#module imports {{{
from mesh import mesh
from mask import mask
from geometry import geometry
from constants import constants
from surfaceforcings import surfaceforcings
from basalforcings import basalforcings
from materials import materials
from friction import friction
from flowequation import flowequation
from timestepping import timestepping
from initialization import initialization
from rifts import rifts
from debug import debug
from verbose import verbose
from settings import settings
from solver import solver
from none import none
from balancethickness import balancethickness
from diagnostic import diagnostic
from groundingline import groundingline
from hydrology import hydrology
from prognostic import prognostic
from thermal import thermal
from steadystate import steadystate
from transient import transient
from autodiff import autodiff
from flaim import flaim
from inversion import inversion
from qmu import qmu
from radaroverlay import radaroverlay
from miscellaneous import miscellaneous
from private import private
#}}}
class model:
	#properties
	def __init__(self):
		# {{{ Properties
		self.mesh             = mesh()
		self.mask             = mask()
		self.geometry         = geometry()
		self.constants        = constants()
		self.surfaceforcings  = surfaceforcings()
		self.basalforcings    = basalforcings()
		self.materials        = materials()
		self.friction         = friction()
		self.flowequation     = flowequation()
		self.timestepping     = timestepping()
		self.initialization   = initialization()
		self.rifts            = rifts()

		self.debug            = debug()
		self.verbose          = verbose()
		self.settings         = settings()
		self.solver           = solver()
		self.cluster          = none()

		self.balancethickness = balancethickness()
		self.diagnostic       = diagnostic()
		self.groundingline    = groundingline()
		self.hydrology        = hydrology()
		self.prognostic       = prognostic()
		self.thermal          = thermal()
		self.steadystate      = steadystate()
		self.transient        = transient()

		self.autodiff         = autodiff()
		self.flaim            = flaim()
		self.inversion        = inversion()
		self.qmu              = qmu()

		self.results          = [];
		self.radaroverlay     = radaroverlay()
		self.miscellaneous    = miscellaneous()
		self.private          = private()
		#}}}
	def __repr__(obj):
		# {{{ Display

		#print "Here %s the number: %d" % ("is", 37)
		string="%19s: %-22s -- %s" % ("mesh","[%s,%s]" % ("1x1",obj.mesh.__class__.__name__),"mesh properties")
		string="%s\n%s" % (string,"%19s: %-22s -- %s" % ("mask","[%s,%s]" % ("1x1",obj.mask.__class__.__name__),"defines grounded and floating elements"))
		string="%s\n%s" % (string,"%19s: %-22s -- %s" % ("geometry","[%s,%s]" % ("1x1",obj.geometry.__class__.__name__),"surface elevation, bedrock topography, ice thickness,..."))
		string="%s\n%s" % (string,"%19s: %-22s -- %s" % ("constants","[%s,%s]" % ("1x1",obj.constants.__class__.__name__),"physical constants"))
		string="%s\n%s" % (string,"%19s: %-22s -- %s" % ("surfaceforcings","[%s,%s]" % ("1x1",obj.surfaceforcings.__class__.__name__),"surface forcings"))
		string="%s\n%s" % (string,"%19s: %-22s -- %s" % ("basalforcings","[%s,%s]" % ("1x1",obj.basalforcings.__class__.__name__),"bed forcings"))
		string="%s\n%s" % (string,"%19s: %-22s -- %s" % ("materials","[%s,%s]" % ("1x1",obj.materials.__class__.__name__),"material properties"))
		string="%s\n%s" % (string,"%19s: %-22s -- %s" % ("friction","[%s,%s]" % ("1x1",obj.friction.__class__.__name__),"basal friction/drag properties"))
		string="%s\n%s" % (string,"%19s: %-22s -- %s" % ("flowequation","[%s,%s]" % ("1x1",obj.flowequation.__class__.__name__),"flow equations"))
		string="%s\n%s" % (string,"%19s: %-22s -- %s" % ("timestepping","[%s,%s]" % ("1x1",obj.timestepping.__class__.__name__),"time stepping for transient models"))
		string="%s\n%s" % (string,"%19s: %-22s -- %s" % ("initialization","[%s,%s]" % ("1x1",obj.initialization.__class__.__name__),"initial guess/state"))
		string="%s\n%s" % (string,"%19s: %-22s -- %s" % ("rifts","[%s,%s]" % ("1x1",obj.rifts.__class__.__name__),"rifts properties'"))
		string="%s\n%s" % (string,"%19s: %-22s -- %s" % ("debug","[%s,%s]" % ("1x1",obj.debug.__class__.__name__),"debugging tools (valgrind, gprof"))
		string="%s\n%s" % (string,"%19s: %-22s -- %s" % ("verbose","[%s,%s]" % ("1x1",obj.verbose.__class__.__name__),"verbosity level in solve"))
		string="%s\n%s" % (string,"%19s: %-22s -- %s" % ("settings","[%s,%s]" % ("1x1",obj.settings.__class__.__name__),"settings properties"))
		string="%s\n%s" % (string,"%19s: %-22s -- %s" % ("solver","[%s,%s]" % ("1x1",obj.solver.__class__.__name__),"PETSc options for each solution'"))
		string="%s\n%s" % (string,"%19s: %-22s -- %s" % ("cluster","[%s,%s]" % ("1x1",obj.cluster.__class__.__name__),"cluster parameters (number of cpus...)"))
		string="%s\n%s" % (string,"%19s: %-22s -- %s" % ("balancethickness","[%s,%s]" % ("1x1",obj.balancethickness.__class__.__name__),"parameters for balancethickness solution"))
		string="%s\n%s" % (string,"%19s: %-22s -- %s" % ("diagnostic","[%s,%s]" % ("1x1",obj.diagnostic.__class__.__name__),"parameters for diagnostic solution"))
		string="%s\n%s" % (string,"%19s: %-22s -- %s" % ("groundingline","[%s,%s]" % ("1x1",obj.groundingline.__class__.__name__),"parameters for groundingline solution"))
		string="%s\n%s" % (string,"%19s: %-22s -- %s" % ("hydrology","[%s,%s]" % ("1x1",obj.hydrology.__class__.__name__),"parameters for hydrology solution"))
		string="%s\n%s" % (string,"%19s: %-22s -- %s" % ("prognostic","[%s,%s]" % ("1x1",obj.prognostic.__class__.__name__),"parameters for prognostic solution"))
		string="%s\n%s" % (string,"%19s: %-22s -- %s" % ("thermal","[%s,%s]" % ("1x1",obj.thermal.__class__.__name__),"parameters for thermal solution"))
		string="%s\n%s" % (string,"%19s: %-22s -- %s" % ("steadystate","[%s,%s]" % ("1x1",obj.steadystate.__class__.__name__),"parameters for steadystate solution"))
		string="%s\n%s" % (string,"%19s: %-22s -- %s" % ("transient","[%s,%s]" % ("1x1",obj.transient.__class__.__name__),"parameters for transient solution"))
		string="%s\n%s" % (string,"%19s: %-22s -- %s" % ("autodiff","[%s,%s]" % ("1x1",obj.autodiff.__class__.__name__),"automatic differentiation parameters"))
		string="%s\n%s" % (string,"%19s: %-22s -- %s" % ("flaim","[%s,%s]" % ("1x1",obj.flaim.__class__.__name__),"flaim parameters"))
		string="%s\n%s" % (string,"%19s: %-22s -- %s" % ("inversion","[%s,%s]" % ("1x1",obj.inversion.__class__.__name__),"parameters for inverse methods"))
		string="%s\n%s" % (string,"%19s: %-22s -- %s" % ("qmu","[%s,%s]" % ("1x1",obj.qmu.__class__.__name__),"dakota properties"))
		string="%s\n%s" % (string,"%19s: %-22s -- %s" % ("results","[%s,%s]" % ("1x1",obj.results.__class__.__name__),"model results'"))
		string="%s\n%s" % (string,"%19s: %-22s -- %s" % ("radaroverlay","[%s,%s]" % ("1x1",obj.radaroverlay.__class__.__name__),"radar image for plot overlay"))
		string="%s\n%s" % (string,"%19s: %-22s -- %s" % ("miscellaneous","[%s,%s]" % ("1x1",obj.miscellaneous.__class__.__name__),"miscellaneous fields"))
		string="%s\n%s" % (string,"%19s: %-22s -- %s" % ("miscellaneous","[%s,%s]" % ("1x1",obj.miscellaneous.__class__.__name__),"miscellaneous fields"))
		return string;
		 #}}}