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<div id="content">
<h1 class="title">Atomic Orbitals</h1>
<div id="table-of-contents">
<h2>Table of Contents</h2>
<div id="text-table-of-contents">
<ul>
<li><a href="#sec-1">1. Polynomials</a>
<ul>
<li><a href="#sec-1-1">1.1. <code>qmckl_ao_powers</code></a>
<ul>
<li><a href="#sec-1-1-1">1.1.1. Arguments</a></li>
<li><a href="#sec-1-1-2">1.1.2. Requirements</a></li>
<li><a href="#sec-1-1-3">1.1.3. Header</a></li>
<li><a href="#sec-1-1-4">1.1.4. Source</a></li>
</ul>
</li>
<li><a href="#sec-1-2">1.2. <code>qmckl_ao_polynomial_vgl</code></a>
<ul>
<li><a href="#sec-1-2-1">1.2.1. Arguments</a></li>
<li><a href="#sec-1-2-2">1.2.2. Requirements</a></li>
<li><a href="#sec-1-2-3">1.2.3. Header</a></li>
<li><a href="#sec-1-2-4">1.2.4. Source</a></li>
</ul>
</li>
</ul>
</li>
<li><a href="#sec-2">2. <span class="todo TODO">TODO</span> Gaussian basis functions</a></li>
<li><a href="#sec-3">3. <span class="todo TODO">TODO</span> Slater basis functions</a></li>
</ul>
</div>
</div>
<p>
This files contains all the routines for the computation of the
values, gradients and Laplacian of the atomic basis functions.
</p>
<p>
4 files are produced:
</p>
<ul class="org-ul">
<li>a header file : <code>qmckl_ao.h</code>
</li>
<li>a source file : <code>qmckl_ao.f90</code>
</li>
<li>a C test file : <code>test_qmckl_ao.c</code>
</li>
<li>a Fortran test file : <code>test_qmckl_ao_f.f90</code>
</li>
</ul>
<div id="outline-container-sec-1" class="outline-2">
<h2 id="sec-1"><span class="section-number-2">1</span> Polynomials</h2>
<div class="outline-text-2" id="text-1">
<p>
\[
P_l(\mathbf{r},\mathbf{R}_i) = (x-X_i)^a (y-Y_i)^b (z-Z_i)^c
\]
</p>
\begin{eqnarray*}
\frac{\partial }{\partial x} P_l\left(\mathbf{r},\mathbf{R}_i \right) & = & a (x-X_i)^{a-1} (y-Y_i)^b (z-Z_i)^c \\
\frac{\partial }{\partial y} P_l\left(\mathbf{r},\mathbf{R}_i \right) & = & b (x-X_i)^a (y-Y_i)^{b-1} (z-Z_i)^c \\
\frac{\partial }{\partial z} P_l\left(\mathbf{r},\mathbf{R}_i \right) & = & c (x-X_i)^a (y-Y_i)^b (z-Z_i)^{c-1} \\
\end{eqnarray*}
\begin{eqnarray*}
\left( \frac{\partial }{\partial x^2} +
\frac{\partial }{\partial y^2} +
\frac{\partial }{\partial z^2} \right) P_l
\left(\mathbf{r},\mathbf{R}_i \right) & = &
a(a-1) (x-X_i)^{a-2} (y-Y_i)^b (z-Z_i)^c + \\
&& b(b-1) (x-X_i)^a (y-Y_i)^{b-1} (z-Z_i)^c + \\
&& c(c-1) (x-X_i)^a (y-Y_i)^b (z-Z_i)^{c-1}
\end{eqnarray*}
</div>
<div id="outline-container-sec-1-1" class="outline-3">
<h3 id="sec-1-1"><span class="section-number-3">1.1</span> <code>qmckl_ao_powers</code></h3>
<div class="outline-text-3" id="text-1-1">
<p>
Computes all the powers of the <code>n</code> input data up to the given
maximum value given in input for each of the \(n\) points:
</p>
<p>
\[ P_{ij} = X_j^i \]
</p>
</div>
<div id="outline-container-sec-1-1-1" class="outline-4">
<h4 id="sec-1-1-1"><span class="section-number-4">1.1.1</span> Arguments</h4>
<div class="outline-text-4" id="text-1-1-1">
<table border="2" cellspacing="0" cellpadding="6" rules="groups" frame="hsides">
<colgroup>
<col class="left" />
<col class="left" />
<col class="left" />
</colgroup>
<tbody>
<tr>
<td class="left"><code>context</code></td>
<td class="left">input</td>
<td class="left">Global state</td>
</tr>
<tr>
<td class="left"><code>n</code></td>
<td class="left">input</td>
<td class="left">Number of values</td>
</tr>
<tr>
<td class="left"><code>X(n)</code></td>
<td class="left">input</td>
<td class="left">Array containing the input values</td>
</tr>
<tr>
<td class="left"><code>LMAX(n)</code></td>
<td class="left">input</td>
<td class="left">Array containing the maximum power for each value</td>
</tr>
<tr>
<td class="left"><code>P(LDP,n)</code></td>
<td class="left">output</td>
<td class="left">Array containing all the powers of <code>X</code></td>
</tr>
<tr>
<td class="left"><code>LDP</code></td>
<td class="left">input</td>
<td class="left">Leading dimension of array <code>P</code></td>
</tr>
</tbody>
</table>
</div>
</div>
<div id="outline-container-sec-1-1-2" class="outline-4">
<h4 id="sec-1-1-2"><span class="section-number-4">1.1.2</span> Requirements</h4>
<div class="outline-text-4" id="text-1-1-2">
<ul class="org-ul">
<li><code>context</code> is not 0
</li>
<li><code>n</code> &gt; 0
</li>
<li><code>X</code> is allocated with at least \(n \times 8\) bytes
</li>
<li><code>LMAX</code> is allocated with at least \(n \times 4\) bytes
</li>
<li><code>P</code> is allocated with at least \(n \times \max_i \text{LMAX}_i \times 8\) bytes
</li>
<li><code>LDP</code> &gt;= \(\max_i\) <code>LMAX[i]</code>
</li>
</ul>
</div>
</div>
<div id="outline-container-sec-1-1-3" class="outline-4">
<h4 id="sec-1-1-3"><span class="section-number-4">1.1.3</span> Header</h4>
<div class="outline-text-4" id="text-1-1-3">
<div class="org-src-container">
<pre class="src src-C">qmckl_exit_code qmckl_ao_powers(qmckl_context context,
int64_t n,
double *X, int32_t *LMAX,
double *P, int64_t LDP);
</pre>
</div>
</div>
</div>
<div id="outline-container-sec-1-1-4" class="outline-4">
<h4 id="sec-1-1-4"><span class="section-number-4">1.1.4</span> Source</h4>
<div class="outline-text-4" id="text-1-1-4">
<div class="org-src-container">
<pre class="src src-f90">integer function qmckl_ao_powers_f(context, n, X, LMAX, P, ldp) result(info)
implicit none
integer*8 , intent(in) :: context
integer*8 , intent(in) :: n
real*8 , intent(in) :: X(n)
integer , intent(in) :: LMAX(n)
real*8 , intent(out) :: P(ldp,n)
integer*8 , intent(in) :: ldp
integer*8 :: i,j
info = 0
if (context == 0_8) then
info = -1
return
endif
if (LDP &lt; MAXVAL(LMAX)) then
info = -2
return
endif
do j=1,n
P(1,j) = X(j)
do i=2,LMAX(j)
P(i,j) = P(i-1,j) * X(j)
end do
end do
end function qmckl_ao_powers_f
</pre>
</div>
</div>
</div>
</div>
<div id="outline-container-sec-1-2" class="outline-3">
<h3 id="sec-1-2"><span class="section-number-3">1.2</span> <code>qmckl_ao_polynomial_vgl</code></h3>
<div class="outline-text-3" id="text-1-2">
<p>
Computes the values, gradients and Laplacians at a given point of
all polynomials with an angular momentum up to <code>lmax</code>.
</p>
</div>
<div id="outline-container-sec-1-2-1" class="outline-4">
<h4 id="sec-1-2-1"><span class="section-number-4">1.2.1</span> Arguments</h4>
<div class="outline-text-4" id="text-1-2-1">
<table border="2" cellspacing="0" cellpadding="6" rules="groups" frame="hsides">
<colgroup>
<col class="left" />
<col class="left" />
<col class="left" />
</colgroup>
<tbody>
<tr>
<td class="left"><code>context</code></td>
<td class="left">input</td>
<td class="left">Global state</td>
</tr>
<tr>
<td class="left"><code>X(3)</code></td>
<td class="left">input</td>
<td class="left">Array containing the coordinates of the points</td>
</tr>
<tr>
<td class="left"><code>R(3)</code></td>
<td class="left">input</td>
<td class="left">Array containing the x,y,z coordinates of the center</td>
</tr>
<tr>
<td class="left"><code>lmax</code></td>
<td class="left">input</td>
<td class="left">Maximum angular momentum</td>
</tr>
<tr>
<td class="left"><code>n</code></td>
<td class="left">output</td>
<td class="left">Number of computed polynomials</td>
</tr>
<tr>
<td class="left"><code>L(ldl,n)</code></td>
<td class="left">output</td>
<td class="left">Contains a,b,c for all <code>n</code> results</td>
</tr>
<tr>
<td class="left"><code>ldl</code></td>
<td class="left">input</td>
<td class="left">Leading dimension of <code>L</code></td>
</tr>
<tr>
<td class="left"><code>VGL(ldv,n)</code></td>
<td class="left">output</td>
<td class="left">Value, gradients and Laplacian of the polynomials</td>
</tr>
<tr>
<td class="left"><code>ldv</code></td>
<td class="left">input</td>
<td class="left">Leading dimension of array <code>VGL</code></td>
</tr>
</tbody>
</table>
</div>
</div>
<div id="outline-container-sec-1-2-2" class="outline-4">
<h4 id="sec-1-2-2"><span class="section-number-4">1.2.2</span> Requirements</h4>
<div class="outline-text-4" id="text-1-2-2">
<ul class="org-ul">
<li><code>context</code> is not 0
</li>
<li><code>n</code> &gt; 0
</li>
<li><code>X</code> is allocated with at least \(3 \times 8\) bytes
</li>
<li><code>R</code> is allocated with at least \(3 \times 8\) bytes
</li>
<li><code>lmax</code> &gt;= 0
</li>
<li>On output, <code>n</code> should be equal to (=lmax=+1)(=lmax=+2)(=lmax=+3)/6
</li>
<li><code>L</code> is allocated with at least \(3 \times n \times 4\) bytes
</li>
<li><code>ldl</code> &gt;= 3
</li>
<li><code>VGL</code> is allocated with at least \(5 \times n \times 8\) bytes
</li>
<li><code>ldv</code> &gt;= 5
</li>
</ul>
</div>
</div>
<div id="outline-container-sec-1-2-3" class="outline-4">
<h4 id="sec-1-2-3"><span class="section-number-4">1.2.3</span> Header</h4>
<div class="outline-text-4" id="text-1-2-3">
<div class="org-src-container">
<pre class="src src-C">qmckl_exit_code qmckl_ao_polynomial_vgl(qmckl_context context,
double *X, double *R,
int32_t lmax, int64_t *n,
int32_t *L, int64_t ldl,
double *VGL, int64_t ldv);
</pre>
</div>
</div>
</div>
<div id="outline-container-sec-1-2-4" class="outline-4">
<h4 id="sec-1-2-4"><span class="section-number-4">1.2.4</span> Source</h4>
<div class="outline-text-4" id="text-1-2-4">
<div class="org-src-container">
<pre class="src src-f90">integer function qmckl_ao_polynomial_vgl_f(context, X, R, lmax, n, L, ldl, VGL, ldv) result(info)
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,(lmax+1)*(lmax+2)*(lmax+3)/6)
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)
integer, external :: qmckl_ao_powers_f
double precision :: xy, yz, xz
double precision :: da, db, dc, dd
info = 0
if (context == 0_8) then
info = -1
return
endif
n = (lmax+1)*(lmax+2)*(lmax+3)/6
if (ldl &lt; 3) then
info = -2
return
endif
if (ldv &lt; 5) then
info = -3
return
endif
do i=1,3
Y(i) = X(i) - R(i)
end do
pows(-2:-1,1:3) = 0.d0
pows(0,1:3) = 1.d0
lmax_array(1:3) = lmax
info = qmckl_ao_powers_f(context, 1_8, Y(1), (/lmax/), pows(1,1), size(pows,1,kind=8))
if (info /= 0) return
info = qmckl_ao_powers_f(context, 1_8, Y(2), (/lmax/), pows(1,2), size(pows,1,kind=8))
if (info /= 0) return
info = qmckl_ao_powers_f(context, 1_8, Y(3), (/lmax/), pows(1,3), size(pows,1,kind=8))
if (info /= 0) return
n=1
vgl(1:5,1:n) = 0.d0
l(1:3,n) = 0
vgl(1,n) = 1.d0
dd = 1.d0
do d=1,lmax
da = 0.d0
do a=0,d
db = 0.d0
do b=0,d-a
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(1,n) = xy * pows(c,3)
xy = dc * xy
xz = db * xz
yz = da * yz
vgl(2,n) = pows(a-1,1) * yz
vgl(3,n) = pows(b-1,2) * xz
vgl(4,n) = pows(c-1,3) * xy
vgl(5,n) = &amp;
(da-1.d0) * pows(a-2,1) * yz + &amp;
(db-1.d0) * pows(b-2,2) * xz + &amp;
(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
end function qmckl_ao_polynomial_vgl_f
</pre>
</div>
</div>
</div>
</div>
</div>
<div id="outline-container-sec-2" class="outline-2">
<h2 id="sec-2"><span class="section-number-2">2</span> <span class="todo TODO">TODO</span> Gaussian basis functions</h2>
</div>
<div id="outline-container-sec-3" class="outline-2">
<h2 id="sec-3"><span class="section-number-2">3</span> <span class="todo TODO">TODO</span> Slater basis functions</h2>
</div>
</div>
<div id="postamble" class="status">
<p class="date">Created: 2020-10-29 Thu 00:15</p>
<p class="creator"><a href="http://www.gnu.org/software/emacs/">Emacs</a> 25.2.2 (<a href="http://orgmode.org">Org</a> mode 8.2.10)</p>
<p class="validation"><a href="http://validator.w3.org/check?uri=referer">Validate</a></p>
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