source: production/onslow_2006/MOST_timeseries.py @ 3330

"""
Generate latex output comparing time series of given sww files

Inputs:

production dirs: dictionary of output directories with a
                 association to simulation, eg 50m boundary, 100m boundary

gauge_map:       graphical output from make_gauges.py

Outputs:

* latex output to generate figures for report 
* figures used for report stored in the report_figure directory
NOTE, this directory will need to be committed, as well as
the latex files.

June 2006                    
"""

from os import sep, getcwd, F_OK, access, mkdir
import project
from pyvolution.util import sww2timeseries, get_gauges_from_file

# User defined inputs
production_dirs = {'20060515_001733': '100m boundary',
                   '20060530_102753': '50m boundary'}#,
                   #'MOST': 'MOST'}

gauge_map = 'boundarycomparison.png'

# Create sections and graphs for each designated production directory
latex_output = []
swwfiles = {}
for label_id in production_dirs.keys():
    
    file_loc = project.outputdir + label_id + sep
    swwfile = file_loc + project.basename + '.sww'
    if label_id == 'MOST':
        swwfile = project.boundarydir + project.boundary_basename + '.sww'
    swwfiles[swwfile] = label_id

print 'swwfiles', swwfiles

texname, vec = sww2timeseries(swwfiles,
                              project.gauges50,#project.gauge_comparison,
                              production_dirs,
                              report = True,
                              reportname = 'latexoutput_MOST_ANUGA_comparison',
                              plot_quantity = ['stage', 'speed'],
                              surface = False,
                              time_min = None,
                              time_max = None,
                              title_on = False,
                              verbose = True)

latex_output.append(texname)

from shutil import copy, move
copy ('report' + sep + texname + '.tex', project.comparereportdir + sep + texname + '.tex')

# Start report generation
input_name = project.comparereportdir + sep + 'MOST_ANUGA_comparison_onslow.tex'
fid = open(input_name, 'w')

s = '\\begin{figure}[hbt] \n \centerline{ \includegraphics[width=150mm, height=100mm]{../report_figures/%s}}' %gauge_map
fid.write(s)

s  = """
\caption{Point locations used to compare MOST and ANUGA for Onslow region.}  
\label{fig:comparisonpoints}
\end{figure}
"""
fid.write(s)
    
s = '\input{%s} \n \clearpage \n \n' %latex_output[0]
fid.write(s)


# Generate latex output for location points
#s = '\\begin{table} \label{table:MOSTlocationsonslow} \n'
#fid.write(s)
#s = '\caption{Defined point locations for comparison study for Onslow region.}' 
#fid.write(s)
#s = """
#\\begin{center}
#\\begin{tabular}{|l|l|l|l|}\hline
#\\bf{Point Name} & \\bf{Easting} & \\bf{Northing} & \\bf{Elevation (m)}\\\\ \hline
#"""
#fid.write(s)

#for i, thisvec in enumerate(vec):
#    name = thisvec[0]
#    east = thisvec[1]
#    north = thisvec[2]
#    elev = thisvec[3]
#    s = '%s & %.2f & %.2f & %.2f \\\\ \hline \n' %(name, east, north, elev)
#    fid.write(s)
#    for which_one in plot_quantity:
#        move ('report_figures' + sep + 'gauge'+name.replace(' ','')+which_one+'.png', project.comparereportfigdir)

#s = '\\end{tabular} \n  \end{center} \n \end{table} \n \n'
#fid.write(s)