libcruft-util/coord/ops.hpp

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/*
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* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
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* http://www.apache.org/licenses/LICENSE-2.0
*
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* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
* Copyright 2012-2015 Danny Robson <danny@nerdcruft.net>
*/
#ifndef __UTIL_COORDS_OPS
#define __UTIL_COORDS_OPS
#include "../preprocessor.hpp"
#include "../maths.hpp"
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#include "../types/bits.hpp"
#include <cstdlib>
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#include <cmath>
namespace util {
// forward declerations for traits
template <size_t,typename> struct point;
template <size_t,typename> struct extent;
template <size_t,typename> struct vector;
template <size_t,typename> struct colour;
///////////////////////////////////////////////////////////////////////
// operation traits
namespace coord {
template <
template <size_t,typename> class A,
template <size_t,typename> class B
>
struct traits { };
//-------------------------------------------------------------------------
template <> struct traits<colour,colour> { template <size_t S, typename T> using result = colour<S,T>; };
template <> struct traits<extent,extent> { template <size_t S, typename T> using result = extent<S,T>; };
template <> struct traits<extent,vector> { template <size_t S, typename T> using result = extent<S,T>; };
template <> struct traits<point,extent> { template <size_t S, typename T> using result = point <S,T>; };
template <> struct traits<point,vector> { template <size_t S, typename T> using result = point <S,T>; };
template <> struct traits<vector,point> { template <size_t S, typename T> using result = point <S,T>; };
template <> struct traits<vector,vector> { template <size_t S, typename T> using result = vector<S,T>; };
}
///////////////////////////////////////////////////////////////////////////
// vector operators
#define ELEMENT_OP(OP) \
template < \
size_t S, \
typename T, \
typename U, \
template <size_t,typename> class A, \
template <size_t,typename> class B \
> \
auto \
operator OP (A<S,T> a, B<S,U> b) \
{ \
typename coord::traits<A,B>::template result< \
S,typename std::common_type<T,U>::type \
> out; \
for (size_t i = 0; i < S; ++i) \
out[i] = a[i] OP b[i]; \
return out; \
} \
\
template < \
size_t S, \
typename T, \
typename U, \
template <size_t,typename> class A, \
template <size_t,typename> class B \
> \
typename std::enable_if< \
std::is_same< \
typename std::common_type<T,U>::type, \
T \
>::value, \
A<S,T> \
>::type& \
operator PASTE(OP,=) (A<S,T>& a, B<S,U> b) \
{ \
for (size_t i = 0; i < S; ++i) \
a[i] PASTE(OP,=) b[i]; \
return a; \
}
ELEMENT_OP(+)
ELEMENT_OP(-)
ELEMENT_OP(*)
ELEMENT_OP(/)
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ELEMENT_OP(%)
#undef ELEMENT_OP
///////////////////////////////////////////////////////////////////////////
// scalar operators
#define SCALAR_OP(OP) \
template < \
size_t S, \
typename T, \
typename U, \
template <size_t,typename> class K \
> \
auto \
operator OP (U u, K<S,T> k) \
{ \
K<S,typename std::common_type<T,U>::type> out; \
for (size_t i = 0; i < S; ++i) \
out[i] = u OP k[i]; \
return out; \
} \
\
template < \
size_t S, \
typename T, \
typename U, \
template <size_t,typename> class K \
> \
auto \
operator OP (K<S,T> k, U u) \
{ \
K<S,typename std::common_type<T,U>::type> out; \
for (size_t i = 0; i < S; ++i) \
out[i] = k[i] OP u; \
return out; \
}
SCALAR_OP(+)
SCALAR_OP(-)
SCALAR_OP(*)
SCALAR_OP(/)
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SCALAR_OP(%)
#undef SCALAR_OP
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//-------------------------------------------------------------------------
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// scalar assignment operators.
//
// we must check the operands/results do not need casting to store in the
// destination type to avoid silent errors accumulating.
#define SCALAR_OP(OP) \
template < \
size_t S, \
typename T, \
typename U, \
template <size_t,typename> class K \
> \
typename std::enable_if< \
std::is_same< \
T, \
typename std::common_type<T,U>::type>::value, \
K<S,T> \
>::type& \
operator OP (K<S,T> &k, U u) \
{ \
for (size_t i = 0; i < S; ++i) \
k[i] OP u; \
return k; \
}
SCALAR_OP(+=)
SCALAR_OP(-=)
SCALAR_OP(*=)
SCALAR_OP(/=)
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SCALAR_OP(%=)
#undef SCALAR_OP
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//-------------------------------------------------------------------------
// negation
template <
size_t S,
typename T,
template<size_t,typename> class K
>
typename std::enable_if<
std::is_signed<T>::value,
K<S,T>
>::type
operator- (K<S,T> k)
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{
for (auto &v: k)
v = -v;
return k;
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}
///////////////////////////////////////////////////////////////////////////
// unary operators
#define UNARY_OP(OP) \
template < \
size_t S, \
typename T, \
template <size_t,typename> class K \
> \
auto \
operator OP (K<S,T> k) \
{ \
K<S,decltype(OP std::declval<T> ())> out; \
\
for (size_t i = 0; i < S; ++i) \
out[i] = OP k[i]; \
\
return k; \
}
UNARY_OP(!)
UNARY_OP(~)
#undef UNARY_OP
///////////////////////////////////////////////////////////////////////////
// logic operators
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/// elementwise equality operator
template <
size_t S,
typename T,
template <size_t,typename> class K
>
bool
operator== (K<S,T> a, K<S,T> b)
{
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bool (*predicate)(const T&, const T&) = almost_equal;
return std::equal (std::begin (a),
std::end (a),
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std::begin (b),
predicate);
}
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///------------------------------------------------------------------------
/// elementwise inquality operator
template <
size_t S,
typename T,
template <size_t,typename> class K
>
bool
operator!= (K<S,T> a, K<S,T> b)
{
return !(a == b);
}
///////////////////////////////////////////////////////////////////////////
// special operators
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/// point-point subtraction giving a vector difference
template <
size_t S,
typename T,
typename U
>
vector<S,typename std::common_type<T,U>::type>
operator- (point<S,T> a, point<S,U> b)
{
vector<S,typename std::common_type<T,U>::type> out;
for (size_t i = 0; i < S; ++i)
out[i] = a[i] - b[i];
return out;
}
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//-------------------------------------------------------------------------
template <
size_t S,
typename T,
typename U
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>
vector<S,typename std::common_type<T,U>::type>
operator- (U u, point<S,T> p)
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{
return point<S,U> {u} - p;
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}
//-------------------------------------------------------------------------
template <
size_t S,
typename T,
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template <size_t,typename> class A,
template <size_t,typename> class B
>
T dot (A<S,T> a, B<S,T> b)
{
T sum { 0 };
for (size_t i = 0; i < S; ++i)
sum += a[i] * b[i];
return sum;
}
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//-------------------------------------------------------------------------
template <
size_t S,
typename T,
template <size_t,typename> class K
>
K<S,T>
abs (K<S,T> k)
{
for (auto &v: k)
v = std::abs (v);
return k;
}
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//-------------------------------------------------------------------------
template <
size_t S,
typename T,
template <size_t,typename> class K
>
K<S,T>
pow (K<S,T> k)
{
for (auto &v: k)
v = pow (v);
return k;
}
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///////////////////////////////////////////////////////////////////////////
// logical element operators
/// return a coord type containing the max element at each offset
template <
size_t S,
typename T,
template <size_t,typename> class K
>
K<S,T>
min (K<S,T> a, K<S,T> b)
{
K<S,T> out;
for (size_t i = 0; i < S; ++i)
out[i] = min (a[i], b[i]);
return out;
}
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///------------------------------------------------------------------------
// /return a coord type containing the max element at each offset
template <
size_t S,
typename T,
template <size_t,typename> class K
>
K<S,T>
max (K<S,T> a, K<S,T> b)
{
K<S,T> out;
for (size_t i = 0; i < S; ++i)
out[i] = max (a[i], b[i]);
return out;
}
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///------------------------------------------------------------------------
template <size_t S, typename T, template<size_t,typename> class K>
T
min (K<S,T> k)
{ return *std::min_element (k.begin (), k.end ()); }
template <size_t S, typename T, template<size_t,typename> class K>
T
max (K<S,T> k)
{ return *std::max_element (k.begin (), k.end ()); }
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//-------------------------------------------------------------------------
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#define VECTOR_OP(OP) \
template < \
size_t S, \
typename T, \
typename U, \
template <size_t,typename> class A, \
template <size_t,typename> class B \
> \
vector<S,bool> \
operator OP (const A<S,T> a, const B<S,U> b) \
{ \
vector<S,bool> out; \
for (size_t i = 0; i < S; ++i) \
out[i] = a[i] OP b[i]; \
return out; \
}
VECTOR_OP(<)
VECTOR_OP(>)
VECTOR_OP(<=)
VECTOR_OP(>=)
#undef VECTOR_OP
#define SCALAR_OP(OP) \
template < \
size_t S, \
typename T, \
typename U, \
template <size_t,typename> class K \
> \
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vector<S,bool> \
operator OP (const K<S,T> k, const U u) \
{ \
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vector<S,bool> out; \
for (size_t i = 0; i < S; ++i) \
out[i] = k[i] OP u; \
return out; \
}
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SCALAR_OP(<)
SCALAR_OP(>)
SCALAR_OP(<=)
SCALAR_OP(>=)
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#undef SCALAR_OP
//-------------------------------------------------------------------------
template <size_t S, template <size_t,typename> class K>
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bool
any (const K<S,bool> k)
{
return std::any_of (k.begin (), k.end (), identity<bool>);
}
//-------------------------------------------------------------------------
template <size_t S, template <size_t,typename> class K>
bool
all (const K<S,bool> k)
{
return std::all_of (k.begin (), k.end (), identity<bool>);
}
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///////////////////////////////////////////////////////////////////////////
template <size_t S, typename T, template<size_t,typename> class K>
typename std::enable_if<
std::is_floating_point<T>::value,
K<S,T>
>::type
floor (K<S,T> k)
{
T (*floor_func)(T) = std::floor;
K<S,T> v;
std::transform (k.begin (), k.end (), v.begin (), floor_func);
return v;
}
}
#endif