def main():
global srcsite, dstsite
usage = "usage: %prog [options] <fss> <src URL> <dst URL>"
parser = optparse.OptionParser(usage=usage)
parser.add_option
parser.add_option("-u", "--user", default="admin",
help="Plone user")
parser.add_option("-p", "--password", default="leam4z",
help="Plone user's password")
(opts, args) = parser.parse_args()
if len(args) != 3:
parser.error("the URL and the fss path are required")
else:
fss, src, dst = args
srcsite = LEAMsite(src, user=opts.user, passwd=opts.password)
if srcsite.error:
parser.error("the URL '%s' is not a valid site" % src)
dstsite = LEAMsite(dst, user=opts.user, passwd=opts.password)
if dstsite.error:
parser.error("the URL '%s' is not a valid site" % dst)
walk(fss, processFSS, (fss, src, dst))
def main():
# The system stdout and stderr will be in /leam/scratch/<scenarioname>/<scenarioname>.log
jobstart = time.asctime()
os.environ['PATH'] = ':'.join(['./bin', os.environ.get('BIN', '.'),'/bin', '/usr/bin'])
configurl, user, password = parseFlags()
print "Parsing configuration file.............\n"
configfile = get_config(configurl, user, password)
luc = LUC(configfile)
print luc.growthmap[0]
# luc has sorted luc.growthmap(drivers) in year and luc.growth(projections)
print "Setting up GRASS environment.............\n"
get_grassfolder(luc.scenario['grass_loc'], user, password)
grasssetup.grassConfig()
global grass
grass = grasssetup.grass
print "Connect to the LEAM storage server............."
resultsdir = luc.scenario['results']
print resultsdir, '\n'
title = luc.scenario['title']
global site, runlog # run.log will be stored in Log repository
site = LEAMsite(resultsdir, user=user, passwd=password)
#create runlog file
site.createFolder("RunLog", resultsdir)
runlog = RunLog(resultsdir+"/runlog", site, initmsg='Scenario ' + title)
runlog.p('started at '+jobstart)
# creat two folders
site.createFolder("Details", resultsdir)
site.createFolder("Results", resultsdir)
global projectiontable
projectiontable = ProjTable()
growth = dict(deltapop=[0.0], deltaemp=[0.0])
if luc.growth: # note growthmap[0]...should change luc, using luc_new
runlog.h('Processing Growth driver set.............')
startyear, isprobmapcached = processDriverSets(luc.growthmap[0])
if not isprobmapcached:
runlog.h('Building Probability Maps..............')
runMulticostModel(resultsdir, site, runlog)
cacheProbmaps(luc.growthmap[0]['url'])
if luc.growthmap:
runlog.h('Processing Growth Projection set........')
demandstr = processProjectionSet(luc.growth[0])
genYearChangemap.executeGLUCModel(demandstr, title, runlog)
runlog.h('Publishing all results..............')
#wrap the simmap file to Results
publishResults(title, site, resultsdir+"/results")
def main():
# conection to the portal
global site
site = LEAMsite(resultsdir, user=sys.argv[1], passwd=sys.argv[2])
print "--upload pop_attr map..."
popattr_simmap = 'Data/pop_att.gtif'
popattr_mapfile = 'Outputs/pop_att.map'
popattrurl = site.putSimMap("popattr.tif", "popattr.map", url,
simmap_file=open(popattr_simmap, 'rb'),
mapfile_file=open(popattr_mapfile, 'rb'))
site.updateSimMap(popattrurl, title='popattr-autoColor',
description='interpolated attractionmap for population centers.\n \
Automatic Color works only for integer quantile values.')
def main():
# Sample variable values
# scenariotitle = 'test2_projection'
# resultsdir = 'http://portal.leam.illinois.edu/chicago/luc/scenarios/test4_scenario'
# demandgraphurl="http://portal.leam.illinois.edu/chicago/luc/projections/test2_projection/getGraph"
resultsdir = sys.argv[1]
scenariotitle = os.path.basename(resultsdir)
global site
global runlog
site = LEAMsite(resultsdir, user=sys.argv[2], passwd=sys.argv[3])
runlog = RunLog(resultsdir, site, initmsg='Scenario ' + scenariotitle)
demandgraphurl = sys.argv[4]
demandstr = site.getURL(demandgraphurl).getvalue()
executeGLUCModel(demandstr, scenariotitle, runlog)
def main():
# Sample variable values
# scenariotitle = 'test2_projection'
# resultsdir = 'http://portal.leam.illinois.edu/chicago/luc/scenarios/test4_scenario'
# demandgraphurl="http://portal.leam.illinois.edu/chicago/luc/projections/test2_projection/getGraph"
resultsdir = sys.argv[1]
scenariotitle = os.path.basename(resultsdir)
global site
global runlog
site = LEAMsite(resultsdir, user=sys.argv[2], passwd=sys.argv[3])
runlog = RunLog(resultsdir, site, initmsg='Scenario ' + scenariotitle)
demandgraphurl = sys.argv[4]
demandstr = site.getURL(demandgraphurl).getvalue()
executeGLUCModel(demandstr, scenariotitle, runlog)
def main():
# conection to the portal
global site
site = LEAMsite(resultsdir, user=sys.argv[1], passwd=sys.argv[2])
print "--upload pop_attr map..."
popattr_simmap = 'Data/pop_att.gtif'
popattr_mapfile = 'Outputs/pop_att.map'
popattrurl = site.putSimMap("popattr.tif",
"popattr.map",
url,
simmap_file=open(popattr_simmap, 'rb'),
mapfile_file=open(popattr_mapfile, 'rb'))
site.updateSimMap(
popattrurl,
title='popattr-autoColor',
description='interpolated attractionmap for population centers.\n \
Automatic Color works only for integer quantile values.')
def main():
f = open(sys.argv[1])
luc = LUC(f.read())
f.close()
site = LEAMsite('http://ewg.leamgroup.com')
base = luc.growth[0]['id']
print luc.growth[0]['layer']
site.getURL(luc.growth[0]['layer'], filename=base+'.layer.zip')
site.getURL(luc.growth[0]['graph'], filename=base+'.graph')
print "SCENARIO:", luc.scenario.keys()
print "GROWTH[0]:", luc.growth[0].keys()
print "GROWTH[0] GRAPH:", luc.growth[0]['graph']
print "GROWTHMAPS: len =", len(luc.growthmap)
print "GROWTHMAPS:", luc.growthmap[0].keys()
print "GROWTHMAPS nogrowth:", luc.growthmap[0]['nogrowth']
print "GROWTHMAPS: download=", luc.growthmap[0]['download']
print "DECLINE: len=", len(luc.decline),
print "DECLINE: len=", len(luc.declinemap),
def main():
f = open(sys.argv[1])
luc = LUC(f.read())
f.close()
site = LEAMsite('http://ewg.leamgroup.com')
base = luc.growth[0]['id']
print luc.growth[0]['layer']
#site.getURL(luc.growth[0]['layer'], filename=base+'.layer.zip')
site.getURL(luc.growth[0]['graph'], filename=base + '.graph')
print "SCENARIO:", luc.scenario.keys()
print "GROWTH[0]:", luc.growth[0].keys()
print "GROWTH[0] GRAPH:", luc.growth[0]['graph']
print "GROWTHMAPS: len =", len(luc.growthmap)
print "GROWTHMAPS:", luc.growthmap[0].keys()
print "GROWTHMAPS nogrowth:", luc.growthmap[0]['nogrowth']
print "GROWTHMAPS: download=", luc.growthmap[0]['download']
print "DECLINE: len=", len(luc.decline),
print "DECLINE: len=", len(luc.declinemap),
def main():
# The system stdout and stderr will be in /leam/scratch/<scenarioname>/<scenarioname>.log
jobstart = time.asctime()
os.environ['PATH'] = ':'.join(
['./bin', os.environ.get('BIN', '.'), '/bin', '/usr/bin'])
configurl, user, password = parseFlags()
print "Parsing configuration file.............\n"
configfile = get_config(configurl, user, password)
luc = LUC(configfile)
print luc.growthmap[0]
# luc has sorted luc.growthmap(drivers) in year and luc.growth(projections)
print "Setting up GRASS environment.............\n"
get_grassfolder(luc.scenario['grass_loc'], user, password)
grasssetup.grassConfig()
global grass
grass = grasssetup.grass
print "Connect to the LEAM storage server............."
resultsdir = luc.scenario['results']
print resultsdir, '\n'
title = luc.scenario['title']
global site, runlog # run.log will be stored in Log repository
site = LEAMsite(resultsdir, user=user, passwd=password)
#create runlog file
site.createFolder("RunLog", resultsdir)
runlog = RunLog(resultsdir + "/runlog", site, initmsg='Scenario ' + title)
runlog.p('started at ' + jobstart)
# creat two folders
site.createFolder("Details", resultsdir)
site.createFolder("Results", resultsdir)
global projectiontable
projectiontable = ProjTable()
growth = dict(deltapop=[0.0], deltaemp=[0.0])
if luc.growth: # note growthmap[0]...should change luc, using luc_new
runlog.h('Processing Growth driver set.............')
startyear, isprobmapcached = processDriverSets(luc.growthmap[0])
if not isprobmapcached:
runlog.h('Building Probability Maps..............')
runMulticostModel(resultsdir, site, runlog)
#open cache function temporarily
cacheProbmaps(luc.growthmap[0]['url'])
if luc.growthmap:
runlog.h('Processing Growth Projection set........')
demandstr = processProjectionSet(luc.growth[0])
genYearChangemap.executeGLUCModel(demandstr, title, runlog)
runlog.h('Publishing all results..............')
#wrap the simmap file to Results
publishResults(title, site, resultsdir + "/results")
def main():
sys.stdout = open('./Log/multicostModel.stdout.log', 'w')
sys.stderr = open('./Log/multicostModel.stderr.log', 'w')
# exportRaster('emp_centers4_47_98')
# importVector('Data/FID4_47_98', EMPCENTERS)
# print "list available raster maps in database..."
# grass.run_command('g.mlist', type='rast')
resultsdir = sys.argv[1]
user = sys.argv[2]
passwd = sys.argv[3]
site = LEAMsite(resultsdir, user, passwd)
global runlog
runlog = RunLog(resultsdir, site, initmsg='Scenario ' + scenariotitle)
runMulticostModel(user, passwd, runlog)
def main():
usage = "usage: %prog [options] <site URL>"
parser = optparse.OptionParser(usage=usage)
parser.add_option("-u", "--user",
default=os.environ.get('PORTAL_USER', ''),
help="Plone user")
parser.add_option("-p", "--password",
default=os.environ.get('PORTAL_PASSWORD', ''),
help="Plone user's password")
(opts, args) = parser.parse_args()
if len(args) != 1:
parser.error("the URL to the Plone site is required")
url = args[0]
site = LEAMsite(url, user=opts.user, passwd=opts.password)
if site.error:
parser.error("the URL is not a valid site")
top = site.createFolder("luc", url)
site.editFolder(top,
title="Land Use Model",
description="LEAM Land Use Change Model allows future land use "
"scenarios to be created and evaluated.",
)
scenarios = site.createFolder("scenarios", top)
site.editFolder(scenarios,
title="Scenarios",
description="Define and review scenarios in this folder. New "
"scenarios will automatically be run and results returned by "
"the modeling system."
)
projections = site.createFolder("projections", top)
site.editFolder(projections,
title="Projections",
description="Enter population and employment projection associated "
"with specific areas in this folder. The projection consist of "
"the projection rate by year, a region or zone, and population "
"and employment density maps."
)
subregional = site.createFolder("subregional", projections)
site.editFolder(subregional,
title="Subregional Maps",
description="Subregional maps identify different zones used within "
"the model. These maps can be used as part of a projection or "
"within impact models."
)
density = site.createFolder("density", projections)
site.editFolder(density,
title="Density Maps",
description="Density maps associated with projections. Maps "
"should include POPDENS field, EMPDENS field, or both."
)
drivers = site.createFolder("drivers", top)
site.editFolder(drivers,
title="Regional Drivers",
description="Enter a set of drivers that will be associated with "
"a specific probability map in this folder. The actual "
"probabilty map will be created during the model run."
)
transportation = site.createFolder("transportation", drivers)
site.editFolder(transportation,
title="Transportation Networks",
description="Transportation networks require two fields, FCLASS "
"and MINSPEED. FCLASS is the function class of the road. "
"MINSPEED represents the calculated speed at peak traffic times."
)
specials = site.createFolder("specials", drivers)
site.editFolder(specials,
title = "Special Drivers",
description="Special drivers provides a mechanism for directly "
"modifying the probability maps. "
)
nogrowth = site.createFolder("nogrowth", drivers)
site.editFolder(nogrowth,
title = "No Growth Maps",
description = "No growth layers are used to remove areas from "
"development. No special fields are required for this layer. "
"Any areas identified in 'no growth' layers will be ignored "
"by the model."
)
attractors = site.createFolder("attractors", drivers)
site.editFolder(attractors,
title="Regional Attractors",
description="Enter regional attractors such as cities and employment "
"centers in this folder. The cities layer is a point layer and "
"must have provide the population in field POP. The employment "
"layer should have the number of employees associated with each "
"employment center in the EMP field."
)
grids = site.createFolder("grids", drivers)
site.editFolder(grids,
title="Raster Data Layers",
description="""Land use maps, DEMs, and other raster data types."""
)
post = site.createFolder("post-processing", top)
site.editFolder(post,
title="Post-Processing",
description="Items placed in this folder will be executed "
"automatically when a new LUC scenario has be created. "
)
resources = site.createFolder("resources", top)
site.editFolder(resources,
title="Resources",
description="Resources useful during the modeling process."
)
def main():
usage = "usage: %prog [options] <site URL>"
parser = optparse.OptionParser(usage=usage)
parser.add_option("-u", "--user", default="", help="Plone user")
parser.add_option("-p",
"--password",
default="",
help="Plone user's password")
(opts, args) = parser.parse_args()
if len(args) != 1:
parser.error("the URL to the Plone site is required")
user = opts.user or os.environ.get('PORTAL_USER', '')
password = opts.password or os.environ.get('PORTAL_PASSWORD', '')
url = args[0]
site = LEAMsite(url, user=opts.user, passwd=opts.password)
if site.error:
parser.error("the URL is not a valid site")
top = site.createFolder("luc", url)
site.editFolder(
top,
title="Land Use Model",
description="LEAM Land Use Change Model allows future land use "
"scenarios to be created and evaluated.",
)
scenarios = site.createFolder("scenarios", top)
site.editFolder(
scenarios,
title="Scenarios",
description="Define and review scenarios in this folder. New "
"scenarios will automatically be run and results returned by "
"the modeling system.")
projections = site.createFolder("projections", top)
site.editFolder(
projections,
title="Subregional Projections",
description="Enter population and employment projection associated "
"with specific areas in this folder. The projection may "
"contains zones, population and employment densities.")
subregional = site.createFolder("subregional", projections)
site.editFolder(
subregional,
title="Subregional Maps",
description="Subregional maps identify different zones used within "
"the model. These maps can be used as part of a projection or "
"within impact models.")
density = site.createFolder("density", projections)
site.editFolder(
density,
title="Density Maps",
description="Density maps associated with projections. Maps "
"should include POPDENS field, EMPDENS field, or both.")
drivers = site.createFolder("drivers", top)
site.editFolder(
drivers,
title="Regional Drivers",
description="Enter a set of drivers that will be associated with "
"a specific probability map in this folder. The actual "
"probabilty map will be created during the model run.")
transportation = site.createFolder("transportation", drivers)
site.editFolder(
transportation,
title="Transportation Networks",
description="Transportation networks require two fields, FCLASS "
"and MINSPEED. FCLASS is the function class of the road. "
"MINSPEED represents the calculated speed at peak traffic times.")
specials = site.createFolder("specials", drivers)
site.editFolder(
specials,
title="Special Drivers",
description="Special drivers provides a mechanism for directly "
"modifying the probability maps. ")
nogrowth = site.createFolder("nogrowth", drivers)
site.editFolder(
nogrowth,
title="No Growth Maps",
description="No growth layers are used to remove areas from "
"development. No special fields are required for this layer. "
"Any areas identified in 'no growth' layers will be ignored "
"by the model.")
attractors = site.createFolder("attractors", drivers)
site.editFolder(
attractors,
title="Regional Attractors",
description="Enter regional attractors such as cities and employment "
"centers in this folder. The cities layer is a point layer and "
"must have provide the population in field POP. The employment "
"layer should have the number of employees associated with each "
"employment center in the EMP field.")
grids = site.createFolder("grids", drivers)
site.editFolder(
grids,
title="Raster Data Layers",
description="""Land use maps, DEMs, and other raster data types.""")
post = site.createFolder("post-processing", top)
site.editFolder(post,
title="Post-Processing",
description="Items placed in this folder will be executed "
"automatically when a new LUC scenario has be created. ")
resources = site.createFolder("resources", top)
site.editFolder(
resources,
title="Resources",
description="Resources useful during the modeling process.")
