"""
mfupw module. Contains the ModflowUpw class. Note that the user can access
the ModflowUpw class as `flopy.modflow.ModflowUpw`.
Additional information for this MODFLOW package can be found at the `Online
MODFLOW Guide
<http://water.usgs.gov/ogw/modflow-nwt/MODFLOW-NWT-Guide/upw_upstream_weighting_package.htm>`_.
"""
import sys
import numpy as np
from .mfpar import ModflowPar as mfpar
from ..pakbase import Package
from ..utils import Util2d, Util3d, read1d
from ..utils.flopy_io import line_parse
[docs]class ModflowUpw(Package):
"""
Upstream weighting package class
Parameters
----------
model : model object
The model object (of type :class:`flopy.modflow.mf.Modflow`) to which
this package will be added.
ipakcb : int
A flag that is used to determine if cell-by-cell budget data should be
saved. If ipakcb is non-zero cell-by-cell budget data will be saved.
(default is 0).
hdry : float
Is the head that is assigned to cells that are converted to dry during
a simulation. Although this value plays no role in the model
calculations, it is useful as an indicator when looking at the
resulting heads that are output from the model. HDRY is thus similar
to HNOFLO in the Basic Package, which is the value assigned to cells
that are no-flow cells at the start of a model simulation. (default
is -1.e30).
iphdry : int
iphdry is a flag that indicates whether groundwater head will be set
to hdry when the groundwater head is less than 0.0001 above the cell
bottom (units defined by lenuni in the discretization package). If
iphdry=0, then head will not be set to hdry. If iphdry>0, then head
will be set to hdry. If the head solution from one simulation will be
used as starting heads for a subsequent simulation, or if the
Observation Process is used (Harbaugh and others, 2000), then hdry
should not be printed to the output file for dry cells (that is, the
upw package input variable should be set as iphdry=0). (default is 0)
noparcheck : bool
noparcheck turns off the checking that a value is defined for all
cells when parameters are used to define layer data.
laytyp : int or array of ints (nlay)
Layer type (default is 0).
layavg : int or array of ints (nlay)
Layer average (default is 0).
0 is harmonic mean
1 is logarithmic mean
2 is arithmetic mean of saturated thickness and logarithmic mean of
of hydraulic conductivity
chani : float or array of floats (nlay)
contains a value for each layer that is a flag or the horizontal
anisotropy. If CHANI is less than or equal to 0, then variable HANI
defines horizontal anisotropy. If CHANI is greater than 0, then CHANI
is the horizontal anisotropy for the entire layer, and HANI is not
read. If any HANI parameters are used, CHANI for all layers must be
less than or equal to 0. Use as many records as needed to enter a
value of CHANI for each layer. The horizontal anisotropy is the ratio
of the hydraulic conductivity along columns (the Y direction) to the
hydraulic conductivity along rows (the X direction).
layvka : int or array of ints (nlay)
a flag for each layer that indicates whether variable VKA is vertical
hydraulic conductivity or the ratio of horizontal to vertical
hydraulic conductivity.
laywet : int or array of ints (nlay)
contains a flag for each layer that indicates if wetting is active.
laywet should always be zero for the UPW Package because all cells
initially active are wettable.
hk : float or array of floats (nlay, nrow, ncol)
is the hydraulic conductivity along rows. HK is multiplied by
horizontal anisotropy (see CHANI and HANI) to obtain hydraulic
conductivity along columns. (default is 1.0).
hani : float or array of floats (nlay, nrow, ncol)
is the ratio of hydraulic conductivity along columns to hydraulic
conductivity along rows, where HK of item 10 specifies the hydraulic
conductivity along rows. Thus, the hydraulic conductivity along
columns is the product of the values in HK and HANI.
(default is 1.0).
vka : float or array of floats (nlay, nrow, ncol)
is either vertical hydraulic conductivity or the ratio of horizontal
to vertical hydraulic conductivity depending on the value of LAYVKA.
(default is 1.0).
ss : float or array of floats (nlay, nrow, ncol)
is specific storage unless the STORAGECOEFFICIENT option is used.
When STORAGECOEFFICIENT is used, Ss is confined storage coefficient.
(default is 1.e-5).
sy : float or array of floats (nlay, nrow, ncol)
is specific yield. (default is 0.15).
vkcb : float or array of floats (nlay, nrow, ncol)
is the vertical hydraulic conductivity of a Quasi-three-dimensional
confining bed below a layer. (default is 0.0).
extension : string
Filename extension (default is 'upw')
unitnumber : int
File unit number (default is None).
filenames : str or list of str
Filenames to use for the package and the output files. If
filenames=None the package name will be created using the model name
and package extension and the cbc output name will be created using
the model name and .cbc extension (for example, modflowtest.cbc),
if ipakcbc is a number greater than zero. If a single string is passed
the package will be set to the string and cbc output name will be
created using the model name and .cbc extension, if ipakcbc is a
number greater than zero. To define the names for all package files
(input and output) the length of the list of strings should be 2.
Default is None.
Attributes
----------
Methods
-------
See Also
--------
Notes
-----
Examples
--------
>>> import flopy
>>> m = flopy.modflow.Modflow()
>>> lpf = flopy.modflow.ModflowLpf(m)
"""
def __init__(
self,
model,
laytyp=0,
layavg=0,
chani=1.0,
layvka=0,
laywet=0,
ipakcb=None,
hdry=-1e30,
iphdry=0,
hk=1.0,
hani=1.0,
vka=1.0,
ss=1e-5,
sy=0.15,
vkcb=0.0,
noparcheck=False,
extension="upw",
unitnumber=None,
filenames=None,
):
if model.version != "mfnwt":
err = (
"Error: model version must be mfnwt to use "
+ "{} package".format(ModflowUpw._ftype())
)
raise Exception(err)
# set default unit number of one is not specified
if unitnumber is None:
unitnumber = ModflowUpw._defaultunit()
# set filenames
if filenames is None:
filenames = [None, None]
elif isinstance(filenames, str):
filenames = [filenames, None]
elif isinstance(filenames, list):
if len(filenames) < 2:
filenames.append(None)
# update external file information with cbc output, if necessary
if ipakcb is not None:
fname = filenames[1]
model.add_output_file(
ipakcb, fname=fname, package=ModflowUpw._ftype()
)
else:
ipakcb = 0
# Fill namefile items
name = [ModflowUpw._ftype()]
units = [unitnumber]
extra = [""]
# set package name
fname = [filenames[0]]
# Call ancestor's init to set self.parent, extension, name and
# unit number
Package.__init__(
self,
model,
extension=extension,
name=name,
unit_number=units,
extra=extra,
filenames=fname,
)
self.heading = (
"# {} package for ".format(self.name[0])
+ " {}, ".format(model.version_types[model.version])
+ "generated by Flopy."
)
self.url = "upw_upstream_weighting_package.htm"
nrow, ncol, nlay, nper = self.parent.nrow_ncol_nlay_nper
# item 1
self.ipakcb = ipakcb
# Head in cells that are converted to dry during a simulation
self.hdry = hdry
# number of UPW parameters
self.npupw = 0
self.iphdry = iphdry
self.laytyp = Util2d(model, (nlay,), np.int32, laytyp, name="laytyp")
self.layavg = Util2d(model, (nlay,), np.int32, layavg, name="layavg")
self.chani = Util2d(model, (nlay,), np.float32, chani, name="chani")
self.layvka = Util2d(model, (nlay,), np.int32, layvka, name="vka")
self.laywet = Util2d(model, (nlay,), np.int32, laywet, name="laywet")
self.options = " "
if noparcheck:
self.options = self.options + "NOPARCHECK "
self.hk = Util3d(
model,
(nlay, nrow, ncol),
np.float32,
hk,
name="hk",
locat=self.unit_number[0],
)
self.hani = Util3d(
model,
(nlay, nrow, ncol),
np.float32,
hani,
name="hani",
locat=self.unit_number[0],
)
keys = []
for k in range(nlay):
key = "vka"
if self.layvka[k] != 0:
key = "vani"
keys.append(key)
self.vka = Util3d(
model,
(nlay, nrow, ncol),
np.float32,
vka,
name=keys,
locat=self.unit_number[0],
)
self.ss = Util3d(
model,
(nlay, nrow, ncol),
np.float32,
ss,
name="ss",
locat=self.unit_number[0],
)
self.sy = Util3d(
model,
(nlay, nrow, ncol),
np.float32,
sy,
name="sy",
locat=self.unit_number[0],
)
self.vkcb = Util3d(
model,
(nlay, nrow, ncol),
np.float32,
vkcb,
name="vkcb",
locat=self.unit_number[0],
)
self.parent.add_package(self)
[docs] def write_file(self, check=True, f=None):
"""
Write the package file.
Parameters
----------
check : boolean
Check package data for common errors. (default True)
Returns
-------
None
"""
# allows turning off package checks when writing files at model level
if check:
self.check(
f="{}.chk".format(self.name[0]),
verbose=self.parent.verbose,
level=1,
)
nrow, ncol, nlay, nper = self.parent.nrow_ncol_nlay_nper
if f is not None:
f_upw = f
else:
f_upw = open(self.fn_path, "w")
# Item 0: text
f_upw.write("{}\n".format(self.heading))
# Item 1: IBCFCB, HDRY, NPLPF
f_upw.write(
"{0:10d}{1:10.3G}{2:10d}{3:10d}{4:s}\n".format(
self.ipakcb, self.hdry, self.npupw, self.iphdry, self.options
)
)
# LAYTYP array
f_upw.write(self.laytyp.string)
# LAYAVG array
f_upw.write(self.layavg.string)
# CHANI array
f_upw.write(self.chani.string)
# LAYVKA array
f_upw.write(self.layvka.string)
# LAYWET array
f_upw.write(self.laywet.string)
# Item 7: WETFCT, IWETIT, IHDWET
iwetdry = self.laywet.sum()
if iwetdry > 0:
raise Exception("LAYWET should be 0 for UPW")
transient = not self.parent.get_package("DIS").steady.all()
for k in range(nlay):
f_upw.write(self.hk[k].get_file_entry())
if self.chani[k] < 1:
f_upw.write(self.hani[k].get_file_entry())
f_upw.write(self.vka[k].get_file_entry())
if transient:
f_upw.write(self.ss[k].get_file_entry())
if self.laytyp[k] != 0:
f_upw.write(self.sy[k].get_file_entry())
if self.parent.get_package("DIS").laycbd[k] > 0:
f_upw.write(self.vkcb[k].get_file_entry())
if self.laywet[k] != 0 and self.laytyp[k] != 0:
f_upw.write(self.laywet[k].get_file_entry())
f_upw.close()
[docs] @classmethod
def load(cls, f, model, ext_unit_dict=None, check=True):
"""
Load an existing package.
Parameters
----------
f : filename or file handle
File to load.
model : model object
The model object (of type :class:`flopy.modflow.mf.Modflow`) to
which this package will be added.
ext_unit_dict : dictionary, optional
If the arrays in the file are specified using EXTERNAL,
or older style array control records, then `f` should be a file
handle. In this case ext_unit_dict is required, which can be
constructed using the function
:class:`flopy.utils.mfreadnam.parsenamefile`.
check : boolean
Check package data for common errors. (default True)
Returns
-------
dis : ModflowUPW object
ModflowLpf object.
Examples
--------
>>> import flopy
>>> m = flopy.modflow.Modflow()
>>> upw = flopy.modflow.ModflowUpw.load('test.upw', m)
"""
if model.verbose:
sys.stdout.write("loading upw package file...\n")
if model.version != "mfnwt":
msg = (
"Warning: model version was reset from "
+ "'{}' to 'mfnwt' in order to load a UPW file".format(
model.version
)
)
print(msg)
model.version = "mfnwt"
openfile = not hasattr(f, "read")
if openfile:
filename = f
f = open(filename, "r")
# dataset 0 -- header
while True:
line = f.readline()
if line[0] != "#":
break
# determine problem dimensions
nrow, ncol, nlay, nper = model.get_nrow_ncol_nlay_nper()
# Item 1: IBCFCB, HDRY, NPLPF - line already read above
if model.verbose:
print(" loading ipakcb, HDRY, NPUPW, IPHDRY...")
t = line_parse(line)
ipakcb, hdry, npupw, iphdry = (
int(t[0]),
float(t[1]),
int(t[2]),
int(t[3]),
)
# options
noparcheck = False
if len(t) > 3:
for k in range(3, len(t)):
if "NOPARCHECK" in t[k].upper():
noparcheck = True
# LAYTYP array
if model.verbose:
print(" loading LAYTYP...")
laytyp = np.empty((nlay,), dtype=np.int32)
laytyp = read1d(f, laytyp)
# LAYAVG array
if model.verbose:
print(" loading LAYAVG...")
layavg = np.empty((nlay,), dtype=np.int32)
layavg = read1d(f, layavg)
# CHANI array
if model.verbose:
print(" loading CHANI...")
chani = np.empty((nlay,), dtype=np.float32)
chani = read1d(f, chani)
# LAYVKA array
if model.verbose:
print(" loading LAYVKA...")
layvka = np.empty((nlay,), dtype=np.int32)
layvka = read1d(f, layvka)
# LAYWET array
if model.verbose:
print(" loading LAYWET...")
laywet = np.empty((nlay,), dtype=np.int32)
laywet = read1d(f, laywet)
# check that LAYWET is 0 for all layers
iwetdry = laywet.sum()
if iwetdry > 0:
raise Exception("LAYWET should be 0 for UPW")
# get parameters
par_types = []
if npupw > 0:
par_types, parm_dict = mfpar.load(f, npupw, model.verbose)
# get arrays
transient = not model.get_package("DIS").steady.all()
hk = [0] * nlay
hani = [0] * nlay
vka = [0] * nlay
ss = [0] * nlay
sy = [0] * nlay
vkcb = [0] * nlay
# load by layer
for k in range(nlay):
# hk
if model.verbose:
print(" loading hk layer {0:3d}...".format(k + 1))
if "hk" not in par_types:
t = Util2d.load(
f, model, (nrow, ncol), np.float32, "hk", ext_unit_dict
)
else:
line = f.readline()
t = mfpar.parameter_fill(
model, (nrow, ncol), "hk", parm_dict, findlayer=k
)
hk[k] = t
# hani
if chani[k] < 1:
if model.verbose:
print(" loading hani layer {0:3d}...".format(k + 1))
if "hani" not in par_types:
t = Util2d.load(
f,
model,
(nrow, ncol),
np.float32,
"hani",
ext_unit_dict,
)
else:
line = f.readline()
t = mfpar.parameter_fill(
model, (nrow, ncol), "hani", parm_dict, findlayer=k
)
hani[k] = t
# vka
if model.verbose:
print(" loading vka layer {0:3d}...".format(k + 1))
key = "vk"
if layvka[k] != 0:
key = "vani"
if "vk" not in par_types and "vani" not in par_types:
t = Util2d.load(
f, model, (nrow, ncol), np.float32, key, ext_unit_dict
)
else:
line = f.readline()
t = mfpar.parameter_fill(
model, (nrow, ncol), key, parm_dict, findlayer=k
)
vka[k] = t
# storage properties
if transient:
# ss
if model.verbose:
print(" loading ss layer {0:3d}...".format(k + 1))
if "ss" not in par_types:
t = Util2d.load(
f, model, (nrow, ncol), np.float32, "ss", ext_unit_dict
)
else:
line = f.readline()
t = mfpar.parameter_fill(
model, (nrow, ncol), "ss", parm_dict, findlayer=k
)
ss[k] = t
# sy
if laytyp[k] != 0:
if model.verbose:
print(" loading sy layer {0:3d}...".format(k + 1))
if "sy" not in par_types:
t = Util2d.load(
f,
model,
(nrow, ncol),
np.float32,
"sy",
ext_unit_dict,
)
else:
line = f.readline()
t = mfpar.parameter_fill(
model, (nrow, ncol), "sy", parm_dict, findlayer=k
)
sy[k] = t
# vkcb
if model.get_package("DIS").laycbd[k] > 0:
if model.verbose:
print(" loading vkcb layer {0:3d}...".format(k + 1))
if "vkcb" not in par_types:
t = Util2d.load(
f,
model,
(nrow, ncol),
np.float32,
"vkcb",
ext_unit_dict,
)
else:
line = f.readline()
t = mfpar.parameter_fill(
model, (nrow, ncol), "vkcb", parm_dict, findlayer=k
)
vkcb[k] = t
if openfile:
f.close()
# determine specified unit number
unitnumber = None
filenames = [None, None]
if ext_unit_dict is not None:
unitnumber, filenames[0] = model.get_ext_dict_attr(
ext_unit_dict, filetype=ModflowUpw._ftype()
)
if ipakcb > 0:
iu, filenames[1] = model.get_ext_dict_attr(
ext_unit_dict, unit=ipakcb
)
model.add_pop_key_list(ipakcb)
# create upw object
upw = cls(
model,
ipakcb=ipakcb,
iphdry=iphdry,
hdry=hdry,
noparcheck=noparcheck,
laytyp=laytyp,
layavg=layavg,
chani=chani,
layvka=layvka,
laywet=laywet,
hk=hk,
hani=hani,
vka=vka,
ss=ss,
sy=sy,
vkcb=vkcb,
unitnumber=unitnumber,
filenames=filenames,
)
if check:
upw.check(
f="{}.chk".format(upw.name[0]),
verbose=upw.parent.verbose,
level=0,
)
# return upw object
return upw
@staticmethod
def _ftype():
return "UPW"
@staticmethod
def _defaultunit():
return 31