Expression Templates Library (ETL)
inv_expr.hpp
1 //=======================================================================
2 // Copyright (c) 2014-2023 Baptiste Wicht
3 // Distributed under the terms of the MIT License.
4 // (See accompanying file LICENSE or copy at
5 // http://opensource.org/licenses/MIT)
6 //=======================================================================
7 
8 #pragma once
9 
10 #include "etl/expr/base_temporary_expr.hpp"
11 
12 //Get the implementations
13 #include "etl/impl/inv.hpp"
14 
15 namespace etl {
16 
21 template <etl_expr A>
22 struct inv_expr : base_temporary_expr_un<inv_expr<A>, A> {
23  using value_type = value_t<A>;
24  using this_type = inv_expr<A>;
25  using base_type = base_temporary_expr_un<this_type, A>;
26  using sub_traits = decay_traits<A>;
27 
28  static constexpr auto storage_order = sub_traits::storage_order;
29 
34  static constexpr bool gpu_computable = false;
35 
40  explicit inv_expr(A a) : base_type(a) {
41  //Nothing else to init
42  }
43 
44  // Assignment functions
45 
50  template <same_dimensions<A> C>
51  void assign_to(C&& c) const {
52  inc_counter("temp:assign");
53 
54  auto& a = this->a();
55 
56  detail::inv_impl::apply(smart_forward(a), c);
57  }
58 
63  template <typename L>
64  void assign_add_to(L&& lhs) const {
65  std_add_evaluate(*this, lhs);
66  }
67 
72  template <typename L>
73  void assign_sub_to(L&& lhs) const {
74  std_sub_evaluate(*this, lhs);
75  }
76 
81  template <typename L>
82  void assign_mul_to(L&& lhs) const {
83  std_mul_evaluate(*this, lhs);
84  }
85 
90  template <typename L>
91  void assign_div_to(L&& lhs) const {
92  std_div_evaluate(*this, lhs);
93  }
94 
99  template <typename L>
100  void assign_mod_to(L&& lhs) const {
101  std_mod_evaluate(*this, lhs);
102  }
103 
110  friend std::ostream& operator<<(std::ostream& os, const inv_expr& expr) {
111  return os << "inv(" << expr._a << ")";
112  }
113 };
114 
119 template <typename A>
120 struct etl_traits<etl::inv_expr<A>> {
121  using expr_t = etl::inv_expr<A>;
122  using sub_expr_t = std::decay_t<A>;
123  using sub_traits = etl_traits<sub_expr_t>;
124  using value_type = value_t<A>;
125 
126  static constexpr size_t D = sub_traits::dimensions();
127 
128  static constexpr bool is_etl = true;
129  static constexpr bool is_transformer = false;
130  static constexpr bool is_view = false;
131  static constexpr bool is_magic_view = false;
132  static constexpr bool is_fast = sub_traits::is_fast;
133  static constexpr bool is_linear = false;
134  static constexpr bool is_thread_safe = true;
135  static constexpr bool is_value = false;
136  static constexpr bool is_direct = true;
137  static constexpr bool is_generator = false;
138  static constexpr bool is_padded = false;
139  static constexpr bool is_aligned = true;
140  static constexpr bool is_temporary = true;
141  static constexpr bool gpu_computable = is_gpu_t<value_type> && cuda_enabled;
142  static constexpr order storage_order = sub_traits::storage_order;
143 
149  template <vector_mode_t V>
150  static constexpr bool vectorizable = true;
151 
156  template <size_t DD>
157  static constexpr size_t dim() {
158  return sub_traits::template dim<DD>();
159  }
160 
167  static size_t dim(const expr_t& e, size_t d) {
168  return sub_traits::dim(e._a, d);
169  }
170 
176  static size_t size(const expr_t& e) {
177  return sub_traits::size(e._a);
178  }
179 
184  static constexpr size_t size() {
185  return sub_traits::size();
186  }
187 
192  static constexpr size_t dimensions() {
193  return 2;
194  }
195 
200  static constexpr int complexity() noexcept {
201  return -1;
202  }
203 };
204 
210 template <etl_expr A>
211 inv_expr<A> inv(A&& a) {
212  return inv_expr<A>{a};
213 }
214 
215 } //end of namespace etl
etl::inv_expr::assign_mod_to
void assign_mod_to(L &&lhs) const
Modulo the given left-hand-side expression.
Definition: inv_expr.hpp:100
etl::base_temporary_expr_un< inv_expr< A >, A >::a
std::add_lvalue_reference_t< A > a()
Returns the sub expression.
Definition: base_temporary_expr.hpp:489
etl::inv_expr::assign_mul_to
void assign_mul_to(L &&lhs) const
Multiply the given left-hand-side expression.
Definition: inv_expr.hpp:82
etl::inv_expr::gpu_computable
static constexpr bool gpu_computable
Indicates if the temporary expression can be directly evaluated using only GPU.
Definition: inv_expr.hpp:34
etl::is_magic_view
constexpr bool is_magic_view
Traits indicating if the given ETL type is a magic view expression.
Definition: traits.hpp:311
etl::D
D D
The number of dimensions.
Definition: dyn_matrix_view.hpp:24
etl::inv_expr::value_type
value_t< A > value_type
The type of value of the expression.
Definition: inv_expr.hpp:23
etl::order
order
Storage order of a matrix.
Definition: order.hpp:15
etl::inv_expr::operator<<
friend std::ostream & operator<<(std::ostream &os, const inv_expr &expr)
Print a representation of the expression on the given stream.
Definition: inv_expr.hpp:110
etl::cuda_enabled
constexpr bool cuda_enabled
Indicates if CUDA is available.
Definition: config.hpp:94
etl::detail::inv_impl::apply
static void apply(A &&a, C &&c)
Apply the functor.
Definition: inv.hpp:24
etl::etl_traits< etl::inv_expr< A > >::sub_expr_t
std::decay_t< A > sub_expr_t
The sub expression type.
Definition: inv_expr.hpp:122
etl::inv_expr::assign_to
void assign_to(C &&c) const
Assign to a matrix of the same storage order.
Definition: inv_expr.hpp:51
etl::base_temporary_expr_un::_a
A _a
The sub expression reference.
Definition: base_temporary_expr.hpp:447
etl::is_fast
constexpr bool is_fast
Traits to test if the given ETL expresion type is fast (sizes known at compile-time) ...
Definition: traits.hpp:588
etl::etl_traits
Traits to get information about ETL types.
Definition: tmp.hpp:68
etl
Root namespace for the ETL library.
Definition: adapter.hpp:15
etl::inv_expr
A transposition expression.
Definition: inv_expr.hpp:22
etl::etl_traits::dimensions
static constexpr size_t dimensions()
Return the number of dimensions of the expression.
Definition: traits_base.hpp:31
etl::dim
auto dim(E &&value, size_t i) -> detail::identity_helper< E, dim_view< detail::build_identity_type< E >, D >>
Return a view representing the ith Dth dimension.
Definition: view_expression_builder.hpp:25
etl::etl_traits< etl::inv_expr< A > >::value_type
value_t< A > value_type
The value type of the expression.
Definition: inv_expr.hpp:124
etl::etl_traits< etl::inv_expr< A > >::size
static size_t size(const expr_t &e)
Returns the size of the expression.
Definition: inv_expr.hpp:176
etl::std_mod_evaluate
void std_mod_evaluate(Expr &&expr, Result &&result)
Compound modulo evaluation of the expr into result.
Definition: evaluator.hpp:1271
etl::std_mul_evaluate
void std_mul_evaluate(Expr &&expr, Result &&result)
Compound multiply evaluation of the expr into result.
Definition: evaluator.hpp:1233
etl::is_transformer
constexpr bool is_transformer
Traits indicating if the given ETL type is a transformer expression.
Definition: traits.hpp:297
etl::etl_traits< etl::inv_expr< A > >::dim
static constexpr size_t dim()
Returns the DDth dimension of the expression.
Definition: inv_expr.hpp:157
etl::inv
inv_expr< A > inv(A &&a)
Creates an expression representing the Inverse of the given expression.
Definition: inv_expr.hpp:211
etl::is_view
constexpr bool is_view
Traits indicating if the given ETL type is a view expression.
Definition: traits.hpp:304
etl::etl_traits::is_fast
static constexpr bool is_fast
Indicates if T is a fast structure.
Definition: traits_base.hpp:25
etl::etl_traits< etl::inv_expr< A > >::dim
static size_t dim(const expr_t &e, size_t d)
Returns the dth dimension of the expression.
Definition: inv_expr.hpp:167
etl::std_sub_evaluate
void std_sub_evaluate(Expr &&expr, Result &&result)
Compound subtract evaluation of the expr into result.
Definition: evaluator.hpp:1214
etl::smart_forward
decltype(auto) smart_forward(E &expr)
Smart forwarding for a temporary expression.
Definition: helpers.hpp:323
etl::base_temporary_expr_un
Abstract base class for temporary unary expression.
Definition: base_temporary_expr.hpp:443
etl::inv_expr::inv_expr
inv_expr(A a)
Construct a new expression.
Definition: inv_expr.hpp:40
etl::etl_traits< etl::inv_expr< A > >::size
static constexpr size_t size()
Returns the size of the expression.
Definition: inv_expr.hpp:184
etl::is_thread_safe
constexpr bool is_thread_safe
Traits to test if the given ETL expresion type is thread safe.
Definition: traits.hpp:687
etl::inv_expr::assign_add_to
void assign_add_to(L &&lhs) const
Add to the given left-hand-side expression.
Definition: inv_expr.hpp:64
etl::inv_expr::storage_order
static constexpr auto storage_order
The sub storage order.
Definition: inv_expr.hpp:28
etl::value_t
typename decay_traits< E >::value_type value_t
Traits to extract the value type out of an ETL type.
Definition: tmp.hpp:81
etl::std_div_evaluate
void std_div_evaluate(Expr &&expr, Result &&result)
Compound divide evaluation of the expr into result.
Definition: evaluator.hpp:1252
etl::inc_counter
void inc_counter([[maybe_unused]] const char *name)
Increase the given counter.
Definition: counters.hpp:25
etl::etl_traits< etl::inv_expr< A > >::complexity
static constexpr int complexity() noexcept
Estimate the complexity of computation.
Definition: inv_expr.hpp:200
etl::inv_expr::assign_div_to
void assign_div_to(L &&lhs) const
Divide the given left-hand-side expression.
Definition: inv_expr.hpp:91
etl::std_add_evaluate
void std_add_evaluate(Expr &&expr, Result &&result)
Compound add evaluation of the expr into result.
Definition: evaluator.hpp:1195
etl::etl_traits< etl::inv_expr< A > >::dimensions
static constexpr size_t dimensions()
Returns the number of dimensions of the expression.
Definition: inv_expr.hpp:192
etl::inv_expr::assign_sub_to
void assign_sub_to(L &&lhs) const
Sub from the given left-hand-side expression.
Definition: inv_expr.hpp:73
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