth=='exponential':
self.velocity = df.Expression(('s*x[0]'), s=df.Constant(self.growth_parameter), t=0, degree=0)
self.mesh = df.IntervalMesh(self.resolution, 0, self.system_size)
elif self.dimension==2:
self.velocity = df.Expression(('s*x[0]', 's*x[1]'), s=self.sigma, degree=1)
if self.growth=='none':
self.velocity = df.Expression(('s*x[0]','s*x[1]'), s=df.Constant(0), t=0, degree=0)
if self.growth == 'linear':
self.velocity = df.Expression(('b*x[0]/(L0 + b*t)','b*x[1]/(L0 + b*t)'), b = self.growth_parameter, L0=self.system_size, t=0, degree=0)
if self.growth=='exponential':
self.velocity = df.Expression(('s*x[0]', 's*x[1]'), s=df.Constant(self.growth_parameter), t=0, degree=0)
points, cells = meshzoo.disk(self.resolution, 2*self.resolution)
points *= self.system_size
self.mesh = df.Mesh()
......@@ -49,7 +54,7 @@ class GrowthDiffusion(object):
self.c0 = df.Function(self.SFS)
tc = df.TestFunction(self.SFS)
self.velocity.t = 0
# self.velocity.t = 0
self.vel = df.project(self.velocity, self.VFS)
self.form = ( df.inner((self.c-self.c0)/self.timestep, tc)
+ df.inner(df.div(self.vel*self.c0), tc)
......@@ -58,7 +63,12 @@ class GrowthDiffusion(object):
def solve(self):
times = np.arange(0, self.maxtime+self.timestep, self.timestep)
cFile = df.XDMFFile('concentration.xdmf')
if self.growth =='linear':
cFile = df.XDMFFile('concentration_linear.xdmf')
elif self.growth == 'exponential':
cFile = df.XDMFFile('concentration_exponential.xdmf')
elif self.growth == 'none':
cFile = df.XDMFFile('concentration_no_growth.xdmf')
# initial condition
if self.dimension==1:
......@@ -69,7 +79,13 @@ class GrowthDiffusion(object):
pi=np.pi, m=2, L=self.system_size, degree=1)
self.c0.assign(df.project(c0, self.SFS))
# save data
cFile.write_checkpoint(self.c0, 'concentration', 0.0)
if self.growth=='linear':
cFile.write_checkpoint(self.c0, 'concentration_linear', 0.0)
elif self.growth=='exponential':
cFile.write_checkpoint(self.c0, 'concentration_exponential', 0.0)
elif self.growth == 'none':
cFile.write_checkpoint(self.c0, 'concentration_no_growth', 0.0)
# time stepping
for i in progressbar.progressbar(range(1, len(times))):
# get velocity
......@@ -80,7 +96,12 @@ class GrowthDiffusion(object):
# update
self.c0.assign(self.c)
# save data
cFile.write_checkpoint(self.c0, 'concentration', times[i], append=True)
if self.growth=='linear':
cFile.write_checkpoint(self.c0, 'concentration_linear', times[i], append=True)
elif self.growth =='exponential':
cFile.write_checkpoint(self.c0, 'concentration_exponential', times[i], append=True)
elif self.growth == 'none':
cFile.write_checkpoint(self.c0, 'concentration_no_growth', times[i], append=True)
# move mesh
displacement = df.project(self.vel*self.timestep, self.VFS)
df.ALE.move(self.mesh, displacement)
......
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