Commit 7eb07262 authored by Ron Rahaman's avatar Ron Rahaman

Removed outdated "hello_nek" example

parent 45a7bd80
###############################################################################
################### MOOSE Application Standard Makefile #######################
###############################################################################
#
# Optional Environment variables
# MOOSE_DIR - Root directory of the MOOSE project
# FRAMEWORK_DIR - Location of the MOOSE framework
#
###############################################################################
EXAMPLE_DIR ?= $(shell dirname `pwd`)
MOOSE_DIR ?= $(shell dirname $(EXAMPLE_DIR))/src/moose
FRAMEWORK_DIR ?= $(MOOSE_DIR)/framework
###############################################################################
TEST := test_ignore
# framework
include $(FRAMEWORK_DIR)/build.mk
include $(FRAMEWORK_DIR)/moose.mk
APPLICATION_NAME := ex01
# dep apps
APPLICATION_DIR := $(shell pwd)
APPLICATION_NAME := ex01
BUILD_EXEC := yes
DEP_APPS := $(shell $(FRAMEWORK_DIR)/scripts/find_dep_apps.py $(APPLICATION_NAME))
include nek.mk
include app.mk
include ../test.mk
# Include dependency files for this example
ex_srcfiles := $(shell find $(APPLICATION_DIR) -name "*.C")
ex_deps := $(patsubst %.C, %.$(obj-suffix).d, $(ex_srcfiles))
-include $(ex_deps)
###############################################################################
# Additional special case targets should be added here
test: all
$(call TEST_exodiff,ex01.i,ex01_out.e)
eddy_uv
/Users/rahaman/repos/moon/examples/hello_nek
C Dimension file to be included
C
C HCUBE array dimensions
C
parameter (ldim=2)
parameter (lx1=8,ly1=lx1,lz1=1,lelt=300,lelv=lelt)
parameter (lxd=12,lyd=lxd,lzd=1)
parameter (lelx=20,lely=20,lelz=1)
parameter (lzl=3 + 2*(ldim-3))
parameter (lx2=lx1-2)
parameter (ly2=ly1-2)
parameter (lz2=lz1 )
parameter (lx3=lx1)
parameter (ly3=ly1)
parameter (lz3=lz1)
parameter (lp = 512)
parameter (lelg = 4100)
c
c parameter (lpelv=lelv,lpelt=lelt,lpert=3) ! perturbation
c parameter (lpx1=lx1,lpy1=ly1,lpz1=lz1) ! array sizes
c parameter (lpx2=lx2,lpy2=ly2,lpz2=lz2)
c
parameter (lpelv=1,lpelt=1,lpert=1) ! perturbation
parameter (lpx1=1,lpy1=1,lpz1=1) ! array sizes
parameter (lpx2=1,lpy2=1,lpz2=1)
c
c parameter (lbelv=lelv,lbelt=lelt) ! MHD
c parameter (lbx1=lx1,lby1=ly1,lbz1=lz1) ! array sizes
c parameter (lbx2=lx2,lby2=ly2,lbz2=lz2)
c
parameter (lbelv=1,lbelt=1) ! MHD
parameter (lbx1=1,lby1=1,lbz1=1) ! array sizes
parameter (lbx2=1,lby2=1,lbz2=1)
C LX1M=LX1 when there are moving meshes; =1 otherwise
parameter (lx1m=1,ly1m=1,lz1m=1)
parameter (ldimt= 2) ! 2 passive scalars + T
parameter (ldimt1=ldimt+1)
parameter (ldimt3=ldimt+3)
c
c Note: In the new code, LELGEC should be about sqrt(LELG)
c
PARAMETER (LELGEC = 1)
PARAMETER (LXYZ2 = 1)
PARAMETER (LXZ21 = 1)
PARAMETER (LMAXV=LX1*LY1*LZ1*LELV)
PARAMETER (LMAXT=LX1*LY1*LZ1*LELT)
PARAMETER (LMAXP=LX2*LY2*LZ2*LELV)
PARAMETER (LXZ=LX1*LZ1)
PARAMETER (LORDER=3)
PARAMETER (MAXOBJ=4,MAXMBR=LELT*6)
PARAMETER (lhis=100) ! # of pts a proc reads from hpts.in
! Note: lhis*np > npoints in hpts.in
C
C Common Block Dimensions
C
PARAMETER (LCTMP0 =2*LX1*LY1*LZ1*LELT)
PARAMETER (LCTMP1 =4*LX1*LY1*LZ1*LELT)
C
C The parameter LVEC controls whether an additional 42 field arrays
C are required for Steady State Solutions. If you are not using
C Steady State, it is recommended that LVEC=1.
C
PARAMETER (LVEC=1)
C
C Uzawa projection array dimensions
C
parameter (mxprev = 20)
parameter (lgmres = 30)
C
C Split projection array dimensions
C
parameter(lmvec = 1)
parameter(lsvec = 1)
parameter(lstore=lmvec*lsvec)
c
c NONCONFORMING STUFF
c
parameter (maxmor = lelt)
C
C Array dimensions
C
COMMON/DIMN/NELV,NELT,NX1,NY1,NZ1,NX2,NY2,NZ2
$,NX3,NY3,NZ3,NDIM,NFIELD,NPERT,NID
$,NXD,NYD,NZD
c automatically added by makenek
parameter(lxo = lx1) ! max output grid size (lxo>=lx1)
c automatically added by makenek
parameter(lpart = 1 ) ! max number of particles
c automatically added by makenek
integer ax1,ay1,az1,ax2,ay2,az2
parameter (ax1=lx1,ay1=ly1,az1=lz1,ax2=lx2,ay2=ly2,az2=lz2) ! running averages
c automatically added by makenek
parameter (lxs=1,lys=lxs,lzs=(lxs-1)*(ldim-2)+1) !New Pressure Preconditioner
c automatically added by makenek
parameter (lfdm=0) ! == 1 for fast diagonalization method
c automatically added by makenek
common/IOFLAG/nio ! for logfile verbosity control
c automatically added by makenek
integer toteq
parameter(toteq = 1 ) ! Number of conserved variables
c IFCMT=FALSE then toteq=1
c automatically added by makenek
integer lelcmt
parameter(lelcmt = 1 ) ! # of cmt elements
c IFCMT=FALSE then lelcmt=1
# This file contains common MOOSE application settings
# Note: MOOSE applications are assumed to reside in peer directories relative to MOOSE and its modules.
# This can be overridden by using the MOOSE_DIR environment variable
# list of application-wide excluded source files
excluded_srcfiles :=
#
# Save off parameters for possible app.mk recursion
#
STACK ?= stack
STACK := $(STACK).X
$APPLICATION_DIR$(STACK) := $(APPLICATION_DIR)
$APPLICATION_NAME$(STACK) := $(APPLICATION_NAME)
$DEPEND_MODULES$(STACK) := $(DEPEND_MODULES)
$BUILD_EXEC$(STACK) := $(BUILD_EXEC)
$DEP_APPS$(STACK) := $(DEP_APPS)
-include $(APPLICATION_DIR)/$(APPLICATION_NAME).mk
#
# Restore parameters
#
APPLICATION_DIR := $($APPLICATION_DIR$(STACK))
APPLICATION_NAME := $($APPLICATION_NAME$(STACK))
DEPEND_MODULES := $($DEPEND_MODULES$(STACK))
BUILD_EXEC := $($BUILD_EXEC$(STACK))
DEP_APPS := $($DEP_APPS$(STACK))
STACK := $(basename $(STACK))
##############################################################################
######################### Application Variables ##############################
##############################################################################
#
# source files
SRC_DIRS := $(APPLICATION_DIR)/src
PLUGIN_DIR := $(APPLICATION_DIR)/plugins
excluded_srcfiles += main.C
find_excludes := $(foreach i, $(excluded_srcfiles), -not -name $(i))
srcfiles := $(shell find $(SRC_DIRS) -name "*.C" $(find_excludes))
csrcfiles := $(shell find $(SRC_DIRS) -name "*.c")
fsrcfiles := $(shell find $(SRC_DIRS) -name "*.f")
f90srcfiles := $(shell find $(SRC_DIRS) -name "*.f90")
# object files
objects := $(patsubst %.C, %.$(obj-suffix), $(srcfiles))
cobjects := $(patsubst %.c, %.$(obj-suffix), $(csrcfiles))
fobjects := $(patsubst %.f, %.$(obj-suffix), $(fsrcfiles))
f90objects := $(patsubst %.f90, %.$(obj-suffix), $(f90srcfiles))
app_objects := $(objects) $(cobjects) $(fobjects) $(f90objects) $(ADDITIONAL_APP_OBJECTS)
# plugin files
plugfiles := $(shell find $(PLUGIN_DIR) -name "*.C" 2>/dev/null)
cplugfiles := $(shell find $(PLUGIN_DIR) -name "*.c" 2>/dev/null)
fplugfiles := $(shell find $(PLUGIN_DIR) -name "*.f" 2>/dev/null)
f90plugfiles:= $(shell find $(PLUGIN_DIR) -name "*.f90" 2>/dev/null)
# plugins
plugins := $(patsubst %.C, %-$(METHOD).plugin, $(plugfiles))
plugins += $(patsubst %.c, %-$(METHOD).plugin, $(cplugfiles))
plugins += $(patsubst %.f, %-$(METHOD).plugin, $(fplugfiles))
plugins += $(patsubst %.f90, %-$(METHOD).plugin, $(f90plugfiles))
# main
main_src := $(APPLICATION_DIR)/src/main.C # Main must be located here!
main_object := $(patsubst %.C, %.$(obj-suffix), $(main_src))
# dependency files
app_deps := $(patsubst %.C, %.$(obj-suffix).d, $(srcfiles)) \
$(patsubst %.c, %.$(obj-suffix).d, $(csrcfiles)) \
$(patsubst %.C, %.$(obj-suffix).d, $(main_src)) \
$(ADDITIONAL_APP_DEPS)
depend_dirs := $(foreach i, $(DEPEND_MODULES), $(MOOSE_DIR)/modules/$(i)/include)
depend_dirs += $(APPLICATION_DIR)/include
# header files
include_dirs := $(shell find $(depend_dirs) -type d | grep -v "\.svn")
app_INCLUDE := $(foreach i, $(include_dirs), -I$(i)) $(ADDITIONAL_INCLUDES)
# clang static analyzer files
app_analyzer := $(patsubst %.C, %.plist.$(obj-suffix), $(srcfiles))
# library
app_LIB := $(APPLICATION_DIR)/lib/lib$(APPLICATION_NAME)-$(METHOD).la
# application
app_EXEC := $(APPLICATION_DIR)/$(APPLICATION_NAME)-$(METHOD)
# revision header
CAMEL_CASE_NAME := $(shell echo $(APPLICATION_NAME) | perl -pe 's/(?:^|_)([a-z])/\u$$1/g')
app_BASE_DIR ?= base/
app_HEADER := $(APPLICATION_DIR)/include/$(app_BASE_DIR)$(CAMEL_CASE_NAME)Revision.h
# depend modules
depend_libs := $(foreach i, $(DEPEND_MODULES), $(MOOSE_DIR)/modules/$(i)/lib/lib$(i)-$(METHOD).la)
##################################################################################################
# If we are NOT building a module, then make sure the dependency libs are updated to reflect
# all real dependencies
##################################################################################################
ifeq (,$(findstring $(APPLICATION_NAME), $(MODULE_NAMES)))
depend_libs := $(depend_libs) $(app_LIBS)
endif
# Here we'll filter out MOOSE libs since we'll assume our application already has MOOSE compiled in
depend_libs := $(filter-out $(moose_LIBS),$(depend_libs))
# Create -L/-l versions of the depend libs
depend_libs_flags := $(foreach i, $(depend_libs), -L$(dir $(i)) -l$(shell echo $(notdir $(i)) | perl -pe 's/^lib(.*?)\.la/$$1/'))
# If building shared libs, make the plugins a dependency, otherwise don't.
ifeq ($(libmesh_shared),yes)
app_plugin_deps := $(plugins)
else
app_plugin_deps :=
endif
app_LIBS := $(app_LIB) $(app_LIBS)
app_LIBS_other := $(filter-out $(app_LIB),$(app_LIBS))
app_HEADERS := $(app_HEADER) $(app_HEADERS)
app_INCLUDES += $(app_INCLUDE)
app_DIRS += $(APPLICATION_DIR)
# WARNING: the += operator does NOT work here!
ADDITIONAL_CPPFLAGS := $(ADDITIONAL_CPPFLAGS) -D$(shell echo $(APPLICATION_NAME) | perl -pe 'y/a-z/A-Z/' | perl -pe 's/-//g')_ENABLED
# dependencies
-include $(app_deps)
# Rest the DEPEND_MODULES variable in case this file is sourced again
DEPEND_MODULES :=
###############################################################################
# Build Rules:
#
###############################################################################
ifeq ($(BUILD_EXEC),yes)
all:: $(app_EXEC)
endif
$(app_objects): $(app_HEADER)
# Target-specific Variable Values (See GNU-make manual)
$(app_HEADER): curr_dir := $(APPLICATION_DIR)
$(app_HEADER): curr_app := $(APPLICATION_NAME)
$(app_HEADER):
@echo "MOOSE Generating Header "$@"..."
$(shell $(FRAMEWORK_DIR)/scripts/get_repo_revision.py $(curr_dir) $@ $(curr_app))
# Target-specific Variable Values (See GNU-make manual)
$(app_LIB): curr_objs := $(app_objects)
$(app_LIB): curr_dir := $(APPLICATION_DIR)
$(app_LIB): curr_deps := $(depend_libs)
$(app_LIB): curr_libs := $(depend_libs_flags)
$(app_LIB): $(app_objects) $(app_plugin_deps) $(app_HEADER) $(depend_libs)
@echo "Linking Library "$@"..."
@$(libmesh_LIBTOOL) --tag=CXX $(LIBTOOLFLAGS) --mode=link --quiet \
$(libmesh_CXX) $(libmesh_CXXFLAGS) -o $@ $(curr_objs) $(libmesh_LDFLAGS) $(EXTERNAL_FLAGS) -rpath $(curr_dir)/lib $(curr_libs)
@$(libmesh_LIBTOOL) --mode=install --quiet install -c $@ $(curr_dir)/lib
$(app_EXEC): $(app_LIBS) $(mesh_library) $(main_object) $(nek_LIB) $(nek_OBJ)
@echo "Linking Executable "$@"..."
@$(libmesh_LIBTOOL) --tag=CXX $(LIBTOOLFLAGS) --mode=link --quiet $(libmesh_CXX) $(libmesh_CXXFLAGS) -o $@ $(main_object) $(nek_LIB) $(nek_OBJ) $(app_LIBS) $(libmesh_LIBS) $(libmesh_LDFLAGS) $(EXTERNAL_FLAGS) $(ADDITIONAL_LIBS)
# Clang static analyzer
sa:: $(app_analyzer)
[Mesh]
file = square.e
uniform_refine = 4
[]
# Note: This output block is out of its normal place (should be at the bottom)
[Outputs]
execute_on = 'timestep_end'
exodus = true
[]
# Note: The executioner is out of its normal place (should be just about the output block)
[Executioner]
type = Steady
solve_type = 'PJFNK'
[]
[Variables]
active = 'diffused' # Note the active list here
[./diffused]
order = FIRST
family = LAGRANGE
[../]
# This variable is not active in the list above
# therefore it is not used in the simulation
[./convected]
order = FIRST
family = LAGRANGE
[../]
[]
[Kernels]
[./diff]
type = Diffusion
variable = diffused
[../]
[]
# This example applies DirichletBCs to all four sides of our square domain
[BCs]
[./left]
type = DirichletBC
variable = diffused
boundary = '1'
value = 0
[../]
[./right]
type = DirichletBC
variable = diffused
boundary = '2'
value = 1
[../]
[]
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c-----------------------------------------------------------------------
subroutine exact(uu,vv,xx,yy,n,time,visc,u0,v0)
c
c This routine creates initial conditions for an exact solution
c to the Navier-Stokes equations based on the paper of Walsh [1],
c with an additional translational velocity (u0,v0).
c
c The computational domain is [0,2pi]^2 with doubly-periodic
c boundary conditions.
c
c Walsh's solution consists of an array of vortices determined
c as a linear combinations of eigenfunctions of having form:
c
c cos(pi m x)cos(pi n y), cos(pi m x)sin(pi n y)
c sin(pi m x)cos(pi n y), sin(pi m x)sin(pi n y)
c
c and
c
c cos(pi k x)cos(pi l y), cos(pi k x)sin(pi l y)
c sin(pi k x)cos(pi l y), sin(pi k x)sin(pi l y)
c
c While there are constraints on admissible (m,n),(k,l)
c pairings, Walsh shows that there is a large class of
c possible pairings that give rise to very complex vortex
c patterns.
c
c Walsh's solution applies either to unsteady Stokes or
c unsteady Navier-Stokes. The solution is a non-translating
c decaying array of vortices that decays at the rate
c
c exp ( -4 pi^2 (m^2+n^2) visc time ),
c
c with (m^2+n^2) = (k^2+l^2). A nearly stationary state may
c be obtained by taking the viscosity to be extremely small,
c so the effective decay is negligible. This limit, however,
c leads to an unstable state, thus diminsishing the value of
c Walsh's solution as a high-Reynolds number test case.
c
c It is possible to extend Walsh's solution to a stable convectively-
c dominated case by simulating an array of vortices that translate
c at arbitrary speed by adding a constant to the initial velocity field.
c This approach provides a good test for convection-diffusion dynamics.
c
c The approach can also be extended to incompressible MHD with unit
c magnetic Prandtl number Pm.
c
c [1] Owen Walsh, "Eddy Solutions of the Navier-Stokes Equations,"
c in The Navier-Stokes Equations II - Theory and Numerical Methods,
c Proceedings, Oberwolfach 1991, J.G. Heywood, K. Masuda,
c R. Rautmann, S.A. Solonnikov, Eds., Springer-Verlag, pp. 306--309
c (1992).
c
c 2/23/02; 6/2/09; pff
c
c
include 'SIZE'
include 'INPUT'
c
real uu(n),vv(n),xx(n),yy(n)
c
real cpsi(2,5), a(2,5)
save cpsi , a
c data a / .4,.45 , .4,.2 , -.2,-.1 , .2,.05, -.09,-.1 / ! See eddy.m
c data cpsi / 0,65 , 16,63 , 25,60 , 33,56 , 39,52 / ! See squares.f
c data cpsi / 0,85 , 13,84 , 36,77 , 40,75 , 51,68 /
c This data from Walsh's Figure 1 [1]:
data a / -.2,-.2, .25,0., 0,0 , 0,0 , 0,0 /
data cpsi / 0, 5 , 3, 4 , 0,0 , 0,0 , 0,0 /
one = 1.
pi = 4.*atan(one)
aa = cpsi(2,1)**2
arg = -visc*time*aa ! domain is [0:2pi]
e = exp(arg)
c
c ux = psi_y, uy = -psi_x
c
do i=1,n
x = xx(i) - u0*time
y = yy(i) - v0*time
sx = sin(cpsi(2,1)*x)
cx = cos(cpsi(2,1)*x)
sy = sin(cpsi(2,1)*y)
cy = cos(cpsi(2,1)*y)
u = a(1,1)*cpsi(2,1)*cy
v = a(2,1)*cpsi(2,1)*sx
do k=2,5
s1x = sin(cpsi(1,k)*x)
c1x = cos(cpsi(1,k)*x)
s2x = sin(cpsi(2,k)*x)
c2x = cos(cpsi(2,k)*x)
s1y = sin(cpsi(1,k)*y)
c1y = cos(cpsi(1,k)*y)
s2y = sin(cpsi(2,k)*y)
c2y = cos(cpsi(2,k)*y)
c1 = cpsi(1,k)
c2 = cpsi(2,k)
if (k.eq.2) u = u + a(1,k)*s1x*c2y*c2
if (k.eq.2) v = v - a(1,k)*c1x*s2y*c1
if (k.eq.2) u = u - a(2,k)*s2x*c1y*c1
if (k.eq.2) v = v + a(2,k)*c2x*s1y*c2
if (k.eq.3) u = u - a(1,k)*s1x*c2y*c2
if (k.eq.3) v = v + a(1,k)*c1x*s2y*c1
if (k.eq.3) u = u - a(2,k)*c2x*c1y*c1
if (k.eq.3) v = v - a(2,k)*s2x*s1y*c2
if (k.eq.4) u = u + a(1,k)*c1x*c2y*c2
if (k.eq.4) v = v + a(1,k)*s1x*s2y*c1
if (k.eq.4) u = u + a(2,k)*c2x*c1y*c1
if (k.eq.4) v = v + a(2,k)*s2x*s1y*c2
if (k.eq.5) u = u - a(1,k)*s1x*c2y*c2
if (k.eq.5) v = v + a(1,k)*c1x*s2y*c1
if (k.eq.5) u = u - a(2,k)*s2x*c1y*c1
if (k.eq.5) v = v + a(2,k)*c2x*s1y*c2
enddo
uu(i) = u*e + u0
vv(i) = v*e + v0
enddo
return
end
c-----------------------------------------------------------------------
subroutine uservp (ix,iy,iz,ieg)
include 'SIZE'
include 'TOTAL'
include 'NEKUSE'
C
udiff =0.
utrans=0.
return
end
c-----------------------------------------------------------------------
subroutine userf (ix,iy,iz,ieg)
include 'SIZE'
include 'TOTAL'
include 'NEKUSE'
C
ffx = 0.0
ffy = 0.0
ffz = 0.0
return
end
c-----------------------------------------------------------------------
subroutine userq (ix,iy,iz,ieg)
include 'SIZE'
include 'TOTAL'
include 'NEKUSE'
C
qvol = 0.0
source = 0.0
return
end
c-----------------------------------------------------------------------
subroutine userchk
include 'SIZE'
include 'TOTAL'
c
common /exacu/ ue(lx1,ly1,lz1,lelt),ve(lx1,ly1,lz1,lelt)
common /exacd/ ud(lx1,ly1,lz1,lelt),vd(lx1,ly1,lz1,lelt)
ifield = 1 ! for outpost
n = nx1*ny1*nz1*nelv
visc = param(2)
u0 = param(96)
v0 = param(97)
call exact (ue,ve,xm1,ym1,n,time,visc,u0,v0)
if (istep.eq.0 ) call outpost(ue,ve,vx,pr,t,' ')
call sub3 (ud,ue,vx,n)
call sub3 (vd,ve,vy,n)
if (istep.eq.nsteps) call outpost(ud,vd,vx,pr,t,'err')
umx = glamax(vx,n)
vmx = glamax(vy,n)
uex = glamax(ue,n)
vex = glamax(ve,n)
udx = glamax(ud,n)
vdx = glamax(vd,n)
if (nid.eq.0) then
write(6,11) istep,time,udx,umx,uex,u0,' X err'
write(6,11) istep,time,vdx,vmx,vex,v0,' Y err'
11 format(i5,1p5e14.6,a7)
endif
if (istep.le.5) then ! Reset velocity to eliminate
call copy (vx,ue,n) ! start-up contributions to
call copy (vy,ve,n) ! temporal-accuracy behavior.
endif
return
end
c-----------------------------------------------------------------------
subroutine userbc (ix,iy,iz,iside,ieg)
c NOTE ::: This subroutine MAY NOT be called by every process
include 'SIZE'
include 'TOTAL'
include 'NEKUSE'
ux=0.0
uy=0.0
uz=0.0
temp=0.0
return
end
c-----------------------------------------------------------------------
subroutine useric (ix,iy,iz,ieg)
include 'SIZE'
include 'TOTAL'
include 'NEKUSE'
common /exacu/ ue(lx1,ly1,lz1,lelt),ve(lx1,ly1,lz1,lelt)
common /exacd/ ud(lx1,ly1,lz1,lelt),vd(lx1,ly1,lz1,lelt)
integer icalld
save icalld
data icalld /0/
n = nx1*ny1*nz1*nelv
if (icalld.eq.0) then
icalld = icalld + 1
time = 0.
u0 = param(96)
v0 = param(97)
call exact (ue,ve,xm1,ym1,n,time,visc,u0,v0)
endif
ie = gllel(ieg)
ux=ue(ix,iy,iz,ie)
uy=ve(ix,iy,iz,ie)
uz=0.0
temp=0
return
end
c-----------------------------------------------------------------------
subroutine usrdat
include 'SIZE'
include 'TOTAL'
integer e
one = 1.
twopi = 8.*atan(one)
do e=1,nelv ! Rescale mesh to [0,2pi]^2
do i=1,4 ! Assumes original domain in .rea file on [0,1]
xc(i,e) = twopi*xc(i,e)
yc(i,e) = twopi*yc(i,e)
enddo
enddo
c param(66) = 4
c param(67) = 4
return
end
c-----------------------------------------------------------------------
subroutine usrdat2
return
end
c-----------------------------------------------------------------------
subroutine usrdat3
return
end
c-----------------------------------------------------------------------
[Mesh]
file = mug.e
[]
[Variables]
[./diffused]
order = FIRST
family = LAGRANGE
[../]
[]
[Kernels]
[./diff]
type = Diffusion
variable = diffused
[../]
[]
[BCs]
[./bottom]
type = DirichletBC
variable = diffused
boundary = 'bottom'
value = 1
[../]
[./top]
type = DirichletBC
variable = diffused
boundary = 'top'
value = 0
[../]
[]
[Executioner]
type = Steady
solve_type = 'PJFNK'
[]
[Outputs]
execute_on = 'timestep_end'
exodus = true
[]
This example has no header files. This directory
is just included for consistency with the other
examples.
\ No newline at end of file
/* THIS FILE IS AUTOGENERATED - DO NOT EDIT */
#ifndef EX01_REVISION_H
#define EX01_REVISION_H
#define EX01_REVISION "git commit 16c7fbf on 2016-09-28"
#endif // EX01_REVISION_H
/****************************************************************/
/* DO NOT MODIFY THIS HEADER */
/* MOOSE - Multiphysics Object Oriented Simulation Environment */
/* */
/* (c) 2010 Battelle Energy Alliance, LLC */
/* ALL RIGHTS RESERVED */
/* */
/* Prepared by Battelle Energy Alliance, LLC */
/* Under Contract No. DE-AC07-05ID14517 */