+#include <cassert>
#include <cmath>
-#include "pslot.h"
+#include "pslot.hh"
-void ParkingSlot::reverse_border()
+namespace bcar {
+
+ParkingSlot::ParkingSlot(Point p, double h, double W, double L) :
+ border_({p,
+ Point(p.x() + W * cos(h - M_PI / 2.0),
+ p.y() + W * sin(h - M_PI / 2.0)),
+ Point(p.x() + W * cos(h - M_PI / 2.0) + L * cos(h),
+ p.y() + W * sin(h - M_PI / 2.0) + L * sin(h)),
+ Point(p.x() + L * cos(h), p.y() + L * sin(h))}),
+ entry_(border_[0], border_[3]),
+ rear_(border_[0], border_[1]),
+ curb_(border_[1], border_[2]),
+ front_(border_[2], border_[3])
+{
+}
+
+ParkingSlot::ParkingSlot(double lrx, double lry, double rrx, double rry,
+ double rfx, double rfy, double lfx, double lfy) :
+ border_({Point(lrx, lry), Point(rrx, rry),
+ Point(rfx, rfy), Point(lfx, lfy)}),
+ entry_(border_[0], border_[3]),
+ rear_(border_[0], border_[1]),
+ curb_(border_[1], border_[2]),
+ front_(border_[2], border_[3])
{
- this->border(
- this->x4(), this->y4(),
- this->x3(), this->y3(),
- this->x2(), this->y2(),
- this->x1(), this->y1()
- );
}
-// slot info
-double ParkingSlot::heading() const
+double
+ParkingSlot::lfx() const
{
- return atan2(this->y4() - this->y1(), this->x4() - this->x1());
+ return this->border_[3].x();
}
-bool ParkingSlot::parallel() const
+double
+ParkingSlot::lfy() const
{
- double d1 = sqrt(
- pow(this->x2() - this->x1(), 2)
- + pow(this->y2() - this->y1(), 2)
- );
- double d2 = sqrt(
- pow(this->x3() - this->x2(), 2)
- + pow(this->y3() - this->y2(), 2)
- );
- if (d1 < d2)
- return true;
- else
- return false;
+ return this->border_[3].y();
}
-bool ParkingSlot::right() const
+double
+ParkingSlot::lrx() const
{
- if (sgn(
- (this->x2() - this->x1()) * (this->y4() - this->y1())
- - (this->y2() - this->y1()) * (this->x4() - this->x1())
- ) < 0)
- return false;
- else
- return true;
+ return this->border_[0].x();
}
-//getters, setters
-void ParkingSlot::set_slot(
- double x,
- double y,
- double h,
- double w,
- double l
-)
+double
+ParkingSlot::lry() const
{
- double x1 = x + w/2 * cos(h - M_PI/2);
- double y1 = y + w/2 * sin(h - M_PI/2);
- double x2 = x + l * cos(h) + w/2 * cos(h - M_PI/2);
- double y2 = y + l * sin(h) + w/2 * sin(h - M_PI/2);
- double x3 = x + l * cos(h) + w/2 * cos(h + M_PI/2);
- double y3 = y + l * sin(h) + w/2 * sin(h + M_PI/2);
- double x4 = x + w/2 * cos(h + M_PI/2);
- double y4 = y + w/2 * sin(h + M_PI/2);
- this->border(x1, y1, x2, y2, x3, y3, x4, y4);
+ return this->border_[0].y();
}
-ParkingSlot::ParkingSlot()
+double
+ParkingSlot::rrx() const
{
+ return this->border_[1].x();
}
+
+double
+ParkingSlot::rry() const
+{
+ return this->border_[1].y();
+}
+
+double
+ParkingSlot::rfx() const
+{
+ return this->border_[2].x();
+}
+
+double
+ParkingSlot::rfy() const
+{
+ return this->border_[2].y();
+}
+
+double
+ParkingSlot::h() const
+{
+ return atan2(this->lfy() - this->lry(), this->lfx() - this->lrx());
+}
+
+bool
+ParkingSlot::parallel() const
+{
+ return this->entry_.len() > this->rear_.len();
+}
+
+bool
+ParkingSlot::right() const
+{
+ return this->border_[1].on_right_side_of(this->entry_);
+}
+
+void
+ParkingSlot::swap_side()
+{
+ this->border_[1].rotate(this->border_[0], M_PI);
+ this->border_[2].rotate(this->border_[3], M_PI);
+}
+
+std::ostream&
+operator<<(std::ostream& o, ParkingSlot const& s)
+{
+ o << "[";
+ o << s.border_[0] << ",";
+ o << s.border_[1] << ",";
+ o << s.border_[2] << ",";
+ o << s.border_[3];
+ o << "]";
+ return o;
+}
+
+} // namespace bcar