/*
* Copyright (c), Zeriph Enterprises
* All rights reserved.
*
* Contributor(s):
* Zechariah Perez, omni (at) zeriph (dot) com
*
* THIS SOFTWARE IS PROVIDED BY ZERIPH AND CONTRIBUTORS "AS IS" AND ANY
* EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL ZERIPH AND CONTRIBUTORS BE LIABLE FOR ANY
* DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
* ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#if !defined(OMNI_VECTOR2_HPP)
#define OMNI_VECTOR2_HPP 1
#include <omni/defs/global.hpp>
#include <omni/defs/class_macros.hpp>
#include <omni/geometry/point2d.hpp>
#if defined(OMNI_SAFE_VECTOR2)
#include <omni/sync/basic_lock.hpp>
#define OMNI_SAFE_VEC2MTX_FW ,m_mtx()
#define OMNI_SAFE_VEC2LOCK_FW this->m_mtx.lock();
#define OMNI_SAFE_VEC2UNLOCK_FW this->m_mtx.unlock();
#define OMNI_SAFE_VEC2ALOCK_FW omni::sync::scoped_basic_lock uuid12345(&this->m_mtx);
#define OMNI_SAFE_VEC2OALOCK_FW(o) omni::sync::scoped_basic_lock uuid54321(&o.m_mtx);
#else
#define OMNI_SAFE_VEC2MTX_FW
#define OMNI_SAFE_VEC2LOCK_FW
#define OMNI_SAFE_VEC2UNLOCK_FW
#define OMNI_SAFE_VEC2ALOCK_FW
#define OMNI_SAFE_VEC2OALOCK_FW(o)
#endif
namespace omni {
namespace geometry {
class vector2
{
public:
vector2() :
OMNI_CTOR_FW(
omni::geometry::vector2)
m_x(), m_y()
OMNI_SAFE_VEC2MTX_FW
{
}
vector2(
const omni::geometry::vector2& cp) :
OMNI_CPCTOR_FW(cp)
m_x(cp.x()), m_y(cp.y())
OMNI_SAFE_VEC2MTX_FW
{
}
vector2(
omni::geometry::point_t p) :
OMNI_CTOR_FW(
omni::geometry::vector2)
m_x(p.x()), m_y(p.y())
OMNI_SAFE_VEC2MTX_FW
{
}
vector2(
omni::geometry::point64_t p) :
OMNI_CTOR_FW(
omni::geometry::vector2)
m_x(p.x()), m_y(p.y())
OMNI_SAFE_VEC2MTX_FW
{
}
vector2(
omni::geometry::pointF_t p) :
OMNI_CTOR_FW(
omni::geometry::vector2)
m_x(p.x()), m_y(p.y())
OMNI_SAFE_VEC2MTX_FW
{
}
template <
typename T >
vector2(
const omni::geometry::point2d<T>& p) :
OMNI_CTOR_FW(
omni::geometry::vector2)
m_x(p.x()), m_y(p.y())
OMNI_SAFE_VEC2MTX_FW
{
}
template <
typename T >
vector2(
const omni::math::dimensional<T,
2>& p) :
OMNI_CTOR_FW(
omni::geometry::vector2)
m_x(p[
0]), m_y(p[
1])
OMNI_SAFE_VEC2MTX_FW
{
}
vector2(
double x,
double y) :
m_x(x), m_y(y)
OMNI_SAFE_VEC2MTX_FW
{
}
~vector2()
{
OMNI_TRY_FW
OMNI_DTOR_FW
OMNI_CATCH_FW
OMNI_D5_FW(
"destroyed");
}
double x()
const
{
OMNI_SAFE_VEC2ALOCK_FW
return this->m_x;
}
double y()
const
{
OMNI_SAFE_VEC2ALOCK_FW
return this->m_y;
}
void swap(vector2& o)
{
if (
this != &o) {
OMNI_SAFE_VEC2ALOCK_FW
OMNI_SAFE_VEC2OALOCK_FW(o)
std::swap(
this->m_x, o.m_x);
std::swap(
this->m_y, o.m_y);
}
}
omni::string_t to_string_t()
const
{
omni::sstream_t s;
OMNI_SAFE_VEC2LOCK_FW
s <<
"{" <<
this->m_x <<
"," <<
this->m_y <<
"}";
OMNI_SAFE_VEC2UNLOCK_FW
return s.str();
}
std::string to_string()
const
{
std::stringstream s;
OMNI_SAFE_VEC2LOCK_FW
s <<
"{" <<
this->m_x <<
"," <<
this->m_y <<
"}";
OMNI_SAFE_VEC2UNLOCK_FW
return s.str();
}
std::wstring to_wstring()
const
{
std::wstringstream s;
OMNI_SAFE_VEC2LOCK_FW
s <<
"{" <<
this->m_x <<
"," <<
this->m_y <<
"}";
OMNI_SAFE_VEC2UNLOCK_FW
return s.str();
}
operator std::string()
const
{
return this->to_string();
}
operator std::wstring()
const
{
return this->to_wstring();
}
operator point_t()
const
{
OMNI_SAFE_VEC2ALOCK_FW
return point_t(
static_cast<int32_t>(
this->m_x),
static_cast<int32_t>(
this->m_y));
}
operator pointF_t()
const
{
OMNI_SAFE_VEC2ALOCK_FW
return pointF_t(
static_cast<
float>(
this->m_x),
static_cast<
float>(
this->m_y));
}
operator pointD_t()
const
{
OMNI_SAFE_VEC2ALOCK_FW
return pointD_t(
this->m_x,
this->m_y);
}
bool operator==(
const vector2& b)
const
{
if (
this == &b) {
return true; }
OMNI_SAFE_VEC2ALOCK_FW
OMNI_SAFE_VEC2OALOCK_FW(b)
return (
omni::math::are_equal<
double>(
this->m_x, b.m_x) &&
omni::math::are_equal<
double>(
this->m_y, b.m_y)
)
OMNI_EQUAL_FW(b);
}
vector2&
operator=(
const vector2& b)
{
if (
this != &b) {
OMNI_SAFE_VEC2ALOCK_FW
OMNI_SAFE_VEC2OALOCK_FW(b)
OMNI_ASSIGN_FW(b)
this->m_x = b.m_x;
this->m_y = b.m_y;
}
return *
this;
}
vector2
operator-(
const vector2& b)
const
{
OMNI_SAFE_VEC2ALOCK_FW
if (
this != &b) {
OMNI_SAFE_VEC2OALOCK_FW(b)
return vector2((b.m_x -
this->m_x), (b.m_y -
this->m_y));
}
return vector2((b.m_x -
this->m_x), (b.m_y -
this->m_y));
}
vector2
operator+(
const vector2& b)
const
{
OMNI_SAFE_VEC2ALOCK_FW
if (
this != &b) {
OMNI_SAFE_VEC2OALOCK_FW(b)
return vector2((
this->m_x + b.m_x), (
this->m_y + b.m_y));
}
return vector2((
this->m_x + b.m_x), (
this->m_y + b.m_y));
}
vector2
operator*(
double d)
const
{
OMNI_SAFE_VEC2ALOCK_FW
return vector2((
this->m_x * d), (
this->m_y * d));
}
vector2
operator/(
double d)
const
{
OMNI_SAFE_VEC2ALOCK_FW
return vector2((
this->m_x / d), (
this->m_y / d));
}
vector2 unit_vector()
const
{
return *
this /
this->length();
}
double length()
const
{
OMNI_SAFE_VEC2ALOCK_FW
return std::sqrt((
this->m_x *
this->m_x) + (
this->m_y *
this->m_y));
}
template <
typename T >
static omni::geometry::point2d<T> calculate_point(
const vector2& a,
const vector2& b,
double distance)
{
vector2 ab = a - b;
return a + ab.unit_vector() * distance;
}
template <
typename T >
static omni::geometry::point2d<T> calculate_point(T x1, T y1, T x2, T y2, T distance)
{
return omni::geometry::vector2::calculate_point<T>(
vector2(
omni::geometry::point2d<T>(x1, y1)),
vector2(
omni::geometry::point2d<T>(x2, y2)),
distance
);
}
OMNI_MEMBERS_FW(
omni::geometry::vector2)
// disposing,name,type(),hash()
OMNI_OSTREAM_FW(
omni::geometry::vector2)
private:
double m_x;
double m_y;
#if defined(OMNI_SAFE_VECTOR2)
mutable omni::sync::basic_lock m_mtx;
#endif
};
}
}
namespace std {
inline void swap(
omni::geometry::vector2& o1,
omni::geometry::vector2& o2)
{
o1.swap(o2);
}
}
#endif // OMNI_VECTOR2_HPP
