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mirror of https://github.com/TREX-CoE/qmckl.git synced 2024-12-23 04:44:03 +01:00

Merge branch 'master' into reorder_indices_jastrow

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vijay 2022-02-11 16:13:44 +01:00 committed by GitHub
commit 6e4b7f6722
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9 changed files with 558 additions and 901 deletions

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@ -47,9 +47,9 @@ pkgconfig_DATA = pkgconfig/qmckl.pc
qmckl_h = include/qmckl.h qmckl_h = include/qmckl.h
include_HEADERS = $(qmckl_h) include_HEADERS = $(qmckl_h)
test_qmckl_f = tests/qmckl_f.f90 test_qmckl_f = tests/qmckl_f.F90
test_qmckl_fo = tests/qmckl_f.o test_qmckl_fo = tests/qmckl_f.o
src_qmckl_f = src/qmckl_f.f90 src_qmckl_f = src/qmckl_f.F90
src_qmckl_fo = src/qmckl_f.o src_qmckl_fo = src/qmckl_f.o
header_tests = tests/chbrclf.h tests/n2.h header_tests = tests/chbrclf.h tests/n2.h
@ -139,7 +139,7 @@ cat_h_verbose_0 = @echo " HEADER $@";
## Rules ## Rules
## ===== ## =====
SUFFIXES = .f90 .h .org .c _f.f90 _func.h _type.h _private_func.h _private_type.h SUFFIXES = .F90 .h .org .c _f.F90 _func.h _type.h _private_func.h _private_type.h
$(test_qmckl_f): $(src_qmckl_f) $(test_qmckl_f): $(src_qmckl_f)
cp $(src_qmckl_f) $(test_qmckl_f) cp $(src_qmckl_f) $(test_qmckl_f)

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@ -71,13 +71,16 @@ AC_LANG(C)
# Checks for programs. # Checks for programs.
AC_PROG_CC AC_PROG_CC
AC_PROG_F77
# Make sure the c compiler supports C99 # Make sure the c compiler supports C99
m4_version_prereq([2.70],[], [AC_PROG_CC_C99]) m4_version_prereq([2.70],[], [AC_PROG_CC_C99])
AS_IF([test "$ac_cv_prog_cc_c99" = "no"], [AC_MSG_ERROR([The compiler does not support C99])]) AS_IF([test "$ac_cv_prog_cc_c99" = "no"], [AC_MSG_ERROR([The compiler does not support C99])])
AC_PROG_CC_C_O AC_PROG_CC_C_O
AC_PROG_FC AC_PROG_FC
AC_PROG_FC_C_O AC_PROG_FC_C_O
AC_FC_SRCEXT([f90]) AC_FC_PP_DEFINE
AC_FC_SRCEXT([F90])
AC_FC_FREEFORM AC_FC_FREEFORM
LT_INIT LT_INIT
AC_PROG_INSTALL AC_PROG_INSTALL
@ -192,6 +195,10 @@ esac
# Options. # Options.
AC_ARG_ENABLE(hpc, [AS_HELP_STRING([--enable-hpc],[Use HPC-optimized functions])], HAVE_HPC=$enableval, HAVE_HPC=no)
AS_IF([test "$HAVE_HPC" = "yes"], [
AC_DEFINE([HAVE_HPC], [1], [If defined, activate HPC routines])
])
AC_ARG_ENABLE(debug, [AS_HELP_STRING([--enable-debug],[compile for debugging])], ok=$enableval, ok=no) AC_ARG_ENABLE(debug, [AS_HELP_STRING([--enable-debug],[compile for debugging])], ok=$enableval, ok=no)
if test "$ok" = "yes"; then if test "$ok" = "yes"; then
@ -336,6 +343,7 @@ FCLAGS..........: ${FCFLAGS}
LDFLAGS:........: ${LDFLAGS} LDFLAGS:........: ${LDFLAGS}
LIBS............: ${LIBS} LIBS............: ${LIBS}
USE CHAMELEON...: ${with_chameleon} USE CHAMELEON...: ${with_chameleon}
HPC version.....: ${HAVE_HPC}
Package features: Package features:
${ARGS} ${ARGS}

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@ -58,6 +58,12 @@ gradients and Laplacian of the atomic basis functions.
#include <stdbool.h> #include <stdbool.h>
#+end_src #+end_src
#+begin_src f90 :tangle (eval f) :noweb yes
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#+end_src
#+begin_src c :tangle (eval c_test) :noweb yes #+begin_src c :tangle (eval c_test) :noweb yes
#include "qmckl.h" #include "qmckl.h"
#include "assert.h" #include "assert.h"
@ -2460,11 +2466,11 @@ for (int64_t i=0 ; i < ao_num ; ++i) {
|----------------------+-----------------------------------+----------------------------------------------------------------------------------------------| |----------------------+-----------------------------------+----------------------------------------------------------------------------------------------|
| Variable | Type | Description | | Variable | Type | Description |
|----------------------+-----------------------------------+----------------------------------------------------------------------------------------------| |----------------------+-----------------------------------+----------------------------------------------------------------------------------------------|
| ~primitive_vgl~ | ~double[5][point_num][prim_num]~ | Value, gradients, Laplacian of the primitives at current positions | | ~primitive_vgl~ | ~double[point_num][5][prim_num]~ | Value, gradients, Laplacian of the primitives at current positions |
| ~primitive_vgl_date~ | ~uint64_t~ | Last modification date of Value, gradients, Laplacian of the primitives at current positions | | ~primitive_vgl_date~ | ~uint64_t~ | Last modification date of Value, gradients, Laplacian of the primitives at current positions |
| ~shell_vgl~ | ~double[5][point_num][shell_num]~ | Value, gradients, Laplacian of the primitives at current positions | | ~shell_vgl~ | ~double[point_num][5][shell_num]~ | Value, gradients, Laplacian of the primitives at current positions |
| ~shell_vgl_date~ | ~uint64_t~ | Last modification date of Value, gradients, Laplacian of the AOs at current positions | | ~shell_vgl_date~ | ~uint64_t~ | Last modification date of Value, gradients, Laplacian of the AOs at current positions |
| ~ao_vgl~ | ~double[5][point_num][ao_num]~ | Value, gradients, Laplacian of the primitives at current positions | | ~ao_vgl~ | ~double[point_num][5][ao_num]~ | Value, gradients, Laplacian of the primitives at current positions |
| ~ao_vgl_date~ | ~uint64_t~ | Last modification date of Value, gradients, Laplacian of the AOs at current positions | | ~ao_vgl_date~ | ~uint64_t~ | Last modification date of Value, gradients, Laplacian of the AOs at current positions |
@ -3055,7 +3061,7 @@ assert(0 == test_qmckl_ao_gaussian_vgl(context));
| ~coord~ | ~double[3][point_num]~ | in | Coordinates | | ~coord~ | ~double[3][point_num]~ | in | Coordinates |
| ~nucl_coord~ | ~double[3][nucl_num]~ | in | Nuclear coordinates | | ~nucl_coord~ | ~double[3][nucl_num]~ | in | Nuclear coordinates |
| ~expo~ | ~double[prim_num]~ | in | Exponents of the primitives | | ~expo~ | ~double[prim_num]~ | in | Exponents of the primitives |
| ~primitive_vgl~ | ~double[5][point_num][prim_num]~ | out | Value, gradients and Laplacian of the primitives | | ~primitive_vgl~ | ~double[point_num][5][prim_num]~ | out | Value, gradients and Laplacian of the primitives |
#+CALL: generate_c_header(table=qmckl_ao_basis_primitive_gaussian_vgl_args,rettyp=get_value("CRetType"),fname="qmckl_compute_ao_basis_primitive_gaussian_vgl")) #+CALL: generate_c_header(table=qmckl_ao_basis_primitive_gaussian_vgl_args,rettyp=get_value("CRetType"),fname="qmckl_compute_ao_basis_primitive_gaussian_vgl"))
@ -3091,7 +3097,7 @@ integer function qmckl_compute_ao_basis_primitive_gaussian_vgl_f( &
double precision , intent(in) :: coord(point_num,3) double precision , intent(in) :: coord(point_num,3)
double precision , intent(in) :: nucl_coord(nucl_num,3) double precision , intent(in) :: nucl_coord(nucl_num,3)
double precision , intent(in) :: expo(prim_num) double precision , intent(in) :: expo(prim_num)
double precision , intent(out) :: primitive_vgl(prim_num,point_num,5) double precision , intent(out) :: primitive_vgl(prim_num,5,point_num)
integer*8 :: inucl, iprim, ipoint integer*8 :: inucl, iprim, ipoint
double precision :: x, y, z, two_a, ar2, r2, v, cutoff double precision :: x, y, z, two_a, ar2, r2, v, cutoff
@ -3116,11 +3122,11 @@ integer function qmckl_compute_ao_basis_primitive_gaussian_vgl_f( &
v = dexp(-ar2) v = dexp(-ar2)
two_a = -2.d0 * expo(iprim) * v two_a = -2.d0 * expo(iprim) * v
primitive_vgl(iprim, ipoint, 1) = v primitive_vgl(iprim, 1, ipoint) = v
primitive_vgl(iprim, ipoint, 2) = two_a * x primitive_vgl(iprim, 2, ipoint) = two_a * x
primitive_vgl(iprim, ipoint, 3) = two_a * y primitive_vgl(iprim, 3, ipoint) = two_a * y
primitive_vgl(iprim, ipoint, 4) = two_a * z primitive_vgl(iprim, 4, ipoint) = two_a * z
primitive_vgl(iprim, ipoint, 5) = two_a * (3.d0 - 2.d0*ar2) primitive_vgl(iprim, 5, ipoint) = two_a * (3.d0 - 2.d0*ar2)
end do end do
end do end do
@ -3156,7 +3162,7 @@ end function qmckl_compute_ao_basis_primitive_gaussian_vgl_f
real (c_double ) , intent(in) :: coord(point_num,3) real (c_double ) , intent(in) :: coord(point_num,3)
real (c_double ) , intent(in) :: nucl_coord(nucl_num,3) real (c_double ) , intent(in) :: nucl_coord(nucl_num,3)
real (c_double ) , intent(in) :: expo(prim_num) real (c_double ) , intent(in) :: expo(prim_num)
real (c_double ) , intent(out) :: primitive_vgl(prim_num,point_num,5) real (c_double ) , intent(out) :: primitive_vgl(prim_num,5,point_num)
integer(c_int32_t), external :: qmckl_compute_ao_basis_primitive_gaussian_vgl_f integer(c_int32_t), external :: qmckl_compute_ao_basis_primitive_gaussian_vgl_f
info = qmckl_compute_ao_basis_primitive_gaussian_vgl_f & info = qmckl_compute_ao_basis_primitive_gaussian_vgl_f &
@ -3317,17 +3323,17 @@ print ( "[7][4][26] : %e"% lf(a,x,y))
double prim_vgl[5][elec_num*walk_num][prim_num]; double prim_vgl[elec_num*walk_num][5][prim_num];
rc = qmckl_get_ao_basis_primitive_vgl(context, &(prim_vgl[0][0][0]), rc = qmckl_get_ao_basis_primitive_vgl(context, &(prim_vgl[0][0][0]),
(int64_t) 5*elec_num*walk_num*prim_num ); (int64_t) 5*elec_num*walk_num*prim_num );
assert (rc == QMCKL_SUCCESS); assert (rc == QMCKL_SUCCESS);
assert( fabs(prim_vgl[0][26][7] - ( 1.0501570432064878E-003)) < 1.e-14 ); assert( fabs(prim_vgl[26][0][7] - ( 1.0501570432064878E-003)) < 1.e-14 );
assert( fabs(prim_vgl[1][26][7] - (-7.5014974095310560E-004)) < 1.e-14 ); assert( fabs(prim_vgl[26][1][7] - (-7.5014974095310560E-004)) < 1.e-14 );
assert( fabs(prim_vgl[2][26][7] - (-3.8250692897610380E-003)) < 1.e-14 ); assert( fabs(prim_vgl[26][2][7] - (-3.8250692897610380E-003)) < 1.e-14 );
assert( fabs(prim_vgl[3][26][7] - ( 3.4950559194080275E-003)) < 1.e-14 ); assert( fabs(prim_vgl[26][3][7] - ( 3.4950559194080275E-003)) < 1.e-14 );
assert( fabs(prim_vgl[4][26][7] - ( 2.0392163767356572E-002)) < 1.e-14 ); assert( fabs(prim_vgl[26][4][7] - ( 2.0392163767356572E-002)) < 1.e-14 );
} }
@ -3387,7 +3393,7 @@ for (j=0 ; j<point_num ; ++j) {
| ~nucl_coord~ | ~double[3][nucl_num]~ | in | Nuclear coordinates | | ~nucl_coord~ | ~double[3][nucl_num]~ | in | Nuclear coordinates |
| ~expo~ | ~double[prim_num]~ | in | Exponents of the primitives | | ~expo~ | ~double[prim_num]~ | in | Exponents of the primitives |
| ~coef_normalized~ | ~double[prim_num]~ | in | Coefficients of the primitives | | ~coef_normalized~ | ~double[prim_num]~ | in | Coefficients of the primitives |
| ~shell_vgl~ | ~double[5][point_num][shell_num]~ | out | Value, gradients and Laplacian of the shells | | ~shell_vgl~ | ~double[point_num][5][shell_num]~ | out | Value, gradients and Laplacian of the shells |
#+CALL: generate_c_header(table=qmckl_ao_basis_shell_gaussian_vgl_args,rettyp=get_value("CRetType"),fname="qmckl_compute_ao_basis_shell_gaussian_vgl")) #+CALL: generate_c_header(table=qmckl_ao_basis_shell_gaussian_vgl_args,rettyp=get_value("CRetType"),fname="qmckl_compute_ao_basis_shell_gaussian_vgl"))
@ -3432,7 +3438,7 @@ integer function qmckl_compute_ao_basis_shell_gaussian_vgl_f( &
double precision , intent(in) :: nucl_coord(nucl_num,3) double precision , intent(in) :: nucl_coord(nucl_num,3)
double precision , intent(in) :: expo(prim_num) double precision , intent(in) :: expo(prim_num)
double precision , intent(in) :: coef_normalized(prim_num) double precision , intent(in) :: coef_normalized(prim_num)
double precision , intent(out) :: shell_vgl(shell_num,point_num,5) double precision , intent(out) :: shell_vgl(shell_num,5,point_num)
integer*8 :: inucl, iprim, ipoint, ishell integer*8 :: inucl, iprim, ipoint, ishell
integer*8 :: ishell_start, ishell_end integer*8 :: ishell_start, ishell_end
@ -3461,11 +3467,11 @@ integer function qmckl_compute_ao_basis_shell_gaussian_vgl_f( &
do ishell=ishell_start, ishell_end do ishell=ishell_start, ishell_end
shell_vgl(ishell, ipoint, 1) = 0.d0 shell_vgl(ishell, 1, ipoint) = 0.d0
shell_vgl(ishell, ipoint, 2) = 0.d0 shell_vgl(ishell, 2, ipoint) = 0.d0
shell_vgl(ishell, ipoint, 3) = 0.d0 shell_vgl(ishell, 3, ipoint) = 0.d0
shell_vgl(ishell, ipoint, 4) = 0.d0 shell_vgl(ishell, 4, ipoint) = 0.d0
shell_vgl(ishell, ipoint, 5) = 0.d0 shell_vgl(ishell, 5, ipoint) = 0.d0
iprim_start = shell_prim_index(ishell) + 1 iprim_start = shell_prim_index(ishell) + 1
iprim_end = shell_prim_index(ishell) + shell_prim_num(ishell) iprim_end = shell_prim_index(ishell) + shell_prim_num(ishell)
@ -3480,20 +3486,20 @@ integer function qmckl_compute_ao_basis_shell_gaussian_vgl_f( &
v = coef_normalized(iprim) * dexp(-ar2) v = coef_normalized(iprim) * dexp(-ar2)
two_a = -2.d0 * expo(iprim) * v two_a = -2.d0 * expo(iprim) * v
shell_vgl(ishell, ipoint, 1) = & shell_vgl(ishell, 1, ipoint) = &
shell_vgl(ishell, ipoint, 1) + v shell_vgl(ishell, 1, ipoint) + v
shell_vgl(ishell, ipoint, 2) = & shell_vgl(ishell, 2, ipoint) = &
shell_vgl(ishell, ipoint, 2) + two_a * x shell_vgl(ishell, 2, ipoint) + two_a * x
shell_vgl(ishell, ipoint, 3) = & shell_vgl(ishell, 3, ipoint) = &
shell_vgl(ishell, ipoint, 3) + two_a * y shell_vgl(ishell, 3, ipoint) + two_a * y
shell_vgl(ishell, ipoint, 4) = & shell_vgl(ishell, 4, ipoint) = &
shell_vgl(ishell, ipoint, 4) + two_a * z shell_vgl(ishell, 4, ipoint) + two_a * z
shell_vgl(ishell, ipoint, 5) = & shell_vgl(ishell, 5, ipoint) = &
shell_vgl(ishell, ipoint, 5) + two_a * (3.d0 - 2.d0*ar2) shell_vgl(ishell, 5, ipoint) + two_a * (3.d0 - 2.d0*ar2)
end do end do
@ -3542,7 +3548,7 @@ end function qmckl_compute_ao_basis_shell_gaussian_vgl_f
real (c_double ) , intent(in) :: nucl_coord(nucl_num,3) real (c_double ) , intent(in) :: nucl_coord(nucl_num,3)
real (c_double ) , intent(in) :: expo(prim_num) real (c_double ) , intent(in) :: expo(prim_num)
real (c_double ) , intent(in) :: coef_normalized(prim_num) real (c_double ) , intent(in) :: coef_normalized(prim_num)
real (c_double ) , intent(out) :: shell_vgl(shell_num,point_num,5) real (c_double ) , intent(out) :: shell_vgl(shell_num,5,point_num)
integer(c_int32_t), external :: qmckl_compute_ao_basis_shell_gaussian_vgl_f integer(c_int32_t), external :: qmckl_compute_ao_basis_shell_gaussian_vgl_f
info = qmckl_compute_ao_basis_shell_gaussian_vgl_f & info = qmckl_compute_ao_basis_shell_gaussian_vgl_f &
@ -3723,23 +3729,23 @@ print ( "[1][4][26] : %25.15e"% lf(a,x,y))
assert(rc == QMCKL_SUCCESS); assert(rc == QMCKL_SUCCESS);
double shell_vgl[5][elec_num][shell_num]; double shell_vgl[elec_num][5][shell_num];
rc = qmckl_get_ao_basis_shell_vgl(context, &(shell_vgl[0][0][0]), rc = qmckl_get_ao_basis_shell_vgl(context, &(shell_vgl[0][0][0]),
(int64_t) 5*elec_num*shell_num); (int64_t) 5*elec_num*shell_num);
assert (rc == QMCKL_SUCCESS); assert (rc == QMCKL_SUCCESS);
printf(" shell_vgl[1][0][26] %25.15e\n", shell_vgl[0][26][1]); printf(" shell_vgl[26][0][1] %25.15e\n", shell_vgl[26][0][1]);
printf(" shell_vgl[1][1][26] %25.15e\n", shell_vgl[1][26][1]); printf(" shell_vgl[26][1][1] %25.15e\n", shell_vgl[26][1][1]);
printf(" shell_vgl[1][2][26] %25.15e\n", shell_vgl[2][26][1]); printf(" shell_vgl[26][2][1] %25.15e\n", shell_vgl[26][2][1]);
printf(" shell_vgl[1][3][26] %25.15e\n", shell_vgl[3][26][1]); printf(" shell_vgl[26][3][1] %25.15e\n", shell_vgl[26][3][1]);
printf(" shell_vgl[1][4][26] %25.15e\n", shell_vgl[4][26][1]); printf(" shell_vgl[26][4][1] %25.15e\n", shell_vgl[26][4][1]);
assert( fabs(shell_vgl[0][26][1] - ( 3.564393437193868e-02)) < 1.e-14 ); assert( fabs(shell_vgl[26][0][1] - ( 3.564393437193868e-02)) < 1.e-14 );
assert( fabs(shell_vgl[1][26][1] - (-6.030177987072189e-03)) < 1.e-14 ); assert( fabs(shell_vgl[26][1][1] - (-6.030177987072189e-03)) < 1.e-14 );
assert( fabs(shell_vgl[2][26][1] - (-3.074832579537582e-02)) < 1.e-14 ); assert( fabs(shell_vgl[26][2][1] - (-3.074832579537582e-02)) < 1.e-14 );
assert( fabs(shell_vgl[3][26][1] - ( 2.809546963519935e-02)) < 1.e-14 ); assert( fabs(shell_vgl[26][3][1] - ( 2.809546963519935e-02)) < 1.e-14 );
assert( fabs(shell_vgl[4][26][1] - ( 1.896046117183968e-02)) < 1.e-14 ); assert( fabs(shell_vgl[26][4][1] - ( 1.896046117183968e-02)) < 1.e-14 );
} }
@ -4041,7 +4047,6 @@ assert(0 == test_qmckl_ao_power(context));
const int64_t ldv ); const int64_t ldv );
#+end_src #+end_src
#+begin_src f90 :tangle (eval f) #+begin_src f90 :tangle (eval f)
integer function qmckl_ao_polynomial_vgl_f (context, & integer function qmckl_ao_polynomial_vgl_f (context, &
X, R, lmax, n, L, ldl, VGL, ldv) result(info) X, R, lmax, n, L, ldl, VGL, ldv) result(info)
@ -4226,6 +4231,204 @@ end function qmckl_ao_polynomial_vgl_f
end interface end interface
#+end_src #+end_src
#+begin_src c :tangle (eval h_func) :comments org
qmckl_exit_code qmckl_ao_polynomial_transp_vgl (
const qmckl_context context,
const double* X,
const double* R,
const int32_t lmax,
int64_t* n,
int32_t* const L,
const int64_t ldl,
double* const VGL,
const int64_t ldv );
#+end_src
#+begin_src f90 :tangle (eval f)
integer function qmckl_ao_polynomial_transp_vgl_f (context, &
X, R, lmax, n, L, ldl, VGL, ldv) result(info)
use qmckl
implicit none
integer*8 , intent(in) :: context
real*8 , intent(in) :: X(3), R(3)
integer , intent(in) :: lmax
integer*8 , intent(out) :: n
integer , intent(out) :: L(ldl,(lmax+1)*(lmax+2)*(lmax+3)/6)
integer*8 , intent(in) :: ldl
real*8 , intent(out) :: VGL(ldv,5)
integer*8 , intent(in) :: ldv
integer*8 :: i,j
integer :: a,b,c,d
real*8 :: Y(3)
integer :: lmax_array(3)
real*8 :: pows(-2:lmax,3)
double precision :: xy, yz, xz
double precision :: da, db, dc, dd
info = 0
if (context == QMCKL_NULL_CONTEXT) then
info = QMCKL_INVALID_CONTEXT
return
endif
if (lmax < 0) then
info = QMCKL_INVALID_ARG_4
return
endif
if (ldl < 3) then
info = QMCKL_INVALID_ARG_7
return
endif
if (ldv < (lmax+1)*(lmax+2)*(lmax+3)/6) then
info = QMCKL_INVALID_ARG_9
return
endif
do i=1,3
Y(i) = X(i) - R(i)
end do
lmax_array(1:3) = lmax
if (lmax == 0) then
VGL(1,1) = 1.d0
VGL(1,2:5) = 0.d0
l(1:3,1) = 0
n=1
else if (lmax > 0) then
pows(-2:0,1:3) = 1.d0
do i=1,lmax
pows(i,1) = pows(i-1,1) * Y(1)
pows(i,2) = pows(i-1,2) * Y(2)
pows(i,3) = pows(i-1,3) * Y(3)
end do
l (1:3,1:4) = 0
VGL(1:4,1:5) = 0.d0
VGL(1 ,1 ) = 1.d0
VGL(2:4,1:5) = 0.d0
l (1,2) = 1
VGL(2,1) = pows(1,1)
VGL(2,2) = 1.d0
l (2,3) = 1
VGL(3,1) = pows(1,2)
VGL(3,3) = 1.d0
l (3,4) = 1
VGL(4,1) = pows(1,3)
VGL(4,4) = 1.d0
n=4
endif
! l>=2
dd = 2.d0
do d=2,lmax
da = dd
do a=d,0,-1
db = dd-da
do b=d-a,0,-1
c = d - a - b
dc = dd - da - db
n = n+1
l(1,n) = a
l(2,n) = b
l(3,n) = c
xy = pows(a,1) * pows(b,2)
yz = pows(b,2) * pows(c,3)
xz = pows(a,1) * pows(c,3)
VGL(n,1) = xy * pows(c,3)
xy = dc * xy
xz = db * xz
yz = da * yz
VGL(n,2) = pows(a-1,1) * yz
VGL(n,3) = pows(b-1,2) * xz
VGL(n,4) = pows(c-1,3) * xy
VGL(n,5) = &
(da-1.d0) * pows(a-2,1) * yz + &
(db-1.d0) * pows(b-2,2) * xz + &
(dc-1.d0) * pows(c-2,3) * xy
db = db - 1.d0
end do
da = da - 1.d0
end do
dd = dd + 1.d0
end do
info = QMCKL_SUCCESS
end function qmckl_ao_polynomial_transp_vgl_f
#+end_src
#+CALL: generate_c_interface(table=qmckl_ao_polynomial_vgl_args,rettyp=get_value("CRetType"),fname=get_value("Name"))
#+RESULTS:
#+begin_src f90 :tangle (eval f) :comments org :exports none
integer(c_int32_t) function qmckl_ao_polynomial_transp_vgl &
(context, X, R, lmax, n, L, ldl, VGL, ldv) &
bind(C) result(info)
use, intrinsic :: iso_c_binding
implicit none
integer (c_int64_t) , intent(in) , value :: context
real (c_double ) , intent(in) :: X(3)
real (c_double ) , intent(in) :: R(3)
integer (c_int32_t) , intent(in) , value :: lmax
integer (c_int64_t) , intent(inout) :: n
integer (c_int32_t) , intent(out) :: L(ldl,n)
integer (c_int64_t) , intent(in) , value :: ldl
real (c_double ) , intent(out) :: VGL(ldv,5)
integer (c_int64_t) , intent(in) , value :: ldv
integer(c_int32_t), external :: qmckl_ao_polynomial_transp_vgl_f
info = qmckl_ao_polynomial_transp_vgl_f &
(context, X, R, lmax, n, L, ldl, VGL, ldv)
end function qmckl_ao_polynomial_transp_vgl
#+end_src
#+CALL: generate_f_interface(table=qmckl_ao_polynomial_vgl_args,rettyp=get_value("FRetType"),fname=get_value("Name"))
#+RESULTS:
#+begin_src f90 :tangle (eval fh_func) :comments org :exports none
interface
integer(c_int32_t) function qmckl_ao_polynomial_transp_vgl &
(context, X, R, lmax, n, L, ldl, VGL, ldv) &
bind(C)
use, intrinsic :: iso_c_binding
import
implicit none
integer (c_int64_t) , intent(in) , value :: context
real (c_double ) , intent(in) :: X(3)
real (c_double ) , intent(in) :: R(3)
integer (c_int32_t) , intent(in) , value :: lmax
integer (c_int64_t) , intent(inout) :: n
integer (c_int32_t) , intent(out) :: L(ldl,n)
integer (c_int64_t) , intent(in) , value :: ldl
real (c_double ) , intent(out) :: VGL(ldv,5)
integer (c_int64_t) , intent(in) , value :: ldv
end function qmckl_ao_polynomial_transp_vgl
end interface
#+end_src
*** Test :noexport: *** Test :noexport:
#+begin_src f90 :tangle (eval f_test) #+begin_src f90 :tangle (eval f_test)
@ -4348,11 +4551,12 @@ end function test_qmckl_ao_polynomial_vgl
| ~nucleus_max_ang_mom~ | ~int32_t[nucl_num]~ | in | Maximum angular momentum per nucleus | | ~nucleus_max_ang_mom~ | ~int32_t[nucl_num]~ | in | Maximum angular momentum per nucleus |
| ~shell_ang_mom~ | ~int32_t[shell_num]~ | in | Angular momentum of each shell | | ~shell_ang_mom~ | ~int32_t[shell_num]~ | in | Angular momentum of each shell |
| ~ao_factor~ | ~double[ao_num]~ | in | Normalization factor of the AOs | | ~ao_factor~ | ~double[ao_num]~ | in | Normalization factor of the AOs |
| ~shell_vgl~ | ~double[5][point_num][shell_num]~ | in | Value, gradients and Laplacian of the shells | | ~shell_vgl~ | ~double[point_num][5][shell_num]~ | in | Value, gradients and Laplacian of the shells |
| ~ao_vgl~ | ~double[5][point_num][ao_num]~ | out | Value, gradients and Laplacian of the AOs | | ~ao_vgl~ | ~double[point_num][5][ao_num]~ | out | Value, gradients and Laplacian of the AOs |
** Unoptimized version
#+begin_src f90 :comments org :tangle (eval f) :noweb yes #+begin_src f90 :comments org :tangle (eval f) :noweb yes
integer function qmckl_compute_ao_vgl_f(context, & integer function qmckl_compute_ao_vgl_doc_f(context, &
ao_num, shell_num, point_num, nucl_num, & ao_num, shell_num, point_num, nucl_num, &
coord, nucl_coord, nucleus_index, nucleus_shell_num, & coord, nucl_coord, nucleus_index, nucleus_shell_num, &
nucleus_range, nucleus_max_ang_mom, shell_ang_mom, & nucleus_range, nucleus_max_ang_mom, shell_ang_mom, &
@ -4373,12 +4577,12 @@ integer function qmckl_compute_ao_vgl_f(context, &
integer , intent(in) :: nucleus_max_ang_mom(nucl_num) integer , intent(in) :: nucleus_max_ang_mom(nucl_num)
integer , intent(in) :: shell_ang_mom(shell_num) integer , intent(in) :: shell_ang_mom(shell_num)
double precision , intent(in) :: ao_factor(ao_num) double precision , intent(in) :: ao_factor(ao_num)
double precision , intent(in) :: shell_vgl(shell_num,point_num,5) double precision , intent(in) :: shell_vgl(shell_num,5,point_num)
double precision , intent(out) :: ao_vgl(ao_num,point_num,5) double precision , intent(out) :: ao_vgl(ao_num,5,point_num)
double precision :: e_coord(3), n_coord(3) double precision :: e_coord(3), n_coord(3)
integer*8 :: n_poly integer*8 :: n_poly
integer :: l, il, k, m, n integer :: l, il, k
integer*8 :: ipoint, inucl, ishell integer*8 :: ipoint, inucl, ishell
integer*8 :: ishell_start, ishell_end integer*8 :: ishell_start, ishell_end
integer :: lstart(0:20) integer :: lstart(0:20)
@ -4388,45 +4592,24 @@ integer function qmckl_compute_ao_vgl_f(context, &
double precision, allocatable :: poly_vgl(:,:) double precision, allocatable :: poly_vgl(:,:)
integer , allocatable :: powers(:,:) integer , allocatable :: powers(:,:)
integer , allocatable :: kil(:), knucl(:), kshell(:)
allocate(poly_vgl(8,ao_num), powers(8,ao_num)) allocate(poly_vgl(5,ao_num), powers(3,ao_num))
allocate(kil(ao_num), kshell(ao_num), knucl(nucl_num+1))
! Pre-computed data ! Pre-computed data
do l=0,20
k=1 lstart(l) = l*(l+1)*(l+2)/6 +1
do inucl=1,nucl_num
knucl(inucl) = k
ishell_start = nucleus_index(inucl) + 1
ishell_end = nucleus_index(inucl) + nucleus_shell_num(inucl)
do ishell = ishell_start, ishell_end
l = shell_ang_mom(ishell)
m = l*(l+1)*(l+2)/6 +1
n = (l+1)*(l+2)*(l+3)/6
do il = m, n
kil(k) = il
kshell(k) = ishell
k = k+1
end do end do
end do
end do
knucl(nucl_num+1) = ao_num+1
info = QMCKL_SUCCESS info = QMCKL_SUCCESS
! Don't compute polynomials when the radial part is zero. ! Don't compute polynomials when the radial part is zero.
! TODO : Use numerical precision here
cutoff = -dlog(1.d-12) cutoff = -dlog(1.d-12)
do ipoint = 1, point_num do ipoint = 1, point_num
e_coord(1) = coord(ipoint,1) e_coord(1) = coord(ipoint,1)
e_coord(2) = coord(ipoint,2) e_coord(2) = coord(ipoint,2)
e_coord(3) = coord(ipoint,3) e_coord(3) = coord(ipoint,3)
k=1
! Express the radial part in the AO basis
do inucl=1,nucl_num do inucl=1,nucl_num
n_coord(1) = nucl_coord(inucl,1) n_coord(1) = nucl_coord(inucl,1)
n_coord(2) = nucl_coord(inucl,2) n_coord(2) = nucl_coord(inucl,2)
@ -4437,53 +4620,201 @@ integer function qmckl_compute_ao_vgl_f(context, &
y = e_coord(2) - n_coord(2) y = e_coord(2) - n_coord(2)
z = e_coord(3) - n_coord(3) z = e_coord(3) - n_coord(3)
r2 = x*x + y*y + z*z r2 = x*x + z*z + z*z
if (r2 > cutoff*nucleus_range(inucl)) then if (r2 > cutoff*nucleus_range(inucl)) then
do k = knucl(inucl), knucl(inucl+1)-1
ao_vgl(k,ipoint,1) = 0.d0
ao_vgl(k,ipoint,2) = 0.d0
ao_vgl(k,ipoint,3) = 0.d0
ao_vgl(k,ipoint,4) = 0.d0
ao_vgl(k,ipoint,5) = 0.d0
end do
cycle cycle
end if end if
! Compute polynomials ! Compute polynomials
info = qmckl_ao_polynomial_vgl_f(context, e_coord, n_coord, & info = qmckl_ao_polynomial_vgl_f(context, e_coord, n_coord, &
nucleus_max_ang_mom(inucl), n_poly, powers, 8_8, poly_vgl, 8_8) nucleus_max_ang_mom(inucl), n_poly, powers, 3_8, &
poly_vgl, 5_8)
do k = knucl(inucl), knucl(inucl+1)-1 ! Loop over shells
y = shell_vgl(kshell(k),ipoint,1) * ao_factor(k) ishell_start = nucleus_index(inucl) + 1
ishell_end = nucleus_index(inucl) + nucleus_shell_num(inucl)
do ishell = ishell_start, ishell_end
l = shell_ang_mom(ishell)
do il = lstart(l), lstart(l+1)-1
! Value
ao_vgl(k,1,ipoint) = &
poly_vgl(1,il) * shell_vgl(ishell,1,ipoint) * ao_factor(k)
ao_vgl(k,ipoint,1) = y * poly_vgl(1,kil(k)) ! Grad_x
ao_vgl(k,ipoint,2) = y * poly_vgl(2,kil(k)) ao_vgl(k,2,ipoint) = ( &
ao_vgl(k,ipoint,3) = y * poly_vgl(3,kil(k)) poly_vgl(2,il) * shell_vgl(ishell,1,ipoint) + &
ao_vgl(k,ipoint,4) = y * poly_vgl(4,kil(k)) poly_vgl(1,il) * shell_vgl(ishell,2,ipoint) &
ao_vgl(k,ipoint,5) = y * poly_vgl(5,kil(k)) ) * ao_factor(k)
x = poly_vgl(1,kil(k)) * ao_factor(k) ! Grad_y
ao_vgl(k,3,ipoint) = ( &
poly_vgl(3,il) * shell_vgl(ishell,1,ipoint) + &
poly_vgl(1,il) * shell_vgl(ishell,3,ipoint) &
) * ao_factor(k)
ao_vgl(k,ipoint,2) = ao_vgl(k,ipoint,2) + x * shell_vgl(kshell(k),ipoint,2) ! Grad_z
ao_vgl(k,ipoint,3) = ao_vgl(k,ipoint,3) + x * shell_vgl(kshell(k),ipoint,3) ao_vgl(k,4,ipoint) = ( &
ao_vgl(k,ipoint,4) = ao_vgl(k,ipoint,4) + x * shell_vgl(kshell(k),ipoint,4) poly_vgl(4,il) * shell_vgl(ishell,1,ipoint) + &
ao_vgl(k,ipoint,5) = ao_vgl(k,ipoint,5) + x * shell_vgl(kshell(k),ipoint,5) poly_vgl(1,il) * shell_vgl(ishell,4,ipoint) &
) * ao_factor(k)
ao_vgl(k,ipoint,5) = ao_vgl(k,ipoint,5) + & ! Lapl_z
(ao_factor(k) + ao_factor(k)) * (& ao_vgl(k,5,ipoint) = ( &
poly_vgl(2,kil(k)) * shell_vgl(kshell(k),ipoint,2) + & poly_vgl(5,il) * shell_vgl(ishell,1,ipoint) + &
poly_vgl(3,kil(k)) * shell_vgl(kshell(k),ipoint,3) + & poly_vgl(1,il) * shell_vgl(ishell,5,ipoint) + &
poly_vgl(4,kil(k)) * shell_vgl(kshell(k),ipoint,4) ) 2.d0 * ( &
poly_vgl(2,il) * shell_vgl(ishell,2,ipoint) + &
poly_vgl(3,il) * shell_vgl(ishell,3,ipoint) + &
poly_vgl(4,il) * shell_vgl(ishell,4,ipoint) ) &
) * ao_factor(k)
k = k+1
end do
end do end do
end do end do
end do end do
deallocate(poly_vgl, powers, kshell, kil, knucl) deallocate(poly_vgl, powers)
end function qmckl_compute_ao_vgl_f end function qmckl_compute_ao_vgl_doc_f
#+end_src #+end_src
** HPC version
#+begin_src f90 :comments org :tangle (eval f) :noweb yes
integer function qmckl_compute_ao_vgl_hpc_f(context, &
ao_num, shell_num, point_num, nucl_num, &
coord, nucl_coord, nucleus_index, nucleus_shell_num, &
nucleus_range, nucleus_max_ang_mom, shell_ang_mom, &
ao_factor, shell_vgl, ao_vgl) &
result(info)
use qmckl
implicit none
integer(qmckl_context), intent(in) :: context
integer*8 , intent(in) :: ao_num
integer*8 , intent(in) :: shell_num
integer*8 , intent(in) :: point_num
integer*8 , intent(in) :: nucl_num
double precision , intent(in) :: coord(point_num,3)
double precision , intent(in) :: nucl_coord(nucl_num,3)
integer*8 , intent(in) :: nucleus_index(nucl_num)
integer*8 , intent(in) :: nucleus_shell_num(nucl_num)
double precision , intent(in) :: nucleus_range(nucl_num)
integer , intent(in) :: nucleus_max_ang_mom(nucl_num)
integer , intent(in) :: shell_ang_mom(shell_num)
double precision , intent(in) :: ao_factor(ao_num)
double precision , intent(in) :: shell_vgl(shell_num,5,point_num)
double precision , intent(out) :: ao_vgl(ao_num,5,point_num)
double precision :: e_coord(3), n_coord(3)
integer*8 :: n_poly
integer :: l, il, k
integer*8 :: ipoint, inucl, ishell
integer*8 :: ishell_start, ishell_end
integer :: lstart(0:20)
double precision :: x, y, z, r2
double precision :: cutoff
integer, external :: qmckl_ao_polynomial_transp_vgl_f
double precision, allocatable :: poly_vgl(:,:)
integer , allocatable :: powers(:,:)
allocate(poly_vgl(ao_num,5), powers(3,ao_num))
! Pre-computed data
do l=0,20
lstart(l) = l*(l+1)*(l+2)/6 +1
end do
info = QMCKL_SUCCESS
! Don't compute polynomials when the radial part is zero.
cutoff = -dlog(1.d-12)
do ipoint = 1, point_num
e_coord(1) = coord(ipoint,1)
e_coord(2) = coord(ipoint,2)
e_coord(3) = coord(ipoint,3)
k=1
do inucl=1,nucl_num
n_coord(1) = nucl_coord(inucl,1)
n_coord(2) = nucl_coord(inucl,2)
n_coord(3) = nucl_coord(inucl,3)
! Test if the point is in the range of the nucleus
x = e_coord(1) - n_coord(1)
y = e_coord(2) - n_coord(2)
z = e_coord(3) - n_coord(3)
r2 = x*x + z*z + z*z
if (r2 > cutoff*nucleus_range(inucl)) then
cycle
end if
! Compute polynomials
info = qmckl_ao_polynomial_transp_vgl_f(context, e_coord, n_coord, &
nucleus_max_ang_mom(inucl), n_poly, powers, 3_8, &
poly_vgl, int(ao_num,8))
! Loop over shells
ishell_start = nucleus_index(inucl) + 1
ishell_end = nucleus_index(inucl) + nucleus_shell_num(inucl)
do ishell = ishell_start, ishell_end
l = shell_ang_mom(ishell)
if (shell_vgl(ishell,1,ipoint) /= 0.d0) then
do il = lstart(l), lstart(l+1)-1
! Value
ao_vgl(k,1,ipoint) = &
poly_vgl(il,1) * shell_vgl(ishell,1,ipoint) * ao_factor(k)
! Grad_x
ao_vgl(k,2,ipoint) = ( &
poly_vgl(il,2) * shell_vgl(ishell,1,ipoint) + &
poly_vgl(il,1) * shell_vgl(ishell,2,ipoint) &
) * ao_factor(k)
! Grad_y
ao_vgl(k,3,ipoint) = ( &
poly_vgl(il,3) * shell_vgl(ishell,1,ipoint) + &
poly_vgl(il,1) * shell_vgl(ishell,3,ipoint) &
) * ao_factor(k)
! Grad_z
ao_vgl(k,4,ipoint) = ( &
poly_vgl(il,4) * shell_vgl(ishell,1,ipoint) + &
poly_vgl(il,1) * shell_vgl(ishell,4,ipoint) &
) * ao_factor(k)
! Lapl_z
ao_vgl(k,5,ipoint) = ( &
poly_vgl(il,5) * shell_vgl(ishell,1,ipoint) + &
poly_vgl(il,1) * shell_vgl(ishell,5,ipoint) + &
2.d0 * ( &
poly_vgl(il,2) * shell_vgl(ishell,2,ipoint) + &
poly_vgl(il,3) * shell_vgl(ishell,3,ipoint) + &
poly_vgl(il,4) * shell_vgl(ishell,4,ipoint) ) &
) * ao_factor(k)
k = k+1
end do
else
do il = lstart(l), lstart(l+1)-1
ao_vgl(k,1,ipoint) = 0.d0
ao_vgl(k,2,ipoint) = 0.d0
ao_vgl(k,3,ipoint) = 0.d0
ao_vgl(k,4,ipoint) = 0.d0
ao_vgl(k,5,ipoint) = 0.d0
k = k+1
end do
end if
end do
end do
end do
deallocate(poly_vgl, powers)
end function qmckl_compute_ao_vgl_hpc_f
#+end_src
** Interfaces
# #+CALL: generate_c_header(table=qmckl_ao_vgl_args,rettyp=get_value("CRetType"),fname="qmckl_compute_ao_vgl")) # #+CALL: generate_c_header(table=qmckl_ao_vgl_args,rettyp=get_value("CRetType"),fname="qmckl_compute_ao_vgl"))
# (Commented because the header needs to go into h_private_func # (Commented because the header needs to go into h_private_func
@ -4545,11 +4876,16 @@ end function qmckl_compute_ao_vgl_f
integer (c_int32_t) , intent(in) :: nucleus_max_ang_mom(nucl_num) integer (c_int32_t) , intent(in) :: nucleus_max_ang_mom(nucl_num)
integer (c_int32_t) , intent(in) :: shell_ang_mom(shell_num) integer (c_int32_t) , intent(in) :: shell_ang_mom(shell_num)
real (c_double ) , intent(in) :: ao_factor(ao_num) real (c_double ) , intent(in) :: ao_factor(ao_num)
real (c_double ) , intent(in) :: shell_vgl(shell_num,point_num,5) real (c_double ) , intent(in) :: shell_vgl(shell_num,5,point_num)
real (c_double ) , intent(out) :: ao_vgl(ao_num,point_num,5) real (c_double ) , intent(out) :: ao_vgl(ao_num,5,point_num)
integer(c_int32_t), external :: qmckl_compute_ao_vgl_f #ifdef HAVE_HPC
info = qmckl_compute_ao_vgl_f & integer(c_int32_t), external :: qmckl_compute_ao_vgl_hpc_f
info = qmckl_compute_ao_vgl_hpc_f &
#else
integer(c_int32_t), external :: qmckl_compute_ao_vgl_doc_f
info = qmckl_compute_ao_vgl_doc_f &
#endif
(context, & (context, &
ao_num, & ao_num, &
shell_num, & shell_num, &
@ -4750,39 +5086,39 @@ rc = qmckl_set_electron_coord (context, 'N', elec_coord, walk_num*elec_num*3);
assert(rc == QMCKL_SUCCESS); assert(rc == QMCKL_SUCCESS);
double ao_vgl[5][elec_num][ao_num]; double ao_vgl[elec_num][5][ao_num];
rc = qmckl_get_ao_basis_ao_vgl(context, &(ao_vgl[0][0][0]), rc = qmckl_get_ao_basis_ao_vgl(context, &(ao_vgl[0][0][0]),
(int64_t) 5*elec_num*ao_num); (int64_t) 5*elec_num*ao_num);
assert (rc == QMCKL_SUCCESS); assert (rc == QMCKL_SUCCESS);
printf("\n"); printf("\n");
printf(" ao_vgl ao_vgl[0][26][219] %25.15e\n", ao_vgl[0][26][219]); printf(" ao_vgl ao_vgl[0][26][219] %25.15e\n", ao_vgl[26][0][219]);
printf(" ao_vgl ao_vgl[1][26][219] %25.15e\n", ao_vgl[1][26][219]); printf(" ao_vgl ao_vgl[1][26][219] %25.15e\n", ao_vgl[26][1][219]);
printf(" ao_vgl ao_vgl[0][26][220] %25.15e\n", ao_vgl[0][26][220]); printf(" ao_vgl ao_vgl[0][26][220] %25.15e\n", ao_vgl[26][0][220]);
printf(" ao_vgl ao_vgl[1][26][220] %25.15e\n", ao_vgl[1][26][220]); printf(" ao_vgl ao_vgl[1][26][220] %25.15e\n", ao_vgl[26][1][220]);
printf(" ao_vgl ao_vgl[0][26][221] %25.15e\n", ao_vgl[0][26][221]); printf(" ao_vgl ao_vgl[0][26][221] %25.15e\n", ao_vgl[26][0][221]);
printf(" ao_vgl ao_vgl[1][26][221] %25.15e\n", ao_vgl[1][26][221]); printf(" ao_vgl ao_vgl[1][26][221] %25.15e\n", ao_vgl[26][1][221]);
printf(" ao_vgl ao_vgl[0][26][222] %25.15e\n", ao_vgl[0][26][222]); printf(" ao_vgl ao_vgl[0][26][222] %25.15e\n", ao_vgl[26][0][222]);
printf(" ao_vgl ao_vgl[1][26][222] %25.15e\n", ao_vgl[1][26][222]); printf(" ao_vgl ao_vgl[1][26][222] %25.15e\n", ao_vgl[26][1][222]);
printf(" ao_vgl ao_vgl[0][26][223] %25.15e\n", ao_vgl[0][26][223]); printf(" ao_vgl ao_vgl[0][26][223] %25.15e\n", ao_vgl[26][0][223]);
printf(" ao_vgl ao_vgl[1][26][223] %25.15e\n", ao_vgl[1][26][223]); printf(" ao_vgl ao_vgl[1][26][223] %25.15e\n", ao_vgl[26][1][223]);
printf(" ao_vgl ao_vgl[0][26][224] %25.15e\n", ao_vgl[0][26][224]); printf(" ao_vgl ao_vgl[0][26][224] %25.15e\n", ao_vgl[26][0][224]);
printf(" ao_vgl ao_vgl[1][26][224] %25.15e\n", ao_vgl[1][26][224]); printf(" ao_vgl ao_vgl[1][26][224] %25.15e\n", ao_vgl[26][1][224]);
printf("\n"); printf("\n");
assert( fabs(ao_vgl[0][26][219] - ( 1.020298798341620e-08)) < 1.e-14 ); assert( fabs(ao_vgl[26][0][219] - ( 1.020298798341620e-08)) < 1.e-14 );
assert( fabs(ao_vgl[1][26][219] - (-4.928035238010602e-08)) < 1.e-14 ); assert( fabs(ao_vgl[26][1][219] - (-4.928035238010602e-08)) < 1.e-14 );
assert( fabs(ao_vgl[0][26][220] - ( 1.516643537739178e-08)) < 1.e-14 ); assert( fabs(ao_vgl[26][0][220] - ( 1.516643537739178e-08)) < 1.e-14 );
assert( fabs(ao_vgl[1][26][220] - (-7.725221462603871e-08)) < 1.e-14 ); assert( fabs(ao_vgl[26][1][220] - (-7.725221462603871e-08)) < 1.e-14 );
assert( fabs(ao_vgl[0][26][221] - (-4.686370882518819e-09)) < 1.e-14 ); assert( fabs(ao_vgl[26][0][221] - (-4.686370882518819e-09)) < 1.e-14 );
assert( fabs(ao_vgl[1][26][221] - ( 2.387064067626827e-08)) < 1.e-14 ); assert( fabs(ao_vgl[26][1][221] - ( 2.387064067626827e-08)) < 1.e-14 );
assert( fabs(ao_vgl[0][26][222] - ( 7.514816980753531e-09)) < 1.e-14 ); assert( fabs(ao_vgl[26][0][222] - ( 7.514816980753531e-09)) < 1.e-14 );
assert( fabs(ao_vgl[1][26][222] - (-4.025889138635182e-08)) < 1.e-14 ); assert( fabs(ao_vgl[26][1][222] - (-4.025889138635182e-08)) < 1.e-14 );
assert( fabs(ao_vgl[0][26][223] - (-4.021908374204471e-09)) < 1.e-14 ); assert( fabs(ao_vgl[26][0][223] - (-4.021908374204471e-09)) < 1.e-14 );
assert( fabs(ao_vgl[1][26][223] - ( 2.154644255710413e-08)) < 1.e-14 ); assert( fabs(ao_vgl[26][1][223] - ( 2.154644255710413e-08)) < 1.e-14 );
assert( fabs(ao_vgl[0][26][224] - ( 7.175045873560788e-10)) < 1.e-14 ); assert( fabs(ao_vgl[26][0][224] - ( 7.175045873560788e-10)) < 1.e-14 );
assert( fabs(ao_vgl[1][26][224] - (-3.843864637762753e-09)) < 1.e-14 ); assert( fabs(ao_vgl[26][1][224] - (-3.843864637762753e-09)) < 1.e-14 );
} }
#+end_src #+end_src

View File

@ -90,11 +90,11 @@ int main() {
Computed data: Computed data:
|---------------+-------------------------+----------------------------------------------------------------------------------------| |---------------+--------------------------+-------------------------------------------------------------------------------------|
|---------------+-------------------------+----------------------------------------------------------------------------------------| |---------------+--------------------------+-------------------------------------------------------------------------------------|
| ~mo_vgl~ | ~[5][elec_num][mo_num]~ | Value, gradients, Laplacian of the MOs at electron positions | | ~mo_vgl~ | ~[point_num][5][mo_num]~ | Value, gradients, Laplacian of the MOs at point positions |
| ~mo_vgl_date~ | ~uint64_t~ | Late modification date of Value, gradients, Laplacian of the MOs at electron positions | | ~mo_vgl_date~ | ~uint64_t~ | Late modification date of Value, gradients, Laplacian of the MOs at point positions |
|---------------+-------------------------+----------------------------------------------------------------------------------------| |---------------+--------------------------+-------------------------------------------------------------------------------------|
** Data structure ** Data structure
@ -388,7 +388,7 @@ qmckl_exit_code qmckl_get_mo_basis_vgl(qmckl_context context, double* const mo_v
qmckl_context_struct* const ctx = (qmckl_context_struct* const) context; qmckl_context_struct* const ctx = (qmckl_context_struct* const) context;
assert (ctx != NULL); assert (ctx != NULL);
size_t sze = 5 * ctx->electron.num * ctx->mo_basis.mo_num; size_t sze = 5 * ctx->point.num * ctx->mo_basis.mo_num;
memcpy(mo_vgl, ctx->mo_basis.mo_vgl, sze * sizeof(double)); memcpy(mo_vgl, ctx->mo_basis.mo_vgl, sze * sizeof(double));
return QMCKL_SUCCESS; return QMCKL_SUCCESS;
@ -442,13 +442,6 @@ qmckl_exit_code qmckl_provide_mo_vgl(qmckl_context context)
NULL); NULL);
} }
if(!(ctx->electron.provided)) {
return qmckl_failwith( context,
QMCKL_NOT_PROVIDED,
"qmckl_electron",
NULL);
}
if (!ctx->mo_basis.provided) { if (!ctx->mo_basis.provided) {
return qmckl_failwith( context, return qmckl_failwith( context,
QMCKL_NOT_PROVIDED, QMCKL_NOT_PROVIDED,
@ -457,13 +450,13 @@ qmckl_exit_code qmckl_provide_mo_vgl(qmckl_context context)
} }
/* Compute if necessary */ /* Compute if necessary */
if (ctx->electron.coord_new_date > ctx->mo_basis.mo_vgl_date) { if (ctx->point.date > ctx->mo_basis.mo_vgl_date) {
/* Allocate array */ /* Allocate array */
if (ctx->mo_basis.mo_vgl == NULL) { if (ctx->mo_basis.mo_vgl == NULL) {
qmckl_memory_info_struct mem_info = qmckl_memory_info_struct_zero; qmckl_memory_info_struct mem_info = qmckl_memory_info_struct_zero;
mem_info.size = 5 * ctx->electron.num * ctx->mo_basis.mo_num * sizeof(double); mem_info.size = 5 * ctx->point.num * ctx->mo_basis.mo_num * sizeof(double);
double* mo_vgl = (double*) qmckl_malloc(context, mem_info); double* mo_vgl = (double*) qmckl_malloc(context, mem_info);
if (mo_vgl == NULL) { if (mo_vgl == NULL) {
@ -478,7 +471,7 @@ qmckl_exit_code qmckl_provide_mo_vgl(qmckl_context context)
rc = qmckl_compute_mo_basis_vgl(context, rc = qmckl_compute_mo_basis_vgl(context,
ctx->ao_basis.ao_num, ctx->ao_basis.ao_num,
ctx->mo_basis.mo_num, ctx->mo_basis.mo_num,
ctx->electron.num, ctx->point.num,
ctx->mo_basis.coefficient, ctx->mo_basis.coefficient,
ctx->ao_basis.ao_vgl, ctx->ao_basis.ao_vgl,
ctx->mo_basis.mo_vgl); ctx->mo_basis.mo_vgl);
@ -504,85 +497,46 @@ qmckl_exit_code qmckl_provide_mo_vgl(qmckl_context context)
| ~qmckl_context~ | ~context~ | in | Global state | | ~qmckl_context~ | ~context~ | in | Global state |
| ~int64_t~ | ~ao_num~ | in | Number of AOs | | ~int64_t~ | ~ao_num~ | in | Number of AOs |
| ~int64_t~ | ~mo_num~ | in | Number of MOs | | ~int64_t~ | ~mo_num~ | in | Number of MOs |
| ~int64_t~ | ~elec_num~ | in | Number of electrons | | ~int64_t~ | ~point_num~ | in | Number of points |
| ~double~ | ~coef_normalized[mo_num][ao_num]~ | in | AO to MO transformation matrix | | ~double~ | ~coef_normalized[mo_num][ao_num]~ | in | AO to MO transformation matrix |
| ~double~ | ~ao_vgl[5][elec_num][ao_num]~ | in | Value, gradients and Laplacian of the AOs | | ~double~ | ~ao_vgl[point_num][5][ao_num]~ | in | Value, gradients and Laplacian of the AOs |
| ~double~ | ~mo_vgl[5][elec_num][mo_num]~ | out | Value, gradients and Laplacian of the MOs | | ~double~ | ~mo_vgl[point_num][5][mo_num]~ | out | Value, gradients and Laplacian of the MOs |
#+begin_src f90 :comments org :tangle (eval f) :noweb yes #+begin_src f90 :comments org :tangle (eval f) :noweb yes
integer function qmckl_compute_mo_basis_vgl_f(context, & integer function qmckl_compute_mo_basis_vgl_f(context, &
ao_num, mo_num, elec_num, & ao_num, mo_num, point_num, &
coef_normalized, ao_vgl, mo_vgl) & coef_normalized, ao_vgl, mo_vgl) &
result(info) result(info)
use qmckl use qmckl
implicit none implicit none
integer(qmckl_context), intent(in) :: context integer(qmckl_context), intent(in) :: context
integer*8 , intent(in) :: ao_num, mo_num integer*8 , intent(in) :: ao_num, mo_num
integer*8 , intent(in) :: elec_num integer*8 , intent(in) :: point_num
double precision , intent(in) :: ao_vgl(ao_num,elec_num,5) double precision , intent(in) :: ao_vgl(ao_num,5,point_num)
double precision , intent(in) :: coef_normalized(ao_num,mo_num) double precision , intent(in) :: coef_normalized(ao_num,mo_num)
double precision , intent(out) :: mo_vgl(mo_num,elec_num,5) double precision , intent(out) :: mo_vgl(mo_num,5,point_num)
character :: TransA, TransB character :: TransA, TransB
double precision,dimension(:,:),allocatable :: mo_vgl_big
double precision,dimension(:,:),allocatable :: ao_vgl_big
!double precision,dimension(:,:),allocatable :: coef_trans
!double precision,dimension(:),allocatable :: coef_all
double precision :: alpha, beta double precision :: alpha, beta
integer :: info_qmckl_dgemm_value integer*8 :: M, N, K, LDA, LDB, LDC, i,j
integer*8 :: M, N, K, LDA, LDB, LDC, i,j, idx
integer*8 :: inucl, iprim, iwalk, ielec, ishell
double precision :: x, y, z, two_a, ar2, r2, v, cutoff
allocate(mo_vgl_big(mo_num,elec_num*5))
allocate(ao_vgl_big(ao_num,elec_num*5))
!allocate(coef_all(mo_num*ao_num))
!allocate(coef_trans(mo_num,ao_num))
TransA = 'T' TransA = 'T'
TransB = 'N' TransB = 'N'
alpha = 1.0d0
beta = 0.0d0
info = QMCKL_SUCCESS
info_qmckl_dgemm_value = QMCKL_SUCCESS
! Don't compute exponentials when the result will be almost zero.
! TODO : Use numerical precision here
cutoff = -dlog(1.d-15)
M = mo_num M = mo_num
N = elec_num*5 N = point_num*5_8
K = ao_num * 1_8 K = int(ao_num,8)
alpha = 1.d0
beta = 0.d0
LDA = size(coef_normalized,1) LDA = size(coef_normalized,1)
idx = 0 LDB = size(ao_vgl,1)
!do j = 1,ao_num LDC = size(mo_vgl,1)
!do i = 1,mo_num
! idx = idx + 1
! coef_all(idx) = coef_normalized(i,j)
!end do
!end do
!idx = 0
!do j = 1,mo_num
!do i = 1,ao_num
! idx = idx + 1
! coef_trans(j,i) = coef_all(idx)
!end do
!end do
ao_vgl_big = reshape(ao_vgl(:, :, :),(/ao_num, elec_num*5_8/))
LDB = size(ao_vgl_big,1)
LDC = size(mo_vgl_big,1)
info = qmckl_dgemm(context,TransA, TransB, M, N, K, alpha, & info = qmckl_dgemm(context,TransA, TransB, M, N, K, alpha, &
coef_normalized,size(coef_normalized,1)*1_8, & coef_normalized, int(size(coef_normalized,1),8), &
ao_vgl_big, size(ao_vgl_big,1)*1_8, & ao_vgl, int(size(ao_vgl,1),8), beta, &
beta, & mo_vgl,LDC)
mo_vgl_big,LDC)
mo_vgl = reshape(mo_vgl_big,(/mo_num,elec_num,5_8/))
deallocate(mo_vgl_big) info = QMCKL_SUCCESS
deallocate(ao_vgl_big)
end function qmckl_compute_mo_basis_vgl_f end function qmckl_compute_mo_basis_vgl_f
#+end_src #+end_src
@ -595,7 +549,7 @@ end function qmckl_compute_mo_basis_vgl_f
const qmckl_context context, const qmckl_context context,
const int64_t ao_num, const int64_t ao_num,
const int64_t mo_num, const int64_t mo_num,
const int64_t elec_num, const int64_t point_num,
const double* coef_normalized, const double* coef_normalized,
const double* ao_vgl, const double* ao_vgl,
double* const mo_vgl ); double* const mo_vgl );
@ -607,7 +561,7 @@ end function qmckl_compute_mo_basis_vgl_f
#+RESULTS: #+RESULTS:
#+begin_src f90 :tangle (eval f) :comments org :exports none #+begin_src f90 :tangle (eval f) :comments org :exports none
integer(c_int32_t) function qmckl_compute_mo_basis_vgl & integer(c_int32_t) function qmckl_compute_mo_basis_vgl &
(context, ao_num, mo_num, elec_num, coef_normalized, ao_vgl, mo_vgl) & (context, ao_num, mo_num, point_num, coef_normalized, ao_vgl, mo_vgl) &
bind(C) result(info) bind(C) result(info)
use, intrinsic :: iso_c_binding use, intrinsic :: iso_c_binding
@ -616,14 +570,14 @@ end function qmckl_compute_mo_basis_vgl_f
integer (c_int64_t) , intent(in) , value :: context integer (c_int64_t) , intent(in) , value :: context
integer (c_int64_t) , intent(in) , value :: ao_num integer (c_int64_t) , intent(in) , value :: ao_num
integer (c_int64_t) , intent(in) , value :: mo_num integer (c_int64_t) , intent(in) , value :: mo_num
integer (c_int64_t) , intent(in) , value :: elec_num integer (c_int64_t) , intent(in) , value :: point_num
real (c_double ) , intent(in) :: coef_normalized(ao_num,mo_num) real (c_double ) , intent(in) :: coef_normalized(ao_num,mo_num)
real (c_double ) , intent(in) :: ao_vgl(ao_num,elec_num,5) real (c_double ) , intent(in) :: ao_vgl(ao_num,5,point_num)
real (c_double ) , intent(out) :: mo_vgl(mo_num,elec_num,5) real (c_double ) , intent(out) :: mo_vgl(mo_num,5,point_num)
integer(c_int32_t), external :: qmckl_compute_mo_basis_vgl_f integer(c_int32_t), external :: qmckl_compute_mo_basis_vgl_f
info = qmckl_compute_mo_basis_vgl_f & info = qmckl_compute_mo_basis_vgl_f &
(context, ao_num, mo_num, elec_num, coef_normalized, ao_vgl, mo_vgl) (context, ao_num, mo_num, point_num, coef_normalized, ao_vgl, mo_vgl)
end function qmckl_compute_mo_basis_vgl end function qmckl_compute_mo_basis_vgl
#+end_src #+end_src
@ -799,9 +753,9 @@ assert(rc == QMCKL_SUCCESS);
assert(qmckl_ao_basis_provided(context)); assert(qmckl_ao_basis_provided(context));
double ao_vgl[5][walk_num][elec_num][chbrclf_ao_num]; double ao_vgl[walk_num*elec_num][5][chbrclf_ao_num];
rc = qmckl_get_ao_basis_ao_vgl(context, &(ao_vgl[0][0][0][0]), rc = qmckl_get_ao_basis_ao_vgl(context, &(ao_vgl[0][0][0]),
(int64_t) 5*walk_num*elec_num*chbrclf_ao_num); (int64_t) 5*walk_num*elec_num*chbrclf_ao_num);
assert (rc == QMCKL_SUCCESS); assert (rc == QMCKL_SUCCESS);
@ -817,7 +771,7 @@ assert (rc == QMCKL_SUCCESS);
assert(qmckl_mo_basis_provided(context)); assert(qmckl_mo_basis_provided(context));
double mo_vgl[5][elec_num][chbrclf_mo_num]; double mo_vgl[walk_num*elec_num][5][chbrclf_mo_num];
rc = qmckl_get_mo_basis_vgl(context, &(mo_vgl[0][0][0])); rc = qmckl_get_mo_basis_vgl(context, &(mo_vgl[0][0][0]));
assert (rc == QMCKL_SUCCESS); assert (rc == QMCKL_SUCCESS);
@ -863,18 +817,18 @@ assert (rc == QMCKL_SUCCESS);
printf("\n"); printf("\n");
printf(" mo_vgl mo_vgl[0][26][219] %25.15e\n", mo_vgl[0][2][3]); printf(" mo_vgl mo_vgl[0][26][219] %25.15e\n", mo_vgl[2][0][3]);
printf(" mo_vgl mo_vgl[1][26][219] %25.15e\n", mo_vgl[1][2][3]); printf(" mo_vgl mo_vgl[1][26][219] %25.15e\n", mo_vgl[2][1][3]);
printf(" mo_vgl mo_vgl[0][26][220] %25.15e\n", mo_vgl[0][2][3]); printf(" mo_vgl mo_vgl[0][26][220] %25.15e\n", mo_vgl[2][0][3]);
printf(" mo_vgl mo_vgl[1][26][220] %25.15e\n", mo_vgl[1][2][3]); printf(" mo_vgl mo_vgl[1][26][220] %25.15e\n", mo_vgl[2][1][3]);
printf(" mo_vgl mo_vgl[0][26][221] %25.15e\n", mo_vgl[0][2][3]); printf(" mo_vgl mo_vgl[0][26][221] %25.15e\n", mo_vgl[2][0][3]);
printf(" mo_vgl mo_vgl[1][26][221] %25.15e\n", mo_vgl[1][2][3]); printf(" mo_vgl mo_vgl[1][26][221] %25.15e\n", mo_vgl[2][1][3]);
printf(" mo_vgl mo_vgl[0][26][222] %25.15e\n", mo_vgl[0][2][3]); printf(" mo_vgl mo_vgl[0][26][222] %25.15e\n", mo_vgl[2][0][3]);
printf(" mo_vgl mo_vgl[1][26][222] %25.15e\n", mo_vgl[1][2][3]); printf(" mo_vgl mo_vgl[1][26][222] %25.15e\n", mo_vgl[2][1][3]);
printf(" mo_vgl mo_vgl[0][26][223] %25.15e\n", mo_vgl[0][2][3]); printf(" mo_vgl mo_vgl[0][26][223] %25.15e\n", mo_vgl[2][0][3]);
printf(" mo_vgl mo_vgl[1][26][223] %25.15e\n", mo_vgl[1][2][3]); printf(" mo_vgl mo_vgl[1][26][223] %25.15e\n", mo_vgl[2][1][3]);
printf(" mo_vgl mo_vgl[0][26][224] %25.15e\n", mo_vgl[0][2][3]); printf(" mo_vgl mo_vgl[0][26][224] %25.15e\n", mo_vgl[2][0][3]);
printf(" mo_vgl mo_vgl[1][26][224] %25.15e\n", mo_vgl[1][2][3]); printf(" mo_vgl mo_vgl[1][26][224] %25.15e\n", mo_vgl[2][1][3]);
printf("\n"); printf("\n");
} }

View File

@ -1,641 +0,0 @@
#+TITLE: Building tools
#+STARTUP: indent overview
#+PROPERTY: header-args: :comments both
This file contains all the tools needed to build the QMCkl library.
* Helper functions
#+NAME: header
#+begin_src sh :tangle no :exports none :output none
echo "This file was created by tools/Building.org"
#+end_src
#+NAME: check-src
#+begin_src bash
if [[ $(basename ${PWD}) != "src" ]] ; then
echo "This script needs to be run in the src directory"
exit -1
fi
#+end_src
#+NAME: url-issues
: https://github.com/trex-coe/qmckl/issues
#+NAME: url-web
: https://trex-coe.github.io/qmckl
#+NAME: license
#+begin_example
BSD 3-Clause License
Copyright (c) 2020, TREX Center of Excellence
All rights reserved.
Redistribution and use in source and binary forms, with or without
modification, are permitted provided that the following conditions are met:
1. Redistributions of source code must retain the above copyright notice, this
list of conditions and the following disclaimer.
2. Redistributions in binary form must reproduce the above copyright notice,
this list of conditions and the following disclaimer in the documentation
and/or other materials provided with the distribution.
3. Neither the name of the copyright holder nor the names of its
contributors may be used to endorse or promote products derived from
this software without specific prior written permission.
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#+end_example
* Makefiles
** Makefile.in
:PROPERTIES:
:header-args: :tangle ../src/Makefile.in :noweb yes :comments org
:END:
This is the main Makefile invoked by the ~make~ command at the root
of the package. To compile the sources, it calls the =Makefile=
located in the =src= directory. This Makefile creates the source
file from the org-mode file, as well as a Makefile,
=Makefile.generated=, dedicated to the compilation of the sources.
*** Header
We want the Makefile to be POSIX-compliant, such that it works not
only with GNU Make.
#+begin_src makefile
# <<header()>>
.POSIX:
#+end_src
*** Compiler options
Compiler variables are obtained from the configure script (see =configure.ac=)
#+begin_src makefile
CC = @CC@
FC = @FC@
CFLAGS = @CFLAGS@
FCFLAGS = @FCFLAGS@
LDFLAGS = @LDFLAGS@
DEFS = @DEFS@
#+end_src
*** Variables
#+begin_src makefile
HAS_CPPCHECK = @HAS_CPPCHECK@
# VPATH-related substitution variables
srcdir = @srcdir@
VPATH = @srcdir@
top_srcdir=$(srcdir)/..
shared_lib=$(top_srcdir)/lib/libqmckl.so
static_lib=$(top_srcdir)/lib/libqmckl.a
qmckl_h=$(top_srcdir)/include/qmckl.h
qmckl_f=$(top_srcdir)/share/qmckl/fortran/qmckl_f.f90
export CC CFLAGS DEFS FC FCFLAGS LIBS top_srcdir
ORG_SOURCE_FILES=$(wildcard $(srcdir)/*.org)
C_SOURCE_FILES=$(patsubst %.org,%.c,$(ORG_SOURCE_FILES))
INCLUDE=-I$(top_srcdir)/include/
#+end_src
*** Rules
The source files are created during the generation of the file ~Makefile.generated~.
The Makefile.generated is the one that will be distributed with the library.
#+begin_src makefile
.PHONY: clean shared static doc all check install uninstall
.SECONDARY: # Needed to keep the produced C and Fortran files
$(shared_lib) $(static_lib): $(qmckl_h) $(qmckl_f) Makefile.generated
$(MAKE) -f Makefile.generated $@
install uninstall: Makefile.generated
$(MAKE) -f Makefile.generated $@
$(qmckl_f) $(qmckl_h): Makefile.generated
$(top_srcdir)/tools/build_qmckl_h.sh
shared: $(shared_lib)
static: $(static_lib)
all: shared static doc check
check: $(static_lib)
$(MAKE) -f Makefile.generated check
ifeq ($(HAS_CPPCHECK),1)
cppcheck:
cppcheck \
--addon=cert \
--enable=warning,style,performance,portability,information \
qmckl_*.c
endif
doc: $(ORG_SOURCE_FILES)
$(top_srcdir)/tools/build_doc.sh
clean:
- $(MAKE) -f Makefile.generated clean
- $(RM) test_qmckl_* test_qmckl.c \
$(qmckl_h) $(qmckl_f) \
qmckl_*.f90 qmckl_*.c qmckl_*.h \
Makefile.generated *.html *.txt
veryclean: clean FORCE
- $(RM) $(top_srcdir)/share/doc/qmckl/html/*.html \
$(top_srcdir)/share/doc/qmckl/text/*.txt
Makefile.generated.in: Makefile $(top_srcdir)/tools/create_makefile.sh $(ORG_SOURCE_FILES) $(top_srcdir)/tools/Building.org
$(top_srcdir)/tools/create_makefile.sh
Makefile.generated: Makefile.generated.in
cd .. ; ./config.status
.SUFFIXES: .org .c
.org.c:
$(top_srcdir)/tools/tangle.sh $<
#+end_src
** Script to generate auto-generated Makefile
:PROPERTIES:
:header-args: :tangle create_makefile.sh :noweb yes :shebang #!/bin/bash :comments org
:END:
This script generates the Makefile that compiles the library.
The ~OUTPUT~ variable contains the name of the generated Makefile,typically
=Makefile.generated=.
#+begin_src bash
# <<header()>>
<<check_src>>
OUTPUT=Makefile.generated.in
#+end_src
We start by tangling all the org-mode files.
#+begin_src bash
${top_srcdir}/tools/tangle.sh *.org
${top_srcdir}/tools/build_qmckl_h.sh
#+end_src
Then we create the list of ~*.o~ files to be created, for library
functions:
#+begin_src bash
OBJECTS="qmckl_f.o"
for i in $(ls qmckl_*.c qmckl_*f.f90) ; do
FILE=${i%.*}
OBJECTS+=" ${FILE}.o"
done >> $OUTPUT
#+end_src
for tests in C:
#+begin_src bash
TESTS=""
for i in $(ls test_qmckl_*.c) ; do
FILE=${i%.c}
TESTS+=" ${FILE}.o"
done >> $OUTPUT
#+end_src
and for tests in Fortran:
#+begin_src bash
TESTS_F=""
for i in $(ls test_qmckl_*_f.f90) ; do
FILE=${i%.f90}
TESTS_F+=" ${FILE}.o"
done >> $OUTPUT
#+end_src
Finally, we append the variables to the Makefile
#+begin_src bash :noweb yes
cat << EOF > ${OUTPUT}
.POSIX:
.SUFFIXES:
package = @PACKAGE_TARNAME@
version = @PACKAGE_VERSION@
# VPATH-related substitution variables
srcdir = @srcdir@
VPATH = @srcdir@
prefix = @prefix@
CC = @CC@
DEFS = @DEFS@
CFLAGS = @CFLAGS@ -I\$(top_srcdir)/munit/ -I\$(top_srcdir)/include -I.
CPPFLAGS = @CPPFLAGS@
LIBS = @LIBS@
FC = @FC@
FCFLAGS= @FCFLAGS@
OBJECT_FILES=$OBJECTS
TESTS = $TESTS
TESTS_F = $TESTS_F
LIBS = @LIBS@
FCLIBS = @FCLIBS@
EOF
export
echo '
<<rules>>
' >> ${OUTPUT}
#+end_src
and the rules:
#+NAME: rules
#+begin_src makefile :tangle no
top_srcdir=$(srcdir)/..
shared_lib=$(top_srcdir)/lib/libqmckl.so
static_lib=$(top_srcdir)/lib/libqmckl.a
qmckl_h=$(top_srcdir)/include/qmckl.h
qmckl_f=$(top_srcdir)/share/qmckl/fortran/qmckl_f.f90
munit=$(top_srcdir)/munit/munit.c
datarootdir=$(prefix)/share
datadir=$(datarootdir)
docdir=$(datarootdir)/doc/$(package)
htmldir=$(docdir)/html
libdir=$(prefix)/lib
includedir=$(prefix)/include
fortrandir=$(datarootdir)/$(package)/fortran
shared: $(shared_lib)
static: $(static_lib)
all: shared static
$(shared_lib): $(OBJECT_FILES)
$(CC) -shared $(OBJECT_FILES) -o $(shared_lib)
$(static_lib): $(OBJECT_FILES)
$(AR) rcs $(static_lib) $(OBJECT_FILES)
# Test
qmckl_f.o: $(qmckl_f)
$(FC) $(FCFLAGS) -c $(qmckl_f) -o $@
test_qmckl: test_qmckl.c $(qmckl_h) $(static_lib) $(TESTS) $(TESTS_F)
$(CC) $(CFLAGS) $(CPPFLAGS) $(DEFS) $(munit) $(TESTS) $(TESTS_F) \
$(static_lib) $(LIBS) $(FCLIBS) test_qmckl.c -o $@
test_qmckl_shared: test_qmckl.c $(qmckl_h) $(shared_lib) $(TESTS) $(TESTS_F)
$(CC) $(CFLAGS) $(CPPFLAGS) $(DEFS) \
-Wl,-rpath,$(top_srcdir)/lib -L$(top_srcdir)/lib $(munit) $(TESTS) \
$(TESTS_F) -lqmckl $(LIBS) $(FCLIBS) test_qmckl.c -o $@
check: test_qmckl test_qmckl_shared
./test_qmckl
clean:
$(RM) -- *.o *.mod $(shared_lib) $(static_lib) test_qmckl
install:
install -d $(DESTDIR)$(prefix)/lib
install -d $(DESTDIR)$(prefix)/include
install -d $(DESTDIR)$(prefix)/share/qmckl/fortran
install -d $(DESTDIR)$(prefix)/share/doc/qmckl/html/
install -d $(DESTDIR)$(prefix)/share/doc/qmckl/text/
install $(shared_lib) $(DESTDIR)$(libdir)/
install $(static_lib) $(DESTDIR)$(libdir)/
install $(qmckl_h) $(DESTDIR)$(includedir)
install $(qmckl_f) $(DESTDIR)$(fortrandir)
install $(top_srcdir)/share/doc/qmckl/html/*.html $(DESTDIR)$(docdir)/html/
install $(top_srcdir)/share/doc/qmckl/html/*.css $(DESTDIR)$(docdir)/html/
install $(top_srcdir)/share/doc/qmckl/text/*.txt $(DESTDIR)$(docdir)/text/
uninstall:
rm $(DESTDIR)$(libdir)/libqmckl.so
rm $(DESTDIR)$(libdir)/libqmckl.a
rm $(DESTDIR)$(includedir)/qmckl.h
rm -rf $(DESTDIR)$(datarootdir)/$(package)
rm -rf $(DESTDIR)$(docdir)
.SUFFIXES: .c .f90 .o
.c.o:
$(CC) $(CFLAGS) $(CPPFLAGS) $(DEFS) -c $*.c -o $*.o
.f90.o: qmckl_f.o
$(FC) $(FCFLAGS) -c $*.f90 -o $*.o
.PHONY: check cppcheck clean all
#+end_src
* Script to tangle the org-mode files
:PROPERTIES:
:header-args: :tangle tangle.sh :noweb yes :shebang #!/bin/bash :comments org
:END:
#+begin_src bash
# <<header()>>
<<check_src>>
#+end_src
This file needs to be run from the QMCKL =src= directory.
It tangles all the files in the directory. It uses the
=config_tangle.el= file, which contains information required to
compute the current file names using for example ~(eval c)~ to get
the name of the produced C file.
The file is not tangled if the last modification date of the org
file is less recent than one of the tangled files.
#+begin_src bash
function tangle()
{
local org_file=$1
local c_file=${org_file%.org}.c
local f_file=${org_file%.org}.f90
if [[ ${org_file} -ot ${c_file} ]] ; then
return
elif [[ ${org_file} -ot ${f_file} ]] ; then
return
fi
emacs --batch ${org_file} --load=${top_srcdir}/tools/config_tangle.el -f org-babel-tangle
}
for i in $@
do
echo "--- ${i} ----"
tangle ${i}
done
#+end_src
* Script to build the final qmckl.h file
:PROPERTIES:
:header-args:bash: :tangle build_qmckl_h.sh :noweb yes :shebang #!/bin/bash :comments org
:END:
#+begin_src bash :noweb yes
# <<header()>>
#+end_src
#+NAME: qmckl-header
#+begin_src text :noweb yes
------------------------------------------
QMCkl - Quantum Monte Carlo kernel library
------------------------------------------
Documentation : <<url-web()>>
Issues : <<url-issues()>>
<<license()>>
#+end_src
All the produced header files are concatenated in the =qmckl.h=
file, located in the include directory. The =*_private.h= files
are excluded.
Put =.h= files in the correct order:
#+begin_src bash
HEADERS=""
for i in $(cat table_of_contents)
do
HEADERS+="${i%.org}_type.h "
done
for i in $(cat table_of_contents)
do
HEADERS+="${i%.org}_func.h "
done
#+end_src
Generate C header file
#+begin_src bash
OUTPUT="${top_srcdir}/include/qmckl.h"
cat << EOF > ${OUTPUT}
/*
,* <<qmckl-header>>
,*/
#ifndef __QMCKL_H__
#define __QMCKL_H__
#include <stdlib.h>
#include <stdint.h>
#include <stdbool.h>
EOF
for i in ${HEADERS}
do
if [[ -f $i ]] ; then
cat $i >> ${OUTPUT}
fi
done
cat << EOF >> ${OUTPUT}
#endif
EOF
#+end_src
Generate Fortran interface file from all =qmckl_*_fh.f90= files
#+begin_src bash
HEADERS_TYPE="qmckl_*_fh_type.f90"
HEADERS="qmckl_*_fh_func.f90"
OUTPUT="${top_srcdir}/share/qmckl/fortran/qmckl_f.f90"
cat << EOF > ${OUTPUT}
!
! <<qmckl-header>>
!
module qmckl
use, intrinsic :: iso_c_binding
EOF
for i in ${HEADERS_TYPE}
do
cat $i >> ${OUTPUT}
done
for i in ${HEADERS}
do
cat $i >> ${OUTPUT}
done
cat << EOF >> ${OUTPUT}
end module qmckl
EOF
#+end_src
* Script to build the documentation
:PROPERTIES:
:header-args:bash: :tangle build_doc.sh :noweb yes :shebang #!/bin/bash :comments org
:END:
First define readonly global variables.
#+begin_src bash :noweb yes
readonly DOCS=${top_srcdir}/share/doc/qmckl/
readonly SRC=${top_srcdir}/src/
readonly HTMLIZE=${DOCS}/html/htmlize.el
readonly CONFIG_DOC=${top_srcdir}/tools/config_doc.el
readonly CONFIG_TANGLE=${top_srcdir}/tools/config_tangle.el
#+end_src
Check that all the defined global variables correspond to files.
#+begin_src bash :noweb yes
function check_preconditions()
{
if [[ -z ${top_srcdir} ]]
then
print "top_srcdir is not defined"
exit 1
fi
for dir in ${DOCS}/html ${DOCS}/text ${SRC}
do
if [[ ! -d ${dir} ]]
then
print "${dir} not found"
exit 2
fi
done
for file in ${CONFIG_DOC} ${CONFIG_TANGLE}
do
if [[ ! -f ${file} ]]
then
print "${file} not found"
exit 3
fi
done
}
#+end_src
~install_htmlize~ installs the htmlize Emacs plugin if the
=htmlize.el= file is not present.
#+begin_src bash :noweb yes
function install_htmlize()
{
local url="https://github.com/hniksic/emacs-htmlize"
local repo="emacs-htmlize"
[[ -f ${HTMLIZE} ]] || (
cd ${DOCS}/html
git clone ${url} \
&& cp ${repo}/htmlize.el ${HTMLIZE} \
&& rm -rf ${repo}
cd -
)
# Assert htmlize is installed
[[ -f ${HTMLIZE} ]] \
|| exit 1
}
#+end_src
Extract documentation from an org-mode file.
#+begin_src bash :noweb yes
function extract_doc()
{
local org=$1
local local_html=${SRC}/${org%.org}.html
local local_text=${SRC}/${org%.org}.txt
local html=${DOCS}/html/${org%.org}.html
local text=${DOCS}/text/${org%.org}.txt
if [[ -f ${html} && ${org} -ot ${html} ]]
then
return
fi
emacs --batch \
--load ${HTMLIZE} \
--load ${CONFIG_DOC} \
${org} \
--load ${CONFIG_TANGLE} \
-f org-html-export-to-html \
-f org-ascii-export-to-ascii
mv ${local_html} ${DOCS}/html
mv ${local_text} ${DOCS}/text
}
#+end_src
The main function of the script.
#+begin_src bash :noweb yes
function main() {
check_preconditions || exit 1
# Install htmlize if needed
install_htmlize || exit 2
# Create documentation
cd ${SRC} \
|| exit 3
for i in *.org
do
echo
echo "======= ${i} ======="
extract_doc ${i}
done
if [[ $? -eq 0 ]]
then
cd ${DOCS}/html
rm -f index.html
ln README.html index.html
exit 0
else
exit 3
fi
}
main
#+end_src

View File

@ -48,7 +48,7 @@ def main():
c_test_o = "tests/test_"+i+".$(OBJEXT)" c_test_o = "tests/test_"+i+".$(OBJEXT)"
f_test_o = "tests/test_"+i+"_f.$(OBJEXT)" f_test_o = "tests/test_"+i+"_f.$(OBJEXT)"
c_test = "tests/test_"+i+".c" c_test = "tests/test_"+i+".c"
f_test = "tests/test_"+i+"_f.f90" f_test = "tests/test_"+i+"_f.F90"
html = "share/doc/qmckl/html/"+i+".html" html = "share/doc/qmckl/html/"+i+".html"
text = "share/doc/qmckl/text/"+i+".txt" text = "share/doc/qmckl/text/"+i+".txt"
@ -60,10 +60,10 @@ def main():
h_type=i+"_type.h" h_type=i+"_type.h"
h_private_func=i+"_private_func.h" h_private_func=i+"_private_func.h"
h_private_type=i+"_private_type.h" h_private_type=i+"_private_type.h"
f90=i+"_f.f90" F90=i+"_f.F90"
fo=i+"_f.$(OBJEXT)" fo=i+"_f.$(OBJEXT)"
fh_func=i+"_fh_func.f90" fh_func=i+"_fh_func.F90"
fh_type=i+"_fh_type.f90" fh_type=i+"_fh_type.F90"
ORG_FILES += [org] ORG_FILES += [org]
TANGLED_FILES += [tangled] TANGLED_FILES += [tangled]
@ -132,17 +132,17 @@ def main():
DEPS[h_private_func] = [tangled] DEPS[h_private_func] = [tangled]
if "(eval f)" in grep: if "(eval f)" in grep:
F_FILES += [f90] F_FILES += [F90]
if f90 in DEPS: if F90 in DEPS:
DEPS[f90] += [tangled, "$(src_qmckl_fo)"] DEPS[F90] += [tangled, "$(src_qmckl_fo)"]
else: else:
DEPS[f90] = [tangled, "$(src_qmckl_fo)"] DEPS[F90] = [tangled, "$(src_qmckl_fo)"]
if fo in DEPS: if fo in DEPS:
DEPS[fo] += [f90, "$(src_qmckl_fo)"] DEPS[fo] += [F90, "$(src_qmckl_fo)"]
else: else:
DEPS[fo] = [f90, "$(src_qmckl_fo)"] DEPS[fo] = [F90, "$(src_qmckl_fo)"]
if "(eval fh_func)" in grep: if "(eval fh_func)" in grep:
FH_FUNC_FILES += [fh_func] FH_FUNC_FILES += [fh_func]

View File

@ -1,9 +1,9 @@
#!/bin/sh #!/bin/sh
# Script to build the final src/qmckl_f.f90 file # Script to build the final src/qmckl_f.F90 file
set -e set -e
# All the produced header files are concatenated in the =src/qmckl_f.f90= # All the produced header files are concatenated in the =src/qmckl_f.F90=
# file, located in the share/qmckl/fortran directory. # file, located in the share/qmckl/fortran directory.
@ -30,8 +30,8 @@ fi
# Generate Fortran interface file # Generate Fortran interface file
# ------------------------------- # -------------------------------
HEADERS_TYPE="src/qmckl_*_fh_type.f90" HEADERS_TYPE="src/qmckl_*_fh_type.F90"
HEADERS="src/qmckl_*_fh_func.f90" HEADERS="src/qmckl_*_fh_func.F90"
cat << EOF > ${src_qmckl_f} cat << EOF > ${src_qmckl_f}
! !

View File

@ -39,15 +39,15 @@
(setq src (concat top_builddir "/src/")) (setq src (concat top_builddir "/src/"))
(setq tests (concat top_builddir "/tests/")) (setq tests (concat top_builddir "/tests/"))
(setq name (file-name-nondirectory (substring buffer-file-name 0 -4))) (setq name (file-name-nondirectory (substring buffer-file-name 0 -4)))
(setq f (concat src name "_f.f90")) (setq f (concat src name "_f.F90"))
(setq fh_func (concat src name "_fh_func.f90")) (setq fh_func (concat src name "_fh_func.F90"))
(setq fh_type (concat src name "_fh_type.f90")) (setq fh_type (concat src name "_fh_type.F90"))
(setq c (concat src name ".c")) (setq c (concat src name ".c"))
(setq h_func (concat src name "_func.h")) (setq h_func (concat src name "_func.h"))
(setq h_type (concat src name "_type.h")) (setq h_type (concat src name "_type.h"))
(setq h_private_type (concat src name "_private_type.h")) (setq h_private_type (concat src name "_private_type.h"))
(setq h_private_func (concat src name "_private_func.h")) (setq h_private_func (concat src name "_private_func.h"))
(setq c_test (concat tests "test_" name ".c")) (setq c_test (concat tests "test_" name ".c"))
(setq f_test (concat tests "test_" name "_f.f90")) (setq f_test (concat tests "test_" name "_f.F90"))
(org-babel-lob-ingest (concat srcdir "/tools/lib.org")) (org-babel-lob-ingest (concat srcdir "/tools/lib.org"))

View File

@ -22,7 +22,7 @@ function tangle()
{ {
local org_file=$1 local org_file=$1
local c_file=${org_file%.org}.c local c_file=${org_file%.org}.c
local f_file=${org_file%.org}.f90 local f_file=${org_file%.org}.F90
if [[ ${org_file} -ot ${c_file} ]] ; then if [[ ${org_file} -ot ${c_file} ]] ; then
return return