/*******************************************************************************
*
* TRIQS: a Toolbox for Research in Interacting Quantum Systems
*
* Copyright (C) 2012 by M. Ferrero, O. Parcollet
*
* TRIQS is free software: you can redistribute it and/or modify it under the
* terms of the GNU General Public License as published by the Free Software
* Foundation, either version 3 of the License, or (at your option) any later
* version.
*
* TRIQS is distributed in the hope that it will be useful, but WITHOUT ANY
* WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
* FOR A PARTICULAR PURPOSE. See the GNU General Public License for more
* details.
*
* You should have received a copy of the GNU General Public License along with
* TRIQS. If not, see .
*
******************************************************************************/
#ifndef TRIQS_GF_EXPR_H
#define TRIQS_GF_EXPR_H
#include
namespace triqs { namespace gfs {
using utility::is_in_ZRC;
using utility::remove_rvalue_ref;
namespace gfs_expr_tools {
// a wrapper for scalars
template struct scalar_wrap {
typedef void variable_t;
typedef void target_t;
typedef void option_t;
S s;
template scalar_wrap(T && x):s(std::forward(x)){}
S singularity() const { return s;}
template S operator[](KeyType && key) const { return s;}
template inline S operator()(Args && ... args) const { return s;}
friend std::ostream &operator <<(std::ostream &sout, scalar_wrap const &expr){return sout << expr.s; }
};
// Combine the two meshes of LHS and RHS : need to specialize where there is a scalar
struct combine_mesh {
template
auto operator() (L && l, R && r) const -> decltype(std::forward(l).mesh()) {
if (!(l.mesh() == r.mesh())) TRIQS_RUNTIME_ERROR << "Mesh mismatch : in Green Function Expression "<< l.mesh()<<" vs" <(l).mesh();
}
template auto operator() (scalar_wrap const &, R && r) const DECL_AND_RETURN(std::forward(r).mesh());
template auto operator() (L && l, scalar_wrap const &) const DECL_AND_RETURN(std::forward(l).mesh());
};
// Same thing to get the data shape
// NB : could be unified to one combine, where F is a functor, but an easy usage requires polymorphic lambda ...
struct combine_shape {
template
auto operator() (L && l, R && r) const -> decltype(get_gf_data_shape(std::forward(l))) {
if (!(get_gf_data_shape(l) == get_gf_data_shape(r)))
TRIQS_RUNTIME_ERROR << "Shape mismatch in Green Function Expression: " << get_gf_data_shape(l) << " vs "<< get_gf_data_shape(r);
return get_gf_data_shape(std::forward(l));
}
template auto operator() (scalar_wrap const &, R && r) const DECL_AND_RETURN(get_gf_data_shape(std::forward(r)));
template auto operator() (L && l, scalar_wrap const &) const DECL_AND_RETURN(get_gf_data_shape(std::forward(l)));
};
template struct node_t : std::conditional::value, scalar_wrap, typename remove_rvalue_ref::type> {};
template struct _or_ {typedef void type;};
template struct _or_ {typedef A type;};
template struct _or_ {typedef A type;};
template struct _or_ {typedef A type;};
template <> struct _or_ {typedef void type;};
}// gfs_expr_tools
template struct gf_expr : TRIQS_CONCEPT_TAG_NAME(ImmutableGreenFunction){
typedef typename std::remove_reference::type L_t;
typedef typename std::remove_reference::type R_t;
typedef typename gfs_expr_tools::_or_::type variable_t;
typedef typename gfs_expr_tools::_or_::type target_t;
typedef typename gfs_expr_tools::_or_::type option_t;
static_assert(!std::is_same::value, "Can not combine two gf expressions with different variables");
static_assert(!std::is_same::value, "Can not combine two gf expressions with different target");
L l; R r;
template gf_expr(LL && l_, RR && r_):l(std::forward(l_)), r(std::forward(r_)) {}
auto mesh() const DECL_AND_RETURN(gfs_expr_tools::combine_mesh()(l,r));
auto singularity() const DECL_AND_RETURN (utility::operation()(l.singularity() , r.singularity()));
auto get_data_shape() const DECL_AND_RETURN (gfs_expr_tools::combine_shape()(l,r));
template auto operator[](KeyType && key) const DECL_AND_RETURN(utility::operation()(l[std::forward(key)] , r[std::forward(key)]));
template auto operator()(Args && ... args) const DECL_AND_RETURN(utility::operation()(l(std::forward(args)...) , r(std::forward(args)...)));
friend std::ostream &operator <<(std::ostream &sout, gf_expr const &expr){return sout << "("<::name << " "< struct gf_unary_m_expr : TRIQS_CONCEPT_TAG_NAME(ImmutableGreenFunction){
typedef typename std::remove_reference::type L_t;
typedef typename L_t::variable_t variable_t;
typedef typename L_t::target_t target_t;
typedef typename L_t::option_t option_t;
L l;
template gf_unary_m_expr(LL && l_) : l(std::forward(l_)) {}
auto mesh() const DECL_AND_RETURN(l.mesh());
auto singularity() const DECL_AND_RETURN(l.singularity());
auto get_data_shape() const DECL_AND_RETURN (get_data_shape(l));
template auto operator[](KeyType&& key) const DECL_AND_RETURN( -l[key]);
template auto operator()(Args && ... args) const DECL_AND_RETURN( -l(std::forward(args)...));
friend std::ostream &operator <<(std::ostream &sout, gf_unary_m_expr const &expr){return sout << '-'<\
typename std::enable_if::value && TRAIT2 ::value, \
gf_expr::type, typename gfs_expr_tools::node_t::type>>::type\
operator OP (A1 && a1, A2 && a2) { return {std::forward(a1),std::forward(a2)};}
DEFINE_OPERATOR(plus, +, ImmutableGreenFunction,ImmutableGreenFunction);
DEFINE_OPERATOR(minus, -, ImmutableGreenFunction,ImmutableGreenFunction);
DEFINE_OPERATOR(multiplies, *, ImmutableGreenFunction,ImmutableGreenFunction);
DEFINE_OPERATOR(multiplies, *, is_in_ZRC,ImmutableGreenFunction);
DEFINE_OPERATOR(multiplies, *, ImmutableGreenFunction,is_in_ZRC);
DEFINE_OPERATOR(divides, /, ImmutableGreenFunction,ImmutableGreenFunction);
DEFINE_OPERATOR(divides, /, is_in_ZRC,ImmutableGreenFunction);
DEFINE_OPERATOR(divides, /, ImmutableGreenFunction,is_in_ZRC);
#undef DEFINE_OPERATOR
// the unary is special
template
typename std::enable_if<
ImmutableGreenFunction::value,
gf_unary_m_expr::type >
>::type
operator - (A1 && a1) { return {std::forward(a1)};}
}}//namespace triqs::gf
#endif