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<%def name="momenta_boundary(name, param)">
__kernel void ${name}_momenta_boundary(
__global ${float_type}* f_next,
__global ${float_type}* f_prev,
unsigned int gid, ${param})
{
__global ${float_type}* preshifted_f_next = f_next + gid;
__global ${float_type}* preshifted_f_prev = f_prev + gid;
% for i, c_i in enumerate(descriptor.c):
const ${float_type} f_curr_${i} = preshifted_f_prev[${layout.pop_offset(i) + layout.neighbor_offset(-c_i)}];
% endfor
% for i, expr in enumerate(moments_subexpr):
const ${float_type} ${expr[0]} = ${ccode(expr[1])};
% endfor
${caller.body()}
% for i, expr in enumerate(collision_subexpr):
const ${float_type} ${expr[0]} = ${ccode(expr[1])};
% endfor
% for i, expr in enumerate(collision_assignment):
const ${float_type} ${ccode(expr)}
% endfor
% for i in range(0,descriptor.q):
preshifted_f_next[${layout.pop_offset(i)}] = f_next_${i};
% endfor
}
</%def>
<%call expr="momenta_boundary('velocity', '%s%d velocity' % (float_type, descriptor.d))">
${float_type} ${ccode(moments_assignment[0])}
% for i, expr in enumerate(moments_assignment[1:]):
${float_type} ${expr.lhs} = velocity.${['x', 'y', 'z'][i]};
% endfor
</%call>
<%call expr="momenta_boundary('density', '%s density' % float_type)">
${float_type} ${moments_assignment[0].lhs} = density;
% for i, expr in enumerate(moments_assignment[1:]):
${float_type} ${ccode(expr)}
% endfor
</%call>
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