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setplot_for_paper.py.html |
clawcode2html
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Source file: setplot_for_paper.py
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Directory: /Users/rjl/rjlsvn/papers/pathconwb10/code
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Converted: Sat Jan 9 2010 at 12:05:19
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This documentation file will
not reflect any later changes in the source file.
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"""
Set up the plot figures, axes, and items to be done for each frame.
This module is imported by the plotting routines and then the
function setplot is called to set the plot parameters.
"""
# Set advection velocity:
import os
from pyclaw.data import Data
try:
probdata = Data('setprob.data')
u = probdata.u
except:
print "*** Error reading u from setprob.data in ", os.getcwd()
# Import fcns module that should have been created using f2py and
# that defines the function qtrue for the true solution:
try:
import fcns
reload(fcns) # in case user changed values
qtrue = fcns.qtrue
except:
print "*** Cannot evaluate qtrue.... "
print "*** Module fcns missing, need to execute:"
print " f2py -c fcns.f -m fcns"
#--------------------------
def setplot(plotdata):
#--------------------------
"""
Specify what is to be plotted at each frame.
Input: plotdata, an instance of pyclaw.plotters.data.ClawPlotData.
Output: a modified version of plotdata.
"""
plotdata.clearfigures() # clear any old figures,axes,items data
# Figure for q[0]
plotfigure = plotdata.new_plotfigure(name='q[0]', figno=1)
plotfigure.kwargs={'figsize': (8,4)}
# Set up for axes in this figure:
plotaxes = plotfigure.new_plotaxes()
plotaxes.xlimits = 'auto'
plotaxes.ylimits = [-0.2, 2.0]
plotaxes.title = 'Solution'
# Set up for item on these axes:
plotitem = plotaxes.new_plotitem(plot_type='1d_plot')
plotitem.plot_var = 0
plotitem.plotstyle = '-o'
plotitem.color = 'b'
plotitem.kwargs = {'linewidth':2}
plotitem.show = True # show on plot?
#------------------------------------------
# Error plot:
plotfigure = plotdata.new_plotfigure(name='q[1]', figno=2)
plotfigure.show = False
plotaxes.afteraxes = add_true
# Set up for axes in this figure:
plotaxes = plotfigure.new_plotaxes()
#plotaxes.axescmd = 'subplot(212)'
plotaxes.xlimits = 'auto'
plotaxes.ylimits = 'auto'
plotaxes.title = 'Error'
plotaxes.afteraxes = plot_x_axis
# Set up for item on these axes:
plotitem = plotaxes.new_plotitem(plot_type='1d_plot')
plotitem.plot_var = error
plotitem.plotstyle = '-'
plotitem.color = 'r'
plotitem.kwargs = {'linewidth':2}
plotitem.show = True # show on plot?
#------------------------------------------
# Parameters used only when creating html and/or latex hardcopy
# e.g., via pyclaw.plotters.frametools.printframes:
plotdata.printfigs = True # print figures
plotdata.print_format = 'png' # file format
plotdata.print_framenos = 'all' # list of frames to print
plotdata.print_fignos = 'all' # list of figures to print
plotdata.html = True # create html files of plots?
plotdata.html_homelink = '../README.html'
plotdata.latex = True # create latex file of plots?
plotdata.latex_figsperline = 2 # layout of plots
plotdata.latex_framesperline = 1 # layout of plots
plotdata.latex_makepdf = False # also run pdflatex?
return plotdata
def error(current_data):
q0 = current_data.q[:,0]
qt = current_data.q[:,1]
return q0-qt
def plot_x_axis(current_data):
from pylab import hold,plot
xlower = current_data.xlower
xupper = current_data.xupper
plot([xlower,xupper], [0.,0.], 'k')
def add_true(current_data):
from pylab import hold,plot,linspace,array,text
xlower = current_data.xlower
xupper = current_data.xupper
t = current_data.t
x = linspace(xlower,xupper,1001)
qt = []
for i in range(len(x)):
qt.append(qtrue(x[i],t,u))
qt = array(qt)
plot(x,qt,'r',linewidth=2)
plot_x_axis(current_data)
err = error(current_data) # pointwise error on grid
errmax = max(abs(err))
dx = current_data.x[1] - current_data.x[0]
err1 = dx * sum(abs(err))
text(1,1.6,'Max Error = %9.3e' % errmax, fontsize=20)
text(1,1.3,'L1 Error = %9.3e' % err1, fontsize=20)