316 lines
11 KiB
C++
316 lines
11 KiB
C++
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/*+
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ARES/HADES/BORG Package -- ./libLSS/tools/array_tools.hpp
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Copyright (C) 2014-2020 Guilhem Lavaux <guilhem.lavaux@iap.fr>
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Copyright (C) 2009-2020 Jens Jasche <jens.jasche@fysik.su.se>
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Additional contributions from:
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Guilhem Lavaux <guilhem.lavaux@iap.fr> (2023)
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+*/
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#ifndef __LIBLSS_ARRAY_TOOLS_HPP
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#define __LIBLSS_ARRAY_TOOLS_HPP
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#include "libLSS/tools/errors.hpp"
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#include "libLSS/tools/align_helper.hpp"
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#include <CosmoTool/omptl/omptl>
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#include <CosmoTool/omptl/omptl_algorithm>
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#include <boost/lambda/lambda.hpp>
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#include "libLSS/tools/fused_array.hpp"
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namespace LibLSS {
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namespace array {
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typedef boost::multi_array_types::extent_range erange;
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typedef boost::multi_array_types::index_range irange;
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template<typename InArray>
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struct EigenMap {
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typedef typename InArray::element T;
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typedef Eigen::Array<T, Eigen::Dynamic, 1> E_Array;
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typedef Eigen::Map<E_Array, Eigen::Unaligned> MapArray;
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static MapArray map(InArray& a) {
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return MapArray(a.data(), a.num_elements());
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}
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};
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template<typename InArray>
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typename EigenMap<InArray>::MapArray eigen_map(InArray& a) {
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return EigenMap<InArray>::map(a);
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}
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template<typename Array>
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void fill(Array& a, typename Array::element val) {
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using boost::lambda::constant;
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typedef typename Array::element VArrayType;
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LibLSS::copy_array(a, b_fused<VArrayType,Array::dimensionality>(constant(val)));
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}
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template<typename Array>
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void density_rescale(Array& a, typename Array::element val) {
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using boost::lambda::_1;
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LibLSS::copy_array(a, b_fused<typename Array::element>(a, _1 / val - 1));//omptl::for_each(a.data(), a.data()+a.num_elements(), _1 / val - 1);
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}
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template<typename InArray, typename OutArray>
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void copyArray3d(OutArray& out, const InArray& in, bool in_padded = false)
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{
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if (!in_padded && (out.shape()[0] < in.shape()[0] ||
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out.shape()[1] < in.shape()[1] ||
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out.shape()[2] < in.shape()[2])) {
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error_helper<ErrorBadState>("Invalid copy shape in copyArray3d");
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}
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LibLSS::copy_array(out, in);
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}
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template<typename InOutArray>
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void scaleArray3d(InOutArray& out, typename InOutArray::element scale)
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{
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using boost::lambda::_1;
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LibLSS::copy_array(out, b_fused<typename InOutArray::element>(out, _1*scale));
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}
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template<typename T, size_t n>
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T product(std::array<T,n> const& d) {
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T a = T(1);
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for (size_t i = 0; i < n; i++) a *= d[i];
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return a;
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}
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template<typename Iterator, typename T = typename std::remove_reference<decltype(*std::declval<Iterator>())>::type>
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T product(Iterator b, Iterator e) {
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T a = T(1);
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while (b != e) {
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a *= *b;
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++b;
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}
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return a;
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}
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template<typename InOutPlane>
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void scalePlane(InOutPlane plane, typename InOutPlane::element scale)
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{
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const typename InOutPlane::index *base = plane.index_bases();
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const typename InOutPlane::size_type *exts = plane.shape();
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for (long i = base[0]; i < base[0] + exts[0]; i++) {
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for (long j = base[1]; j < base[1] + exts[1]; j++) {
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plane[i][j] *= scale;
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}
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}
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}
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template<typename InOutLine>
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void scaleLine(InOutLine line, typename InOutLine::element scale)
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{
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const typename InOutLine::index *base = line.index_bases();
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const typename InOutLine::size_type *exts = line.shape();
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for (long i = base[0]; i < base[0] + exts[0]; i++) {
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line[i] *= scale;
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}
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}
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template<typename InArray, typename OutArray>
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void scaleAndCopyArray3d_rv(OutArray out, const InArray& in, typename OutArray::element scale)
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{
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using boost::format;
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long N0 = out.shape()[0],
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N1 = out.shape()[1],
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N2 = out.shape()[2];
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Console& cons = Console::instance();
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N0 = std::min(N0,long(in.shape()[0]));
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N1 = std::min(N1,long(in.shape()[1]));
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N2 = std::min(N2,long(in.shape()[2]));
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long s0 = out.index_bases()[0],
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s1 = out.index_bases()[1],
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s2 = out.index_bases()[2];
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long i_s0 = in.index_bases()[0],
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i_s1 = in.index_bases()[1],
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i_s2 = in.index_bases()[2];
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cons.print<LOG_DEBUG>(format("Copying (%d-%d, %d-%d, %d-%d) -> (%d-%d, %d-%d, %d-%d)")
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% i_s0 % (i_s0+N0) % i_s1 % (i_s1+N1) % i_s2 % (i_s2+N2) %
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s0 % (s0+N0) % s1 % (s1+N1) % s2 % (s2+N2));
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#pragma omp parallel for
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for (long n0 = 0; n0 < N0; n0++) {
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typename OutArray::reference out0 = out[s0+n0];
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typename InArray::const_reference in0 = in[i_s0+n0];
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cons.print<LOG_DEBUG>(format("Line %d") % n0);
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for (long n1 = 0; n1 < N1; n1++) {
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typename OutArray::reference::reference out1 = out0[s1+n1];
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typename InArray::const_reference::const_reference in1 = in0[i_s1+n1];
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for (long n2 = 0; n2 < N2; n2++) {
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out1[s2+n2] = in1[i_s2+n2]*scale;
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}
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}
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}
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cons.print<LOG_DEBUG>("Done copy");
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}
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template<typename InArray, typename OutArray>
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void scaleAndCopyArray3d(OutArray& out, const InArray& in, typename OutArray::element scale, bool in_padded = false)
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{
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using boost::format;
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size_t N0 = out.shape()[0],
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N1 = out.shape()[1],
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N2 = out.shape()[2];
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if (!in_padded && (N0 < in.shape()[0] ||
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N1 < in.shape()[1] ||
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N2 < in.shape()[2])) {
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error_helper<ErrorBadState>("Invalid copy shape in scaleAndcopyArray3d");
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}
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N0 = std::min(N0,in.shape()[0]);
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N1 = std::min(N1,in.shape()[1]);
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N2 = std::min(N2,in.shape()[2]);
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ssize_t s0 = out.index_bases()[0],
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s1 = out.index_bases()[1],
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s2 = out.index_bases()[2];
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Console::instance().print<LOG_DEBUG>(format("Copying (%d-%d, %d-%d, %d-%d)") % s0 % (s0+N0) % s1 % (s1+N1) % s2 % (s2+N2));
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#pragma omp parallel for
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for (size_t n0 = s0; n0 < s0+N0; n0++) {
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auto out_0 = out[n0];
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auto in_0 = in[n0];
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for (size_t n1 = s1; n1 < s1+N1; n1++) {
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auto out_1 = out_0[n1];
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auto in_1 = in_0[n1];
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for (size_t n2 = s2; n2 < s2+N2; n2++) {
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out_1[n2] = in_1[n2]*scale;
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}
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}
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}
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Console::instance().print<LOG_DEBUG>("Done copy");
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}
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template<typename T>
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auto generate_slice(T x[6]) {
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typedef boost::multi_array_types::index_range i_range;
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return boost::indices[i_range(x[0], x[1])][i_range(x[2],x[3])][i_range(x[4],x[5])];
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}
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template<typename A, typename RangeList>
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auto slice_array(A&& a, const RangeList& rlist)
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-> decltype(a[rlist])
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{
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auto v = a[rlist];
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typedef typename std::remove_reference<A>::type A_t;
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boost::array<size_t, A_t::dimensionality> ids;
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size_t i = 0 ;
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for (auto v: rlist.ranges_) {
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ids[i] = v.get_start(a.index_bases()[i]);
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i++;
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}
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v.reindex(ids);
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return v;
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}
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namespace details {
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typedef boost::multi_array_types::extent_range range;
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template<size_t Nd>
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struct make_extent {
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template<typename E, typename IB, typename S>
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static inline auto make(E e, IB ib, S s)
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{
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return make_extent<Nd-1>::make(e[range(*ib, *ib+*s)], ib+1, s+1);
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}
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};
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template<>
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struct make_extent<0> {
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template<typename E, typename IB, typename S>
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static inline auto make(E e, IB ib, S s) { return e; }
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};
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}
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namespace star_index_detail {
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template<typename I>
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auto _make_star_indices(I indices, std::integer_sequence<size_t>) {
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return indices;
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}
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template<typename I, size_t N0, size_t... N1>
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auto _make_star_indices(I indices, std::integer_sequence<size_t,N0,N1...>) {
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typedef boost::multi_array_types::index_range i_range;
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return _make_star_indices(indices, std::integer_sequence<size_t,N1...>())[i_range()];
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}
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template<size_t N, typename I>
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auto make_star_indices(I indices) {
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return _make_star_indices(indices, std::make_integer_sequence<size_t,N>());
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}
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}
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using star_index_detail::make_star_indices;
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template<size_t N, typename IB, typename S, typename E = boost::multi_array_types::extent_gen>
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auto make_extent(IB bases, S shape, E e = E()) {
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return
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details::make_extent<N>::make(
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e, bases, shape
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);
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}
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template<typename... I>
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auto extent(I... i) {
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std::array<size_t, sizeof...(I)> s{i...};
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std::array<size_t, sizeof...(I)> b;
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std::fill(b.begin(), b.end(), 0);
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return make_extent<sizeof...(I)>(b.data(), s.data());
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}
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/**
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* @brief build a new extent object from the dimensions of an existing array-like type.
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*
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* @return an extent
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*/
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template<typename A, typename E = boost::multi_array_types::extent_gen>
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auto make_extent_from(A&& a, E e = E())
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{
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return make_extent<std::remove_reference<A>::type::dimensionality>(a.index_bases(), a.shape(), e);
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}
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template<typename IndexArray, typename SwapFunc>
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void reorder(const IndexArray& part_idx, SwapFunc func)
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{
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size_t numPart = part_idx.shape()[0], i = 0;
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boost::multi_array<typename IndexArray::element,1> sorter(boost::extents[numPart]);
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LibLSS::copy_array(sorter, part_idx);
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// Now that partices have been gathered back, we have to reorder them
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// to "unsort".
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while (i < numPart) {
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typename IndexArray::reference swapper = sorter[i];
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if (swapper == i) {
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i++;
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continue;
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}
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func(swapper, i);
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std::swap(sorter[i], sorter[swapper]);
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}
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}
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};
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};
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#endif
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