~reducedmodelling/fluidity/ReducedModel : contents of tools/Makefile.in at revision 3621

~reducedmodelling/fluidity/ReducedModel : (revision 3621)
#    Copyright (C) 2006 Imperial College London and others.
#
#    Please see the AUTHORS file in the main source directory for a full list
#    of copyright holders.
#
#    Prof. C Pain
#    Applied Modelling and Computation Group
#    Department of Earth Science and Engineering
#    Imperial College London
#
#    amcgsoftware@imperial.ac.uk
#
#    This library is free software; you can redistribute it and/or
#    modify it under the terms of the GNU Lesser General Public
#    License as published by the Free Software Foundation,
#    version 2.1 of the License.
#
#    This library is distributed in the hope that it will be useful,
#    but WITHOUT ANY WARRANTY; without even the implied warranty of
#    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
#    Lesser General Public License for more details.
#
#    You should have received a copy of the GNU Lesser General Public
#    License along with this library; if not, write to the Free Software
#    Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307
#    USA
SHELL = @SHELL@

FC      = @FC@
FCFLAGS = -I../include -I/usr/include @CPPFLAGS@ @FCFLAGS@

CC  = @CC@
CFLAGS  = @CFLAGS@ -I../include

CXX = @CXX@
CXXFLAGS= @CPPFLAGS@ @CXXFLAGS@ -I../include

LINKER = @LINKER@ @LDFLAGS@

LIBS = -L../lib ./lib/libadaptivity.a ./lib/libspatialindex.a ./lib/libspud.a ./lib/libvtkfortran.a ./lib/libjudy.a @LIBS@ @BLAS_LIBS@ @LIB_FEMDEM@
FLIBS = -L../lib @FLIBS@

# These objects are needed in each program as they provide the code related to
# diagnostic output and FLabort:
DEBUG_OBJECTS=../debug/Debug.o ../debug/Debug_Parameters.o

FLINTEGRATE = ../bin/flintegrate
VERTICAL_INTEGRATION = ../bin/vertical_integration
VTKDIAGNOSTIC = ../bin/vtkdiagnostic
FLDIAGNOSTICS = ../bin/fldiagnostics
STREAMFUNCTION_2D = ../bin/streamfunction_2d
FLREDECOMP = ../bin/flredecomp
TEST_LAPLACIAN= ../bin/test_laplacian
TEST_LAPLACIAN_VECTOR= ../bin/test_laplacian_vector
TEST_ADVECTION_DIFFUSION= ../bin/test_advection_diffusion
VISUALISE_ELEMENTS= ../bin/visualise_elements
TEST_LAPLACIAN_ADJOINT= ../bin/test_laplacian_adjoint
TRIANGLE2VTU= ../bin/triangle2vtu
VTU2TRIANGLE= ../bin/vtu2triangle
TRIANGLE_TEST_MESH= ../bin/triangle_test_mesh
ANALYSE_TRIANGLE= ../bin/analyse_triangle
PETSC_READNSOLVE = ../bin/petsc_readnsolve
TEST_PRESSURE_SOLVE = ../bin/test_pressure_solve
PROJECT_TO_CONTINUOUS = ../bin/project_to_continuous
PROJECT_TO_CONTINUOUS_PARALLEL = ../bin/project_to_continuous_parallel
POPSTATE = ../bin/popstate
UNIFIEDMESH = ../bin/unifiedmesh
FLUIDITY = @FLUIDITY@
LIBFLUIDITY=-l@FLUIDITY@
LIBFEMTOOLS=-lfemtools
LIBADAPT=-ladaptivity
FTLE=../bin/FTLE
CHECKMESH=../bin/checkmesh
DERIVE_MESH=../bin/derive_mesh
PROJECT_VTU=../bin/project_vtu
PROBE_VTU=../bin/probe_vtu
SUPERMESH_DIFFERENCE=../bin/supermesh_difference
DIFFERENTIATE_VTU=../bin/differentiate_vtu
VTU_BINS=../bin/vtu_bins
DIFFERENTIATE=../bin/differentiate
FLADAPT=../bin/fladapt
IGW=../bin/IGW
LOCALMATS=../bin/localmats
MESH_READNADAPT=../bin/mesh_readnadapt
PSEUDO_MESH=../bin/pseudo_mesh
PSEUDO_SUPERMESH=../bin/pseudo_supermesh
PSEUDO_SUPERMESH_PARALLEL=../bin/pseudo_supermesh_parallel
LINEARLY_INTERPOLATE=../bin/linearly_interpolate
LINEARLY_INTERPOLATE_ALL=../bin/linearly_interpolate_all
LINEAR_INTERPOLATION_PARALLEL=../bin/linear_interpolation_parallel
TIME_AVERAGE_PARALLEL=../bin/time_average_parallel
TEST_HALGET=../bin/test_halget
DG_DIFFUSION_MATRIX=../bin/dg_diffusion_matrix
CV_DIFFUSION_MATRIX=../bin/cv_diffusion_matrix
FV_DIFFUSION_MATRIX=../bin/fv_diffusion_matrix
VTKPROJECTION=../bin/vtk_projection
RUNZOLTAN=../bin/zoltan_load_balance
PERIODISE=../bin/periodise
TEST_TRACE_SPACE=../bin/test_trace_space
BINARIES = $(DRAWTIMNEW) $(MAKTIMUNIFORM) $(VTKDIAGNOSTIC) \
  $(FLDIAGNOSTICS) $(FLREDECOMP) $(PETSC_READNSOLVE) $(FLINTEGRATE) \
  $(VERTICAL_INTEGRATION) $(EVMERGE) $(FLADAPT) $(CHECKMESH) $(DERIVE_MESH) \
  $(PROJECT_VTU) $(PROBE_VTU) $(SUPERMESH_DIFFERENCE) $(DIFFERENTIATE_VTU) $(VTU_BINS) $(TRIANGLE2VTU) \
  $(PROJECT_TO_CONTINUOUS) $(PROJECT_TO_CONTINUOUS_PARALLEL) \
  $(TEST_PRESSURE_SOLVE) $(UNIFIEDMESH) $(VTKPROJECTION) $(PERIODISE) \
  $(TEST_TRACE_SPACE)

.SUFFIXES: .f90 .F90 .c .cpp .o .a 

%.o:	%.f90
	$(FC) $(FCFLAGS) -c $<
%.o:	%.F90
	$(FC) $(FCFLAGS) -c $<
%.o:	%.c
	$(CC) $(CFLAGS) -c $<
%.o:	%.cpp
	$(CXX) $(CXXFLAGS) -c $<

default: $(BINARIES)

.PHONY: install_python

install_python:
	python setup.py bdist --format=tar
	tar -x -C /$(DESTDIR) -f dist/*.tar

$(TRIANGLE2VTU): triangle2vtu.o triangle2vtu_main.o lib/
	$(LINKER) -o $@ $(filter %.o,$^) -l$(FLUIDITY) $(LIBS)

$(VTU2TRIANGLE): vtu2triangle.o vtu2triangle_main.o lib/
	$(LINKER) -o $@ $(filter %.o,$^) -l$(FLUIDITY) $(LIBS)

$(PROJECT_TO_CONTINUOUS): project_to_continuous.o project_to_continuous_main.o
	$(LINKER) -o $@ $(filter %.o,$^) -l$(FLUIDITY) $(LIBS)

$(PROJECT_TO_CONTINUOUS_PARALLEL): project_to_continuous_parallel.o project_to_continuous_parallel_main.o
	$(LINKER) -o $@ $(filter %.o,$^) -l$(FLUIDITY) $(LIBS)

$(TRIANGLE_TEST_MESH): triangle_test_mesh.o
	$(LINKER) -o $(TRIANGLE_TEST_MESH) $^ $(FLIBS) $(LIBFLUIDITY) $(LIBS)

$(ANALYSE_TRIANGLE): analyse_triangle.o
	$(LINKER) -o $(ANALYSE_TRIANGLE) $^ $(FLIBS) $(LIBFLUIDITY) $(LIBS)

$(TEST_LAPLACIAN): test_laplacian.o
	$(LINKER) -o $(TEST_LAPLACIAN) $^ $(FLIBS) $(LIBFLUIDITY) $(LIBS)

$(TEST_LAPLACIAN_VECTOR): test_laplacian_vector.o
	$(LINKER) -o $(TEST_LAPLACIAN_VECTOR) $^ $(FLIBS) $(LIBFLUIDITY) $(LIBS)

$(TEST_ADVECTION_DIFFUSION): test_advection_diffusion.o
	$(LINKER) -o $(TEST_ADVECTION_DIFFUSION) $^ $(FLIBS) $(LIBFLUIDITY) $(LIBS)

$(VISUALISE_ELEMENTS): visualise_elements.o
	$(LINKER) -o $(VISUALISE_ELEMENTS) $^ $(FLIBS) $(LIBFLUIDITY) $(LIBS)

$(TEST_LAPLACIAN_ADJOINT): test_laplacian_adjoint.o
	$(LINKER) -o $(TEST_LAPLACIAN_ADJOINT) $^ $(FLIBS) $(LIBFLUIDITY) $(LIBS)

localmats: $(LOCALMATS)

$(LOCALMATS): LocalMats.o
	$(LINKER) -o $(LOCALMATS) $^ $(FLIBS) $(LIBFLUIDITY) $(LIBS)

$(MESH_READNADAPT): mesh_readnadapt.o
	$(LINKER) -o $(MESH_READNADAPT) $^ $(FLIBS) $(LIBFLUIDITY) $(LIBADAPT) $(LIBS)

$(PSEUDO_MESH): Pseudo_Mesh.o Pseudo_Mesh_main.o lib/
	$(LINKER) -o $@ $(filter %.o,$^) -l$(FLUIDITY) $(LIBS)

$(PSEUDO_SUPERMESH): pseudo_supermesh.o
	$(LINKER) -o $(PSEUDO_SUPERMESH) $^ $(FLIBS) $(LIBFLUIDITY) $(LIBADAPT) $(LIBS)

$(PSEUDO_SUPERMESH_PARALLEL): pseudo_supermesh_parallel.o
	$(FC) $(CXXFLAGS) -o $@ $(filter %.o,$^) -l$(FLUIDITY) $(LIBS)

$(LINEARLY_INTERPOLATE): linearly_interpolate.o
	$(FC) $(CXXFLAGS) -o $@ $(filter %.o,$^) -l$(FLUIDITY) $(LIBS)

$(LINEARLY_INTERPOLATE_ALL): linearly_interpolate_all.o
	$(FC) $(CXXFLAGS) -o $@ $(filter %.o,$^) -l$(FLUIDITY) $(LIBS)

$(LINEAR_INTERPOLATION_PARALLEL): linear_interpolation_parallel.o
	$(FC) $(CXXFLAGS) -o $@ $(filter %.o,$^) -l$(FLUIDITY) $(LIBS)

$(TIME_AVERAGE_PARALLEL): time_average_parallel.o
	$(FC) $(CXXFLAGS) -o $@ $(filter %.o,$^) -l$(FLUIDITY) $(LIBS)

$(FTLE): FTLE.o
	$(LINKER) -o $(FTLE) $^ $(FLIBS) $(LIBFLUIDITY) $(LIBADAPT) $(LIBS)

$(FLINTEGRATE): flintegrate.o Flint_generalroutines.o Flint_volumeroutines.o \
  Flint_integralroutines.o Flint_extractdata.o flintegrate_main.o lib/
	$(CXX) $(CXXFLAGS) -o $@ $(filter %.o,$^) $(LIBFLUIDITY) $(LIBS)

$(VERTICAL_INTEGRATION): Vertical_Integration.o Vertical_Integration_main.o lib/
	$(LINKER) $(CXXFLAGS) -o $@ $(filter %.o,$^) -l$(FLUIDITY) $(LIBS)

$(IGW): IGW.o IGW_main.o lib/
	$(LINKER) $(CXXFLAGS) -o $@ $(filter %.o,$^) -l$(FLUIDITY) $(LIBS)

$(PETSC_READNSOLVE): petsc_readnsolve_main.o petsc_readnsolve.o \
  lib/
	$(LINKER) $(CXXFLAGS) -o $@ $(filter %.o,$^) -l$(FLUIDITY) $(LIBS)

$(TEST_PRESSURE_SOLVE): test_pressure_solve_main.o test_pressure_solve.o \
  lib/
	$(LINKER) $(CXXFLAGS) -o $@ $(filter %.o,$^) -l$(FLUIDITY) $(LIBS)

# we need a symlink to ../lib, as $(LIBS) contains relative references to
# libraries (i.e. ./lib/libadaptivity.a instead of -ladaptivity)
lib/:
	ln -sf ../lib

sortnu.o: ../potinv/sortnu.F90
	$(FC) $(FCFLAGS) -c $^

flintegrate.o:Flint_generalroutines.o Flint_integralroutines.o Flint_volumeroutines.o
Flint_volumeroutines.o:Flint_generalroutines.o
Flint_integralroutines.o:Flint_generalroutines.o

$(DRAWTIMNEW): drawtimnew.F90 $(DEBUG_OBJECTS)
	$(FC) $(FCFLAGS) $(LDFLAGS) @FORTRAN_REAL_8@ -o $@ $^ $(FLIBS)

$(MAKTIMUNIFORM): maktimeuniform.o $(DEBUG_OBJECTS)
	$(FC) $(FCFLAGS) $(LDFLAGS) -o $@ $^ $(FLIBS)

maktimeuniform.o: maktimeuniform.F90
	$(FC) $(FCFLAGS) @FORTRAN_REAL_8@  -c $^

$(VTKDIAGNOSTIC): vtkdiagnostic.cpp lib/
	$(LINKER) $(CXXFLAGS) -I../include -o $(VTKDIAGNOSTIC) vtkdiagnostic.cpp $(LIBS)

$(VTKPROJECTION): vtkprojection.cpp lib/
	$(LINKER) $(CXXFLAGS) -I../include -o $(VTKPROJECTION) vtkprojection.cpp -L../lib/ -l$(FLUIDITY) $(LIBS)

$(RUNZOLTAN): zoltan_load_balance.F90 lib/
	$(FC) $(FCFLAGS) -I../include -I/usr/include -o $(RUNZOLTAN) zoltan_load_balance.F90 -L../lib/ -l$(FLUIDITY) $(LIBS)

$(PERIODISE): periodise.o lib/
	$(FC) $(FCFLAGS) -o $@ $(filter %.o,$^) -l$(FLUIDITY) $(LIBS)

$(FLDIAGNOSTICS): fldiagnostics.o fldiagnostics_main.o lib/
	$(LINKER) -o $@ $(filter %.o,$^) -l$(FLUIDITY) $(LIBS)

$(STREAMFUNCTION_2D): Streamfunction_2D.o Streamfunction_2D_main.o lib/
	$(LINKER) -o $@ $(filter %.o,$^) -l$(FLUIDITY) $(LIBS)

$(FLREDECOMP): Flredecomp.o Flredecomp_main.o lib/
	$(LINKER) -o $@ $(filter %.o,$^) -l$(FLUIDITY) $(LIBS)

$(EVMERGE): evmerge.o $(DEBUG_OBJECTS)
	$(FC) $(FCFLAGS) $(LDFLAGS) -o $@ $^ $(FLIBS)

evmerge.o: evmerge.F90
	$(FC) $(FCFLAGS) @FORTRAN_REAL_8@  -c $^

$(CHECKMESH): Checkmesh.o Checkmesh_main.o lib/
	$(LINKER) -o $@ $(filter %.o,$^) -l$(FLUIDITY) $(LIBS)

$(DERIVE_MESH): Derive_Mesh.o Derive_Mesh_main.o lib/
	$(LINKER) -o $@ $(filter %.o,$^) -l$(FLUIDITY) $(LIBS)

$(PROJECT_VTU): Project_Vtu.o Project_Vtu_main.o lib/
	$(LINKER) -o $@ $(filter %.o,$^) -l$(FLUIDITY) $(LIBS)

$(PROBE_VTU): Probe_Vtu.o Probe_Vtu_main.o lib/
	$(LINKER) -o $@ $(filter %.o,$^) -l$(FLUIDITY) $(LIBS)

$(SUPERMESH_DIFFERENCE): Supermesh_Difference.o Supermesh_Difference_main.o lib/
	$(LINKER) -o $@ $(filter %.o,$^) -l$(FLUIDITY) $(LIBS)

$(DIFFERENTIATE_VTU): Differentiate_Vtu.o Differentiate_Vtu_main.o lib/
	$(LINKER) -o $@ $(filter %.o,$^) -l$(FLUIDITY) $(LIBS)

$(VTU_BINS): Vtu_Bins.o Vtu_Bins_main.o lib/
	$(LINKER) -o $@ $(filter %.o,$^) -l$(FLUIDITY) $(LIBS)

$(DIFFERENTIATE): differentiate.F90 lib/
	$(FC) -c $(FCFLAGS) differentiate.F90
	$(LINKER) -o $(DIFFERENTIATE) differentiate.o -l$(FLUIDITY) $(LIBS)

$(FLADAPT): Fladapt.o Fladapt_main.o lib/
	$(LINKER) -o $@ $(filter %.o,$^) -l$(FLUIDITY) $(LIBS)

$(POPSTATE): popstate.F90 lib/
	$(FC) -c $(FCFLAGS) popstate.F90
	$(LINKER) -o $(POPSTATE) popstate.o -l$(FLUIDITY) $(LIBS)

$(UNIFIEDMESH): unifiedmesh.o unifiedmesh_main.o lib/
	$(LINKER) -o $@ $(filter %.o,$^) -l$(FLUIDITY) $(LIBS)

$(DG_DIFFUSION_MATRIX): dg_diffusion_matrix.F90 lib/
	$(FC) -c $(FCFLAGS) dg_diffusion_matrix.F90
	$(LINKER) -o $(DG_DIFFUSION_MATRIX) dg_diffusion_matrix.o -l$(FLUIDITY) $(LIBS)

$(CV_DIFFUSION_MATRIX): cv_diffusion_matrix.F90 lib/
	$(FC) -c $(FCFLAGS) cv_diffusion_matrix.F90
	$(LINKER) -o $(CV_DIFFUSION_MATRIX) cv_diffusion_matrix.o -l$(FLUIDITY) $(LIBS)

$(FV_DIFFUSION_MATRIX): fv_diffusion_matrix.F90 lib/
	$(FC) -c $(FCFLAGS) fv_diffusion_matrix.F90
	$(LINKER) -o $(FV_DIFFUSION_MATRIX) fv_diffusion_matrix.o -l$(FLUIDITY) $(LIBS)

$(TEST_HALGET): Test_Halget.o lib/
	$(LINKER) -o $@ $(filter %.o,$^) -l$(FLUIDITY) $(LIBS)

clean:
	rm -f *.o *.mod
	rm -rf build dist fluidity.egg-info 

$(TEST_TRACE_SPACE): Test_Trace_Space.o lib/
	$(FC) $(FCFLAGS) -o $@ $(filter %.o,$^) -l$(FLUIDITY) $(LIBS)